WO2011008771A1 - Systems and methods for providing keyword related search results in augmented content for text on a web page - Google Patents

Abstract

The solution of the present disclosure provides augmented content in the form of a convenient search unit. The convenient search unit, or CSU, provides an intext or keyword based augmentation technique that conveniently provides a viewer search results from one or more search engines based on the content of the keyword(s). The CSU is displayed responsive to a viewer's interaction with content of a current destination page, such as user placing the mouse over a predetermined keyword or clicking on the same. The systems and methods of the present disclosure automatically performs a relevant search with a search engine based on the context of the keyword and displays the results of the search in a creative element that overlays the current destination page. Using the overlay technique, the viewer can view and interaction with search results of related content without leaving the current destination page.

Description

Systems and Methods For Providing Keyword Related Search Results in Augmented

Content for Text on a Web Page

RELATED APPLICATION(S)

This application claims the benefit of and priority to U.S. Provisional Application No. 61/225,409, entitled "Systems and Methods for Providing Keyword Related Search Results in Augmented Content for Text on a Web Page," and filed on July 14, 2009, which is incorporated herein by reference in its entirety.

FIELD OF THE INVENTION

The disclosure generally relates to the field of data augmentation, in particular to augmenting textual content in documents with a convenient search advertisement unit.

BACKGROUND

Hypertext is used to provide information in a web page. Hypertext is the organization of computer based text into connected associations enabling a user to quickly access information that the user chooses. An instance of such an association is called a hyperlink or hypertext link. A hyperlink, when selected, leads the viewer to another web page (or file or resource, collectively called the destination page).

In order to access the supplemental information provided through hyperlinks, viewers are required to leave their current web pages. This requirement interrupts the viewers' web browsing experience. As a result, most viewers are reluctant to visit the destination page provided by hyperlinks.

In addition, traditionally the hyperlinks are generated by human editors, a process that is both tedious and subject to human errors. Further, by the time a viewer tries to visit a destination page of a hyperlink, the destination page may cease to exist or have evolved to no longer provide the related information.

In some cases, the viewer leaves the web page to visit a destination page that does not have information desired by the viewer. The user then may have to search for other destination pages to try to obtain the desired information. This may lead the viewer to perform multiple searches and visit several pages to find the desired information. The viewer may become frustrated with the amount of activity to find or not find the desired information and with leaving the current destination page to do so. SUMMARY OF THE INVENTION

The solution of the present disclosure provides augmented content in the form of a convenient search unit. The convenient search unit, or CSU, provides an intext or keyword based augmentation technique that conveniently provides a viewer search results from one or more search engines based on the content of the keyword(s). The CSU is displayed responsive to a viewer's interaction with content of a current destination page, such as user placing the mouse over a predetermined keyword or clicking on the same. The systems and methods of the present disclosure automatically performs a relevant search with a search engine based on the context of the keyword and displays the results of the search in a creative element that overlays the current destination page. Using the overlay technique, the viewer can view and interaction with search results of related content without leaving the current destination page.

In one aspect, the systems and methods of the present disclosure are designed and constructed to improve, increase or optimize one or more advertisement related metrics, such as an entity's comScore number as may be provided by the advertising metric company at comScore.com. The convenient search unit may have one or more web beacons for tracking user interactions, such as content views, related to the convenient search unit content. The systems and methods of the present solution may also include an interface to report or communicate these user interactions with one or more advertising metric tracking services.

In an example embodiment of the present solution, a convenient search unit is designed and constructed to obtain and provide search results of an augmented keyword via Microsoft's search engine bing.com. Embodiments of the bing.com convenient search unit are designed to increase Microsoft's comScore number by making queries against the bing.com search engine, returning those results as XML and displaying them within an "ad" unit. Ad views of longer than 3 seconds, search clicks in under three seconds and new queries are considered for the comScore qSearch number and reported to comScore.com.

Advantages of the present solution include providing search engines and their content providers with other channels, creatives and user scenarios for delivering more relevant advertisements and content to viewers. The convenient search unit form of augmented content of the present solution delivers on-point or relevant search results at a point in which the user is viewing or interacting with such keywords on a web page and does so automatically without the user performing the search and/or the user leaving the current web page view. In this manner, the search engine and the content of content providers accessed via the search engine can deliver relevant search results in an efficient, user friendly manner at a time and place the user may be more interested in obtaining additional information via searching.

Because the search results are presented in an advertisement unit creative, viewers can access more relevant resources in a convenient easily accessible manner. Because the search results are displayed as an overlay of the current web page, the augmented data of the search results are displayed in a third dimension (e.g., a "z-axis") (the first and second dimensions being the length (e.g., a "x-axis") and width (e.g., a "y-axis") of the web page). This allows viewers to access additional relevant content in the form of search results without leaving the current web page. This feature is beneficial for devices with limited screen space, for example, mobile computing devices (e.g., handheld computers) or conventional computer screens having many active windows that are simultaneously displayed.

In some aspects, the present invention is related to a method for providing keyword based search results via a user interface overlay responsive to an indication of a cursor over a keyword identified for augmentation on a currently displayed web page. The method may include a server receiving an indication that a cursor on a web page currently displayed on a client is over a keyword identified for augmentation via a user interface overlay that displays search results. Responsive to the indication, the server may transmit the user interface overlay to the client. Either the server or the user interface overlay may transmit a request for search results based on the keyword to a search engine via a network. The client may display on the currently displayed web page the user interface overlay as an overlay corresponding to the keyword. The user interface overlay may display at least a portion of the search results received from the search engine. In some embodiments, a browser on the client displays the user interface overlay near the keyword on the currently displayed web page.

In some embodiments, the server receives an indication that the cursor was over the keyword for a predetermined time period. In some embodiments, the server receives the indication that the user selected the keyword. In some embodiments, the server generates the user interface overlay to include a predetermined number of search results. In some embodiments, the server generates the user interface overlay to include a uniform resource locator to a web page of the search engine proving the search results. In some embodiments, the server generates the user interface overlay to include one or more advertisements identified for augmentation of the keyword in conjunction with the search results. In some embodiments, the server generates the user interface overlay to include one or more types of media identified for augmentation of the keyword via the user interface overlay in conjunction with the search results. In some embodiments, the server or the user interface overlay transmits to include a search query comprising the keyword. In some embodiments, the server or the user interface overlay transmits include a search query of one or more search terms identified for the keyword. In some embodiments, the server transmits the request and includes a portion of the search results into the user interface overlay transmitted to the client.

In some aspects, the present invention is related to a method for tracking user interactions related to a user interface overlay displayed with a keyword identified for augmentation on a currently displayed web page The method may include a server receiving a first indication that a cursor on a web page currently displayed on a client has been over a keyword for a first predetermined time period. The keyword may be identified for augmentation via a user interface overlay that displays search results. The server may transmit, to the client a user interface overlay for displaying search results received from a search engine based on the keyword. The server may receive a second indication that the user selected a uniform resource locator of a result from the search results displayed by the user interface overlay. The server may transmit a request via a network to the search engine to register a view by the user of the result from the search results. In some embodiments, the user interface overlay is displayed near the keyword on the currently displayed web page until expiration of a second predetermined time period.

In some embodiments, the server receives the second indication the user selected the uniform resource locator after expiration of a second predetermined time period. In some embodiments, the second predetermined time period may be initiated responsive to transmission or receipt of the user interface overlay.

In some embodiments, the server transmits a second request via a network to a tracking service to the register the view. In some embodiments, the user interface overlay provides a display of the search results via a landing page of the search engine. In some embodiments, the server receives the second indication before expiration of a second predetermined time period and in step (d) not transmitting the request to the search engine. In some

embodiments, the server receives the second indication that the user conducted a modified search via the user interface overlay. In some embodiments, the second indication is received after expiration of the second predetermined time period. In some embodiments, the server receives the second indication that the user selected augmented content of the user interface overly instead of the uniform resource location of the result from the search results and not transmitting the request to the search engine.

BRIEF DESCRIPTION OF DRAWINGS

The foregoing and other objects, aspects, features, and advantages of the present invention will become more apparent and better understood by referring to the following description taken in conjunction with the accompanying drawings, in which:

FIG. IA is a block diagram that depicts an embodiment of an environment for providing systems and methods described herein.

FIGs. IB and 1C are block diagrams of computing devices that may be used in any of the embodiments of the systems and methods described herein

FIG. 2 is a block diagram that depicts an embodiment of an augmentation server in FIG. 1.

FIG. 3 A is a flow diagram of an embodiment of a method of producing augmented content.

FIG. 3B is a flow diagram of an embodiment of a method of providing augmented content to users.

FIG. 3C is a flow diagram of an embodiment of a process of operation of

advertisement and client code.

Figures 4A through 4E are screenshots illustrating a web page, its corresponding augmented web page, and a viewer's user experience interacting with the augmented web page according to embodiments of the present disclosure.

FIG. 5 A is block diagram of an embodiment of an ad server platform and platform services.

FIG. 5B is a diagram of an embodiment of stages of a request from a client for platform services. FIG. 5C is a diagram of an embodiment of contextual targeting.

FIG. 5D is a diagram of another embodiment of contextual targeting.

FIG. 5E is a diagram of an embodiment of contextual and behavioral targeting.

FIG. 5F is a diagram of another embodiment of contextual and behavioral targeting.

FIG. 5G is a diagram of another embodiment of contextual and behavioral targeting.

FIG. 5H is a diagram of an embodiment of a campaign selection engine.

FIG. 51 is block diagram of an embodiment of a system to provide augmented content for a keyword on a web page.

FIG. 5 J is a diagrammatic view of an embodiment of augmented content.

FIG. 5K is a flow diagram of an embodiment of a method for delivering augmented content for a keyword on a web page.

FIG. 6 A is a block diagram that depicts an embodiment of a system for providing a convenience search unit, sometimes referred to as a CSU.

FIG. 6B is a diagrammatic view of an embodiment of a CSU. FIG. 6C is another embodiment of a CSU.

FIG. 7 is a flow diagram of an embodiment of a method for delivering a convenience search unit.

In the drawings, like reference numbers generally indicate identical, functionally similar, and/or structurally similar elements. In the drawings, like reference numbers generally indicate identical, functionally similar, and/or structurally similar elements. DETAILED DESCRIPTION

For purposes of reading the description of the various embodiments below, the following descriptions of the sections of the specification and their respective contents may be helpful:

Section A describes a network and computing environment which may be useful for practicing embodiments described herein;

Section B describes embodiments of systems and methods for delivering a augmented content;

Section C describes embodiments of systems and methods of an ad server platform for delivering a plurality of advertisement and augmented content services; and

Section D describes embodiments of systems and methods for providing a convenience search unit.

A. System and Network Environment

Some of the disclosed embodiments describe examples of a method (and

corresponding system and computer program product) for augmenting files with related resources through layered augmentation. Viewers of the augmented files can access the related resources through a multi-layered dialog box. The process of providing additional resources through multilayered dialog box and the multi-layered dialog box are collectively called layered augmentation.

An embodiment of the method identifies data in a file, associates the identified data with reference data in a reference database, and stores the associations in a corresponding augmented file. A viewer of the augmented file can access resources related to a piece of augmented data through layered augmentation. When the viewer moves a pointer over the piece of augmented data (also called mouse-over), the related resources are provided in a multi-layered dialog box. The dialog box is overlaid on the augmented file approximate to the position where the mouse-over occurred. The viewer can navigate through the related resources in the dialog box without leaving the augmented file.

As described herein, a file includes any types of documents such as web pages.

Augmented data, the data with integrated association in an augmented file, include any types of content such as text and image. Resources provided through layered augmentations include textual content, visual content such as images and videos, interactive controls such as dialog boxes, and services such as Internet search service and advertisement. A pointer can be any pointer device such as a mouse, a trackball, a roller, and a touchpad. For purposes of illustration, the method (and corresponding system and computer program product) is described in terms of augmenting keywords (or key phrases) in web pages and delivering related advertisements through multi-layered dialog boxes based on user interactions with the augmented keywords, even though the disclosed embodiments apply to all other types of content, files, and resources as defined above.

The figures and the following description relate to preferred embodiments by way of illustration only. Reference will now be made in detail to several embodiments, examples of which are illustrated in the accompanying figures. The figures depict embodiments of the disclosed system (or method) for purposes of illustration only. It should be noted that from the following discussion, other or alternate embodiments of the structures and methods disclosed herein will be readily recognized by one skilled in the art as viable alternatives that may be employed without departing from the principles described herein.

FIG. IA illustrates an embodiment of a computing environment 100 for augmenting web pages and providing viewers of the augmented web pages with related advertisements through layered augmentation based on user interaction. As illustrated, the computing environment 100 includes an augmentation server 110, multiple content providers (or websites) 120, and one or more client computers (or user systems) 130, all of which are communicatively coupled through a network 140.

The augmentation server 110 is configured to augment keywords (or other types of content) in web pages (or other types of documents) with advertisements (or other types of resources), and deliver the advertisements based on user interaction with the augmented keywords. The augmentation server 110 retrieves web pages from the content providers 120 and augments the web pages. The augmentation server 110 augments a web page by identifying keywords in the web page, associating (or tagging) the keywords with one or more related references in a reference database, generating an augmented web page, and storing the associations in a database. When a user views an augmented web page in a client computer 130 and moves a pointer over one of the augmented keywords (hereinafter "the activated keyword"), the augmentation server 110 displays (or avails) related

advertisements in the client computer 130 through a multi-layered dialog box. An example architecture of the augmentation server 110 is described in detail below with respect to Figure 2. The content providers 120 are entities that provide (or generate), host, publish, control, or otherwise have rights over a collection of web pages (or other types of documents). In one embodiment, the content providers 120 are web servers hosting web pages for viewers to access. The content providers 120 may provide web pages to the augmentation server 110 for layered augmentation. Alternatively, the content providers 120 may either instruct or give permission to the augmentation server 110 to retrieve all or parts of their web pages for layered augmentation.

A client 130 may comprise any personal computer (e.g., based on a microprocessor from the x86 family, the Pentium family, the 680x0 family, PowerPC, PA-PJSC, MIPS families, the ARM family, the Cell family), network computer, wireless device (e.g. mobile computer, PDA, smartphone), information appliance, workstation, minicomputer, mainframe computer, telecommunications or media device that is capable of communication and that has sufficient processor power and memory capacity to perform the operations described herein. For example, the client 130 may comprise a device of the IPOD family of devices manufactured by Apple Computer of Cupertino, California, a PLAYSTATION 2 , PLAYSTATION 3, or PERSONAL PLAYSTATION PORTABLE (PSP) device

manufactured by the Sony Corporation of Tokyo, Japan, a NINTENDO DS, NINTENDO GAMEBOY, NINTENDO GAMEBOY ADVANCED, NINTENDO REVOLUTION, or NINTENTO WII device manufactured by Nintendo Co., Ltd., of Kyoto, Japan, or an XBOX or XBOX 360 device manufactured by the Microsoft Corporation of Redmond, Washington. In some embodiments, the client may include any of the Kindle family of devices sold or provided by Amazon.com.

Operating systems supported by the client 130 can include any member of the WINDOWS family of operating systems from Microsoft Corporation of Redmond,

Washington, MacOS, JavaOS, various varieties of Unix (e.g., Solaris, SunOS, Linux, HP- UX, A/IX, and BSD-based distributions), any embedded operating system, any real-time operating system, any open source operating system, any proprietary operating system, any operating systems for mobile computing devices, or any other operating system capable of running on the computing device and performing the operations described herein. Typical operating systems include: WINDOWS 3.x, WINDOWS 95, WINDOWS 98, WINDOWS 2000, WINDOWS NT 3.51, WINDOWS NT 4.0, WINDOWS CE, WINDOWS XP, and WINDOWS VISTA, all of which are manufactured by Microsoft Corporation of Redmond, Washington; MaC OSX, manufactured by Apple Computer of Cupertino, California; OS/2, manufactured by International Business Machines of Armonk, New York; and Linux, an open source operating system distributed by, among others, Red Hat, Inc., or any type and/or form of a Unix operating system, among others.

The client computers 130 may be any type and form of client devices for users to browse web pages (or other types of documents). In one embodiment, a client computer 130 includes a pointer device (e.g., a mouse, a trackball, a roller, a touchpad, or the like), a conventional web browser (e.g., Microsoft Internet Explorer™, Mozilla Firefox™, or Apple Safari™), and can retrieve and display web pages from the content providers 120 in a conventional manner (e.g., using the HyperText Transfer Protocol). In one embodiment, the client computer 130 displays augmented keywords in an augmented web page differently than the non-augmented content. For example, the augmented keywords can be displayed in a double underline style and/or in a color distinctive from texts that are not augmented. When a user moves a pointer (e.g., mouse pointer) over (e.g., mouse-over) an augmented keyword in the augmented web page, the client computer 130 (or the utilized web browser) generates a request and transmits the request to the augmentation server 110. The

augmentation server 110 receives the request and determines relevant advertisements to transmit to the client computer 130. The client computer 130 (or the utilized web browser) displays the advertisements retrieved from the augmentation server 110 in a multi-layered dialog box overlaying the augmented web page and proximate to the location where the mouse-over occurred. The multi-layered dialog box displays an advertisement and multiple clickable tabs representing the other retrieved advertisements. The viewer can select (e.g., click) a tab to request the dialog box to display the corresponding advertisement. The viewer may navigate among the multiple advertisements and interact with the advertisements without leaving the augmented web page.

The network 140 is configured to communicatively connect the augmentation server 110, the content providers 120, and the client computers 130. The network 140 may be a wired or wireless network. Examples of the network 140 include the Internet, an intranet, a WiFi network, a WiMAX network, a mobile telephone network, or a combination thereof. The network 140 may be any type and/or form of network and may include any of the following: a point to point network, a broadcast network, a wide area network, a local area network, a telecommunications network, a data communication network, a computer network, an ATM (Asynchronous Transfer Mode) network, a SONET (Synchronous Optical Network) network, a SDH (Synchronous Digital Hierarchy) network, a wireless network and a wireline network. In some embodiments, the network 140 may comprise a wireless link, such as an infrared channel or satellite band. The topology of the network 140 may be a bus, star, or ring network topology. The network 140 and network topology may be of any such network or network topology as known to those ordinarily skilled in the art capable of supporting the operations described herein. The network may comprise mobile telephone networks utilizing any protocol or protocols used to communicate among mobile devices, including AMPS, TDMA, CDMA, GSM, GPRS or UMTS. In some embodiments, different types of data may be transmitted via different protocols. In other embodiments, the same types of data may be transmitted via different protocols.

In one embodiment, the augmentation server 110, the content providers 120, and/or the client computers 130 are structured to include a processor, memory, storage, network interfaces, and applicable operating system and other functional software (e.g., network drivers, communication protocols). The client 120, server 110, and content providers 120 may be deployed as and/or executed on any type and form of computing device, such as a computer, network device or appliance capable of communicating on any type and form of network and performing the operations described herein.

FIGs. IB and 1C depict block diagrams of a computing device 100 useful for practicing an embodiment of the client 130, server 110 or content provider 120. As shown in FIGs. IB and 1C, each computing device 100 includes a central processing unit 101, and a main memory unit 122. As shown in FIG. IB, a computing device 100 may include a visual display device 124, a keyboard 126 and/or a pointing device 127, such as a mouse. Each computing device 100 may also include additional optional elements, such as one or more input/output devices 131a-131b (generally referred to using reference numeral 131), and a cache memory 140 in communication with the central processing unit 101.

The central processing unit 101 is any logic circuitry that responds to and processes instructions fetched from the main memory unit 122. In many embodiments, the central processing unit is provided by a microprocessor unit, such as: those manufactured by Intel Corporation of Mountain View, California; those manufactured by Motorola Corporation of Schaumburg, Illinois; those manufactured by Transmeta Corporation of Santa Clara, California; the RS/6000 processor, those manufactured by International Business Machines of White Plains, New York; or those manufactured by Advanced Micro Devices of

Sunnyvale, California. The computing device 100 may be based on any of these processors, or any other processor capable of operating as described herein. Main memory unit 122 may be one or more memory chips capable of storing data and allowing any storage location to be directly accessed by the microprocessor 101, such as Static random access memory (SRAM), Burst SRAM or SynchBurst SRAM (BSRAM), Dynamic random access memory (DRAM), Fast Page Mode DRAM (FPM DRAM), Enhanced DRAM (EDRAM), Extended Data Output RAM (EDO RAM), Extended Data Output DRAM (EDO DRAM), Burst Extended Data Output DRAM (BEDO DRAM), Enhanced DRAM (EDRAM), synchronous DRAM (SDRAM), JEDEC SRAM, PClOO SDRAM, Double Data Rate SDRAM (DDR SDRAM), Enhanced SDRAM (ESDRAM), SyncLink DRAM (SLDRAM), Direct Rambus DRAM (DRDRAM), or Ferroelectric RAM (FRAM). The main memory 122 may be based on any of the above described memory chips, or any other available memory chips capable of operating as described herein. In the embodiment shown in FIG. IB, the processor 101 communicates with main memory 122 via a system bus 150 (described in more detail below). FIG. 1C depicts an embodiment of a computing device 100 in which the processor communicates directly with main memory 122 via a memory port 103. For example, in FIG. IB the main memory 122 may be DRAM.

FIG. 1C depicts an embodiment in which the main processor 101 communicates directly with cache memory 140 via a secondary bus, sometimes referred to as a backside bus. In other embodiments, the main processor 101 communicates with cache memory 140 using the system bus 150. Cache memory 140 typically has a faster response time than main memory 122 and is typically provided by SRAM, BSRAM, or EDRAM. In the embodiment shown in FIG. 1C, the processor 101 communicates with various I/O devices 131 via a local system bus 150. Various busses may be used to connect the central processing unit 101 to any of the I/O devices 131, including a VESA VL bus, an ISA bus, an EISA bus, a

MicroChannel Architecture (MCA) bus, a PCI bus, a PCI-X bus, a PCI-Express bus, or a NuBus. For embodiments in which the I/O device is a video display 124, the processor 101 may use an Advanced Graphics Port (AGP) to communicate with the display 124. FIG. 1C depicts an embodiment of a computer 100 in which the main processor 101 communicates directly with I/O device 131b via HyperTransport, Rapid I/O, or InfiniBand. FIG. 1C also depicts an embodiment in which local busses and direct communication are mixed: the processor 101 communicates with I/O device 131b using a local interconnect bus while communicating with I/O device 131a directly.

The computing device 100 may support any suitable installation device 116, such as a floppy disk drive for receiving floppy disks such as 3.5-inch, 5.25-inch disks or ZIP disks, a CD-ROM drive, a CD-R/RW drive, a DVD-ROM drive, tape drives of various formats, USB device, hard-drive or any other device suitable for installing software and programs such as any software 121 related to providing an agent, such as a safe agent, as described herein. The computing device 100 may further comprise a storage device 128, such as one or more hard disk drives or redundant arrays of independent disks, for storing an operating system and other related software, and for storing application software programs such as any program related to an agent 121 as described herein. Optionally, any of the installation devices 116 could also be used as the storage device 128. Additionally, the operating system and the software can be run from a bootable medium, for example, a bootable CD, such as KNOPPIX®, a bootable CD for GNU/Linux that is available as a GNU/Linux distribution from knoppix.net.

Furthermore, the computing device 100 may include a network interface 118 to interface to a Local Area Network (LAN), Wide Area Network (WAN) or the Internet through a variety of connections including, but not limited to, standard telephone lines, LAN or WAN links (e.g., 802.11, Tl, T3, 56kb, X.25), broadband connections (e.g., ISDN, Frame Relay, ATM), wireless connections, or some combination of any or all of the above. The network interface 118 may comprise a built-in network adapter, network interface card, PCMCIA network card, card bus network adapter, wireless network adapter, USB network adapter, modem or any other device suitable for interfacing the computing device 100 to any type of network capable of communication and performing the operations described herein. A wide variety of I/O devices 131a-131n may be present in the computing device 100. Input devices include keyboards, mice, trackpads, trackballs, microphones, and drawing tablets. Output devices include video displays, speakers, inkjet printers, laser printers, and dye- sublimation printers. The I/O devices 131 may be controlled by an I/O controller 123 as shown in FIG. IB. The I/O controller may control one or more I/O devices such as a keyboard 126 and a pointing device 127, e.g., a mouse or optical pen. Furthermore, an I/O device may also provide storage 128 and/or an installation medium 116 for the computing device 100. In still other embodiments, the computing device 100 may provide USB connections to receive handheld USB storage devices such as the USB Flash Drive line of devices manufactured by Twintech Industry, Inc. of Los Alamitos, California.

In some embodiments, the computing device 100 may comprise or be connected to multiple display devices 124a-124n, which each may be of the same or different type and/or form. As such, any of the I/O devices 131a-131n and/or the I/O controller 123 may comprise any type and/or form of suitable hardware, software, or combination of hardware and software to support, enable or provide for the connection and use of multiple display devices 124a-124n by the computing device 100. For example, the computing device 100 may include any type and/or form of video adapter, video card, driver, and/or library to interface, communicate, connect or otherwise use the display devices 124a-124n. In one embodiment, a video adapter may comprise multiple connectors to interface to multiple display devices 124a-124n. In other embodiments, the computing device 100 may include multiple video adapters, with each video adapter connected to one or more of the display devices 124a-124n. In some embodiments, any portion of the operating system of the computing device 100 may be configured for using multiple displays 124a-124n. In other embodiments, one or more of the display devices 124a-124n may be provided by one or more other computing devices, such as computing devices 100a and 100b connected to the computing device 100, for example, via a network. These embodiments may include any type of software designed and constructed to use another computer's display device as a second display device 124a for the computing device 100. One ordinarily skilled in the art will recognize and appreciate the various ways and embodiments that a computing device 100 may be configured to have multiple display devices 124a-124n.

In further embodiments, an I/O device 131 may be a bridge 170 between the system bus 150 and an external communication bus, such as a USB bus, an Apple Desktop Bus, an RS-232 serial connection, a SCSI bus, a Fire Wire bus, a Fire Wire 800 bus, an Ethernet bus, an AppleTalk bus, a Gigabit Ethernet bus, an Asynchronous Transfer Mode bus, a HIPPI bus, a Super HIPPI bus, a SerialPlus bus, a SCI/LAMP bus, a FibreChannel bus, or a Serial Attached small computer system interface bus.

A computing device 100 of the sort depicted in FIGs. IB and 1C typically operate under the control of operating systems, which control scheduling of tasks and access to system resources. The computing device 100 can be running any operating system such as any of the versions of the Microsoft® Windows operating systems, the different releases of the Unix and Linux operating systems, any version of the Mac OS® for Macintosh computers, any embedded operating system, any real-time operating system, any open source operating system, any proprietary operating system, any operating systems for mobile computing devices, or any other operating system capable of running on the computing device and performing the operations described herein. Typical operating systems include: WINDOWS 3.x, WINDOWS 95, WINDOWS 98, WINDOWS 2000, WINDOWS NT 3.51, WINDOWS NT 4.0, WINDOWS CE, and WINDOWS XP, all of which are manufactured by Microsoft Corporation of Redmond, Washington; MacOS, manufactured by Apple Computer of Cupertino, California; OS/2, manufactured by International Business Machines of Armonk, New York; and Linux, a freely-available operating system distributed by Caldera Corp. of Salt Lake City, Utah, or any type and/or form of a Unix operating system, among others.

In other embodiments, the computing device 100 may have different processors, operating systems, and input devices consistent with the device. For example, in one embodiment the computer 100 is a Treo 180, 270, 1060, 600 or 650 smart phone

manufactured by Palm, Inc. In this embodiment, the Treo smart phone is operated under the control of the PalmOS operating system and includes a stylus input device as well as a five- way navigator device. In some embodiments, the computing device may include any type and form of wireless reading device, such as any Kindle device manufactured by

Amazon.com Inc. of Seattle, Washington. Moreover, the computing device 100 can be any workstation, desktop computer, laptop or notebook computer, server, handheld computer, mobile telephone, any other computer, or other form of computing or telecommunications device that is capable of communication and that has sufficient processor power and memory capacity to perform the operations described herein.

B. Systems and Methods For Providing Augmented Content

FIG. 2 is a block diagram illustrating one example architecture of the augmentation server 110 as described above with respect to FIG. 1. As illustrated, the augmentation server 110 includes a handler 36, a locator 42, an analyzer 45, a generator 48, and a reference database 39. The components 36 through 45 may include a software or firmware instruction that can be stored within a tangible computer readable medium (e.g., magnetic disk drive, optical disk or solid state memory such as flash memory, or random-access memory) and executed by a processor or equivalent electrical circuits, state machines, microcode, or the like.

A source data file 30 (e.g., a web page) resides on a server (e.g., a content provider 120) on a network 140 (e.g., the Internet). The handler 36 retrieves the source data file 30 for augmentation by the augmentation server 110. The locator 42 examines the retrieved source data file 30 for comparison to data in the reference database 39. In one embodiment, the locator 42 analyzes content of the source data file 30 for keywords, searches corresponding reference data in the reference database 39, and provides the keywords and the corresponding reference data to the analyzer 45. In an alternate embodiment, rather than analyzing the source data file 30 for keywords, the locator 42 retrieves a list of keywords from the reference database 39 and enumerates through the textual content of the source data file 30 for matches.

The analyzer 45 creates associations between the keywords and the corresponding reference data found by the locator 42. The generator 48 generates an augmented data file 50 by embedding the associations created by the analyzer 45 in the source data file 30. The generator 48 embeds associations by generating intelligent tags for the keywords, and augmenting the keywords with the intelligent tags. In one embodiment, an intelligent tag is an alphabetic and/or numeric string that identifies its associated keywords, and/or reference data, and optionally includes an unique identification number (hereinafter called the association ID). The generator 48 inserts the generated intelligent tags into the source data file 30 to generate the augmented data file 50. Web pages with the integrated intelligent tags are called augmented web pages. Keywords with the integrated intelligent tags are called augmented keywords. The generator 48 also stores the identified keywords and/or the associations in a database for later references.

The resulting augmented data file 50 is returned to the handler 36 to reside at a Universal Resource Locator (URL) address on the network 140 (e.g., at the content provider 120 from which the source data file 30 is retrieved). In one embodiment, the handler 36 also receives requests (or signals) from client computers 130 indicating user interactions with the augmented data file, and transmits to the client computers 130 related advertisements for display through layered augmentation. Layered augmentation is described in detail below with respect to FIGS. 3A through 3C. The handler 36 retrieves the activated keywords (e.g., from the requests), and determines one or more relevant advertisements from an advertising database (not shown) that matches the keywords and/or the associated reference data. In one embodiment, rather than transmitting the related advertisements, the handler 36 transmits addresses (e.g., URLs) of the relevant advertisements to the requesting client computer 130. The client computer 130 resolves the addresses to retrieve the advertisements.

The reference database 39 stores reference data such as types of advertisements (e.g., television advertisements), categories of advertisements (e.g., storage rental, home equity loan), and/or information about specific advertisements (e.g., associated keywords, format information, price the advertiser is willing to pay, and URL of the advertisement). The reference database 39 may be a relational database or any other type of database that stores the data, such as a flat file. In one embodiment, the reference database 39 is a web enabled reference database supporting remote calls through the Internet to the reference database 39.

The components of the augmentation server 110 can reside on a single computer system or several computer systems located close by or remotely from each other. For example, the analyzer 45 and the generator 48 may reside on separate web servers, and the reference database 39 may be located in a dedicated database server. In addition, any of the components or sub-components may be executed in one or multiple computer systems.

Web pages (or web browsers) can provide additional information to viewers. For example, when a user places a mouse over a link label of a hyperlink, a web browser displays the associated destination URL (e.g., on a status bar of the web browser). As another example, when a user places a pointer over a keyword, the web browser may generate a pop-up dialog box, and display relevant information (e.g., an explanation of the keyword). The process of providing additional information to web page viewers is called augmentation.

A keyword (or phrase) often has multiple aspects of related information, each having multiple aspects of related information. For example, the key phrase "digital camera" is related to its history, underlying technology, and available products and services. A specific product related to digital camera has related information such as product description, customer review, and competing products. Usually only one aspect of the related

information is provided through augmentation due to limited display space.

Multiple aspects of related information can be arranged and provided to viewers through layered augmentation. Each aspect of related information can be assigned to one specific layer of the layered augmentation. Viewers can navigate among the multiple aspects of related information by accessing the different layers of the layered augmentation without leaving the web page. For example, the augmented information can be displayed in a multi- layered dialog box. A viewer can navigate among different layers by selecting associated tabs displayed in the dialog box in which each tab is associated with a layer. Alternatively, the multiple layers may be stacked in a manner similar to windows in Microsoft Windows™ Operating System. The stacked layers may be arranged in a horizontal, vertical, or cascade style, showing a small exposed portion of each layer, such as a title area or a corner area. Navigation between each layer in the stack can be through selection of that small exposed portion of the layer within the stack. The process of providing additional information (or resources) through multi-layered dialog box and the multi-layered dialog box are collectively called layered augmentation.

Figures 3 A through 3 C are flowcharts collectively illustrating an example process (or method) for augmenting web pages and providing viewers of augmented web pages with related advertisements through layered augmentation. In one embodiment, the illustrated method (or either of its sub-methods 300, 350, and 390) is implemented in a computing environment such as the computing environment 100. One or more portions of the method may be implemented in embodiments of hardware and/or software or combinations thereof.

By way of example, the illustrated method may be embodied through instructions for performing the actions described herein and such instrumentations can be stored within a tangible computer readable medium and are executable by a processor. Alternatively (or additionally), the illustrated method may be implemented in modules like those in the augmentation server 110 described above with respect to Figure 2 and/or other entities such as the content providers 120 and/or the client computers 130. Furthermore, those of skill in the art will recognize that other embodiments can perform the steps of the illustrated method in different order. Moreover, other embodiments can include different and/or additional steps than the ones described here.

Figure 3A illustrates an example process (or method) 300 for augmenting web pages. As illustrated in Figure 3 A with reference to components of the augmentation server 110 in Figure 2, at an appropriate starting terminus 10, the method 300 begins by reading a piece of structured data from a source data file 30 at a block 13 (e.g., through the handler 36). The source data file 30 may be one designated by an input uniform resource locator (URL) address or by any suitable means to designate a resource. Upon opening the source data file 30, the method 300 may optionally identify the type of content on the page with a content identifier such as a MIME header (e.g., through the locator 42). In one embodiment of the invention, the method 300 merely searches for the presence of a piece of reference data (e.g., through the locator 42), either informed by the content identifier or by simply searching an occurrence of a piece of well structured data (e.g., a keyword) within the source data file. In addition, once the source data file 30 is open, the method 300 has its content available for comparison to reference data in the reference database 39. Other methods and examples to read a piece of structured data from the source data file are described in U.S. Application No. 12/033,539, filed on February 19, 2008, the content of which is incorporated by reference in its entirety. At a block 16, the method 300 locates one or multiple pieces of reference data in the reference database 39 corresponding to the piece of structured data read in the source data file 30 (e.g., through the locator 42). In one embodiment, the locator 42 searches for reference data in the reference database 39 that match the piece of structured data by making function calls to the reference database 39. In one embodiment, the structured data are keywords, and the reference data also contain keywords.

Keywords are a facile and efficient means of generating layered augmentation. In addition to or instead of using keywords, one embodiment uses a "fuzzy expert" or a neural network analysis of the source data file 30, such as by a natural language search of the source data file 30 to generate a distinct identifier for the content in the source data file 30. One advantage of a natural language search is the ability to better place content in context making links more contextually appropriate, for instance, security might relate to security of a physical plant such as security of a residence in one source data file 30 in one context and security of a website in another. In one embodiment, the method 300 determines a context of the keywords and/or the source data file 30 based on statistical modeling (e.g., through the locator 42). For example, a context can be assigned a pre-defined set of terms which acts as a fingerprint for the context (hereinafter called context fingerprint). The locator 42 can compare the context fingerprints associated with a collection of contexts with the terms within the source data file 30 to determine a percentage match for each context in the collection. Where a high percentage match is achieved (e.g., exceeding a pre-defined percentage match threshold), the locator 42 determines that the associated context is the context for the source data file 30. Alternatively or in conjunction, the locator 42 may determine the context associated with the highest percentage match as the context for the source data file 30. The context can be used to locate corresponding reference data and/or related resources.

At a block 19, the method 300 generates an association to the piece of structured data based upon the located matching reference data (e.g., through the analyzer 45). In one embodiment, a piece of reference data includes an identifier such as a keyword, a context, a unique identification number, and/or associated URL address(es) of intended destination resource(s) based upon the occurrence of the corresponding keywords in the source data file 30. Generating an association means to associate the piece of structured data located in the source data file 30 with the located reference data in the reference database 39. The generated association might optionally include additional identification codes such as an association ID. The method 300 then augments the original source data file 30 with the generated association at a block 22 to generate an augmented data file 50 (e.g., through the generator 48).

In one embodiment, the method 300 expresses the association as intelligent tags (e.g., through the generator 48). The method 300 generates intelligent tags for the located keywords and tags the keywords with the generated intelligent tags. The intelligent tags contain information about the associated keywords such as the keyword and related context, and information about the associated reference data such as IDs that uniquely identify the reference data in the reference database 39. For example, the intelligent tags may contain requirement (or preference) information about advertisements (or other types of resources) to be associated with the keyword, such as types of advertisements and a minimum advertisement fee. In one embodiment, the intelligent tags also format the augmented keywords differently than the other textual content in the augmented web pages. Having generated the augmented data file 50, the method 300 then terminates at a block 25.

In one embodiment, the augmentation server 110 (or the content providers 120) also augments the web pages by including computer code (hereinafter called client code) to monitor and report viewers' interactions with the augmented keywords. The computer code can be in any computer language, such as JavaScript. Additional functions of the client code are described in detail below with respect to Figures 3B and 3C.

The augmented data file 50 can be delivered (or transmitted) to client computers 130 for display through a web browser to viewers to provide related resources through layered augmentation. The delivery of the augmented data file 50 and the process to provide layered augmentation is described in detail below with respect to Figures 3B and 3C. For purpose of illustration, the method is described in terms of web pages augmented with advertisements, even though the disclosed embodiments apply to other types of augmented data file and resources.

Referring now to Figure 3B, a flowchart illustrating an example process (or method) 350 for providing layered augmentation to viewers of augmented web pages. As illustrated, the method 350 transmits 355 an augmented web page to a client computer. For example, a user of the client computer 130 may enter the URL of an augmented web page (or the corresponding original web page) in the address bar of a conventional web browser (e.g., Microsoft Internet Explorer™, Mozilla Firefox™, or Apple Safari™). The web browser of the client computer 130 (hereinafter called the client web browser) resolves the URL and transmits a request for the web page to a corresponding content provider. Responding to the request, the content provider transmits 355 the augmented web page to the client web browser for display. In one embodiment, the client web browser displays augmented keywords in a double underline style and/or in a color distinctive from text that is not augmented in the augmented web page.

The method 350 receives 360 an intelligent tag request from the client computer 130. As described above with respect to Figure 3 A, the augmented web page contains client code that monitors user interactions with augmented keywords. In one embodiment, if the user moves a pointer (e.g., a pointer controlled by a mouse, navigation button, or touchpad) over (a mouse-over) an augmented keyword (the activated keyword), the client code (which may be integrated with the web browser, for example, as a plug-in applet) generates an intelligent tag request and transmits the request to the augmentation server 110. The request indicates the mouse-over user activity to the augmentation server 110. The request may contain information that uniquely identifies the activated keyword (e.g., an association ID), and/or other information such as the activated keyword itself.

The method 350 determines 365 advertisements relevant to the activated keyword for the received request based on the keyword and/or the associated reference data. In one embodiment, the augmentation server 110 extracts the keyword and/or related context from the request, retrieves the associated reference data from the reference database 39, and determines 365 the relevant advertisements by searching in an advertisement database using the keyword and/or requirements set forth in the associated reference data (e.g.,

advertisement category, context, fee requirements, etc.).

In one embodiment, the method 350 determines 365 the advertisements that match the best (e.g., matching the activated keyword and/or satisfies the most number of reference requirements) as the relevant advertisements. In another embodiment, the method 350 determines 365 relevant advertisements based on a context of the augmented web page and/or the activated keyword. For example, for a key phrase "digital camera" in an article about digital camera, the method 350 may determines the following resources as relevant: a product review of a digital camera in CNET.com, a collection of user reviews at Buy.com, and a selection of similar digital cameras. The context can be determined when the activated keyword is identified in method 300.

In one embodiment, the method 350 determines a sequence for the related

advertisements. The top advertisement in the sequence (also called the default advertisement or the primary advertisement) is the advertisement being displayed on the top layer of the layered augmentation. The lower ranked advertisements (also called secondary

advertisements) are made available on lower layers of the layered augmentation. In one embodiment, the method 350 uses a bidding system to determine related advertisements sequence. For example, for a key phrase "digital camera," there may be multiple related advertisements (e.g., advertisements for different brands or models of digital cameras), each having a bid (or budget or cost) for the key phrase. The method 350 may determine a sequence of the advertisements based on their bids, the one with the highest bid ranked the highest and so on.

In another embodiment, the method 350 may determine the sequence of multiple advertisements based on factors other than bidding prices. For example, the method may consider factors such as relationships among the multiple advertisements (e.g., prioritizing video advertisements over text ones), prior user interactions with the advertisements (e.g., prioritizing advertisements with higher interacting rate), and contexts of the augmented keyword (e.g., prioritizing advertisements from retailers or service providers having branches near a geographical context of the keyword and/or the augmented web page, or geographic locations of a substantial portion of viewers of the web page).

Further, specific sequences may be set for specific keywords and/or parties (e.g., content providers, advertisers, users). For example, if the keyword(s) is a music artist (or band, album) name, the method 350 may make available his songs (e.g., playback through an embedded music player) on the top layer and other resources on lower layers. As another example, if the keyword(s) is a location name (e.g., Yellowstone National Park), the method 350 may make available the relevant map (e.g., MapQuest™ Map) on the top layer. As noted above, the resources made available through the layered augmentation need not to be advertisements and can be related contents such as related articles, videos, images, music, to name only a few. For example, a content provider may specify that the layered

augmentations in its web pages make available a set of links to its other relevant web pages (e.g., within the same website) where the keyword(s) being augmented is cross-indexed.

In one embodiment, viewers can set their preferences to determine a preferred sequence for the layered augmentation. For example, a viewer may prefer video

advertisements while another may disfavor them (e.g., due to bandwidth constrains at receiving device). As a result, the method 350 may place video advertisements higher on a sequence for the first viewer, while not consider video advertisements for augmentation for the second viewer. Viewer preferences can be stored in a database such as the reference database 39 along with other viewer related data (e.g., profile data).

The method 350 transmits 370 the relevant advertisements to the client computer 130 for display. In one embodiment, the method 350 retrieves the advertisements from an advertisement database, and transmits 370 them to the client web browser (or the client computer) for display. Alternatively, the method 350 may transmit references of the advertisements (e.g., their URLs) to the client web browser for retrieval.

In one embodiment, the method 350 generates computer code (hereinafter called the advertisement code) to facilitate user interaction with the advertisements. Similar to the client code, the advertisement code can be in any computer language, such as JavaScript. The advertisement code may display the relevant advertisements in a multi-layered dialog box (or popup box) when the viewer moves a pointer over the activated keyword. The method 350 transmits the generated advertisement code along with the related

advertisements to the client web browser. In one embodiment, the advertisement code is a part of the client code, and is integrated in the augmented web page when the page is generated

The client web browser displays 375 the relevant advertisements in a layered dialog box proximate to the activated keywords (or the position where the mouse-over is occurring) as an in-page overlay. In one embodiment, the client web browser utilizes the

advertisement code to display the advertisements in a multi-layered dialog box. The advertisements are displayed according to their sequence. In one embodiment, only the top advertisement is displayed and the lower ranked advertisements are represented by selectable tabs. An example process of the operation of the advertisement code and the client code is described in detail below with respect to Figure 3C.

Referring now to Figure 3C, a flowchart illustrating an example process (or method) 390 of the client code and/or the advertisement code. As illustrated, the method 390 determines whether a pointer is positioned over an augmented keyword (the activated keyword), and if so, sets 392 the primary advertisement as the active advertisement, and displays 394 the active advertisement in a multi-layered dialog box overlaying the augmented web page in a position proximate to the activated keyword or the mouse-over. The multi-layered dialog box also displays multiple selectable (e.g., clickable) tabs representing the lower layers. The viewer can select a tab to request the multi-layered dialog box to display the corresponding layer. If the user selected a tab, the method 390 sets 396 the advertisement corresponding to the selected layer as the active advertisement and displays 394 it in place of the previously displayed advertisement.

The viewer can also interact with the currently displayed advertisement by selecting the advertisement. If the viewer selects the advertisement, the method 390 responds 398 to the user selection based on the nature of the user selection and the configuration of the advertisement. For example, if the user clicks on the active advertisement, the method 390 redirects the web browser to a web page related to the active advertisement. Alternatively, if the user drags a scrollbar displayed on the dialog box, the method displays different portions of the active advertisement as the user drags along the scrollbar. In one embodiment, if the viewer moves the pointer away from the activated keyword and/or the multi-layered dialog box for an extended period of time, the method 390 hides the dialog box.

Referring back to Figure 3B, in one embodiment, rather than displaying multiple advertisements, the method 350 displays multiple aspects (or portions) of the same advertisement in the multi-layered dialog box. For example, the multi-layered dialog box may display an image and brief description of a product, and present two tabs, one for user reviews and the other for playback of a television advertisement of the product. The viewer may interact with the advertisement through the multi-layered dialog box without having to navigate away from and otherwise leave the current web page the viewer is interacting with in the web browser. For example, if the advertisement contains video, the multi-layered dialog box may overlay the video with video controls (e.g., forward, rewind, play/pause, volume, etc.). The multi-layered dialog box may also provide functional resources such as web searches, enabling viewers to conduct web searches and/or review search results without leaving the augmented web page.

The method 350 tracks 380 the received requests, the advertisements displays, and/or the user's interactions with the advertisements. These activities may be logged in a database (e.g., the reference database 39) or reported to another device or person (e.g., via electronic mail).

The methods described above with respect to Figures 3 A through 3 C are illustrated below in an example together with accompanying screenshots in Figures 4 A through 4E. Initially, the augmentation server 110 retrieves a web page 400 for augmentation. The web page 400 may contain textual content of any subject. Figure 4 A shows an example of the web page 400 as displayed in Microsoft Internet Explorer™. As shown in Figure 4A, the web page 400 is retrieved from website wvvQViCornputirigjiet and contains a paragraph about computer virus.

The augmentation server 110 reads 13 the web page 400 for keywords. The augmentation server 110 identifies the keyword "security" 410 for layered augmentation. The augmentation server 110 locates 16 a piece of reference data matching the keyword "security" 410 and determines a context of computer security for the keyword 410. The piece of reference data includes an advertisement category for computer security services. The augmentation server 110 generates 19 an association of the keyword "security" 410 and the located piece of reference data.

The augmentation server 110 augments 22 the web page 400 by generating an intelligent tag encoding the generated association, and integrating the intelligent tag in an augmented web page 450. The augmentation server 110 also includes in the augmented web page 450 JavaScript code (client code) that captures user interactions with the augmented keyword 410.

A web browser running on a client computer 130 retrieves the augmented web page 450 and displays it to a user (e.g., responding to the user entering an URL of the web page 400 or 450 in the address bar of the web browser). Figure 4B illustrates a screenshot of the augmented web page 450 as displayed on an Internet Explorer™ web browser after it is retrieved by the browser. It is noted that in Figure 4B the augmented keyword 410 is displayed in a double underline style to distinguish from conventional hyperlinks that are single underlined.

Subsequently, the user may move a pointer (e.g., controlled by a mouse, stylus, or touchpad) over the double underlined augmented keyword 410 (the activated augmented keyword). This user action is also referred to as a mouse-over. Detecting the mouse-over, the embedded JavaScript code (the client code) in the augmented web page 450 (or the web browser) generates an intelligent tag request that uniquely identifies the activated augmented keyword 410 and/or the related context, and transmits the request to the augmentation server 110. The augmentation server 110 receives 360 the request, retrieves stored association of the keyword 410, and determines 365 relevant advertisements by searching for advertisements corresponding to the keyword 410 and/or the related context in an advertising database. In the present example, the augmentation server 110 determines 365 that an advertisement for Cisco security center is the relevant advertisement associated with the augmented keyword 410. The augmentation server 110 determines a sequence of various parts of the Cisco advertisement and/or other relevant advertisements. In the present example, the

augmentation server 110 determines that a description of the Cisco security center ranks top in the sequence, followed by its customer reviews, and a list of competing services.

The augmentation server 110 transmits 370 the related advertisement(s) back to the web browser for display. The augmentation server 110 also transmits JavaScript code (advertisement code) that enables layered representation of the transmitted advertisements.

The web browser (or the advertisement code) displays 375 the received

advertisement(s) as an overlay in a multi-layered dialog box in proximity to the keyword 410 or the location where the mouse-over occurred. As illustrated in Figure 4C, the user has moved a mouse pointer over the keyword 410. As a result, the web browser receives advertisements related to the keyword "security" 410 and displays them in a multi-layered dialog box 460 proximate to the pointer.

As illustrated, the multi-layered dialog box 460 displays an advertisement about CISCO security center. On the bottom of the multi-layered dialog box 460 are two tabs labeled "Click to view customer review" and "Click to view alternative services," respectively. Note that this is consistent with the sequence of the advertisements (and/or advertisement portions) determined by the augmentation server 110. The user can navigate the advertisements within the multi-layered dialog box 460 by clicking the labeled tabs. The user can also visit the corresponding advertiser's web page by clicking the advertisement. While the user navigates within the multi-layered dialog box 460, the augmented web page 450 remains as the current web page displayed in the client web browser. The user can quickly resume browsing the rest of the augmented web page 450.

As illustrated in Figure 4D, when the user clicks (or mouse-over) the tab labeled "Click to view customer review," the multi-layered dialog box 460 displays customer reviews for Cisco security center. It is noted that the label on the tab representing customer review changes to "Click to hide customer review." The user can click the tab to resume viewing the previous advertisement for Cisco security center.

As illustrated in Figure 4E, when the user clicks the Cisco security center advertisement, the advertisement code redirects the client web browser to the advertiser's web page, in this case a web page related to Cisco security center. C. Systems and Methods of an Ad Server Platform

Referring now to Fig. 5 A, an embodiment of an environment and systems for providing a plurality of augmented content and related services. In brief overview, an ad server platform 110' delivers a plurality of services, such an in-text services 510, interest ads 512 and related content 514 services. The ad server platform 110' may include a context engine 502, an interested engine 504, a campaign selection engine 506 and/or an advert resolution engine. The ad server may include or further include any embodiments of the augmentation server 110 described herein.

The ad server platform 110' may comprise any combination of modules,

applications, programs, libraries, scripts or any other form of executable instructions executing on one or more servers. The ad server platform 110' may provide services directed to advertisers to reach a plurality of users across a plurality of publisher websites, such as content providers 120. The services of the ad server platform 110' may combine the precise word targeting with delivery of rich media and video content. The ad server platform 110' may provide services directed to publishers to received additional advertising revenue and real-estate with adding more clutter on their web-sites. The ad server platform provides a user controlled environment, allowed the user to view augmented content, such as advertising, only when these choose to via mouse interaction over a relevant word of interest - a keyword. As such, an ad impression may be pre-qualified in that a user must choose to view the ad by moving their mouse over or clicking on a word or phrase of interest. This may be referred to as user-initiation impressions.

The ad server platform may provide in-text advertising services 510. In-text services reads web pages and hooks words and word-phrases dynamically and in real time. The hooked words may be linked or hyperlinked to augmented content in any manner. In one embodiment, the words are double underlined but any type of indicator may be used such as a single underline or an icon. In some embodiments, the code for in-text services is installed by publishers into their sites and does not require any additional code, adware or spyware to be downloaded or uploaded by a user. When a user mouses over or clicks on hooked (e.g., double underlined) word or phrase, the code display a user interface overlay, sometimes referred to as a tooltip, on the web page and near the hooked word or phrase.

The ad server platform may provide interest ad services 512. The interest ad services identifies words of interest within a web page to deliver advertisements that are related to these words of interest. The interest ad service may identify the words on the page to analyze those words to determine which words are core or central to that page. These set of core word are keywords to identify one or more ad campaigns relevant to those keywords and the user's interests. This may minimize wasted impressions and deliver and advertising experience that relates more directly to the user's interest.

The ad server platform may provide related content services 514. The related content services may provide, create or generate an automated linking system that conveniently delivers relevant additional content from the same or different publishes in the form of videos, articles and information. The related content services may read web pages and hook words and word-phrases dynamically and in real time. The hooked words may point or navigate the user through content related to the hooked words available through a website, network or portal. For example, the related content service may link a word on the page to re-circulate the user through additional content, such as other web pages, of the publisher. In some embodiments, the related content service may automatically mirror the hyperlink style of a publisher's editorial links or already provided hyperlinks. The related content services may generate or add an icon, such as search icon, that indicates that augmented content is returned or available.

In further details, the ad server platform may comprise one or more context engines 502. The context engine may comprise any type and form of executable instructions executing on a device, such as a server. The context engine may comprise any functions, logic or operations for analyzing content of a web page. The context engine may use any type and form of semantics based algorithm to determine the meaning of the keyword relevant to the content of the page, the user, the web-site, the publisher and/or the campaign. The context engine may determine the intended structure and meaning of words, phrases, sentences or text in the content of the page. The context engine may analyze the text in the content to determine any characters, text, strings, words, terms and/or phrases, or any combinations thereof, that match or correspond to any characters, text, strings, words, terms and/or phrases, or any combinations thereof of any one or more campaigns. The context engine may analyze the content of the page for keywords from campaigns targeted at the web-site, publisher or content provider of the page. The context engine may determine any type of metrics on the content of the web page and of keywords of targeted campaigns of the web page. The context engine may use any type and form of algorithm to determine a keyword relevancy weight such as by location of the keyword, the frequency of the keywords and the length of the keyword. For example, for location weighting, those keywords that appear earlier in the content may be considered more relevant than those that appear later. For frequency relevancy, the more a keyword is repeated within the content, the more relevant the keyword may be considered. For length relevancy, the more words in a keywords the less generic the keyword may be and the more relevant the keyword may be considered.

The ad server platform may comprise one or more interest engines 504. The interest engine may comprise any type and form of executable instructions executing on a device, such as a server. The interest engine may comprise any functions, logic or operations for tracking and storing user information and/or behavior to a behavioral profile. The interest engine may track and store the user's location, operating system and/or browser. The interest engine may track a predetermined number of keywords a user has seen over a certain time period. The interest engine may track a predetermined number of relevant terms a user has viewed over a certain time period. The interest engine may track the a predetermined number of searches for which a user clicked a search result and landed on the content providers web-site or web. The interest engine may store the recent search terms and/or recently viewed terms into a behavioral profile for the user. The ad server platform, context engine and/or interest engine may change the weighting of keywords in content of a page responsive to any information stored in any behavioral profiles. For example, the ad server platform, context engine and/or interest engine may use a multiplier to upweight or downweight one or more keywords.

The ad server platform may comprise one or more campaign selection engines 506. The campaign selection engine may comprise any type and form of executable instructions executing on a device, such as a server. The campaign selection engine may comprise any functions, logic or operations for selecting or matching a campaign to a set of one or more keywords identified and/or weights for content of a page. The campaign selection engine may identify and select a campaign from a plurality of campaigns. The campaign selection engine may identify and select a first set of campaigns from a plurality of campaigns that meet a first threshold or criteria. From the first set of campaigns, the campaign selection engine may order or rank these campaigns using any type and form of algorithms. In some embodiments, the campaign selection engine may provide a campaign-level relevance of the keywords. The campaign selection engine may determine a relevance number or weighting for each campaign relative to the weighted keywords. In some embodiments, each campaign may provide a priority to keywords, web-pages or publishers. In some embodiments, each campaign may provide a relevance weighting to keywords, web-pages or publishers. The campaign selection engine may also comprise any set of one or more rules or restrictions for either changing the ranking, keeping a campaign or removing the campaign. Based on applying these rules and/or restrictions, the campaign selection engine selects from the first set of one or more companies a second set of one or more campaigns to use for augmenting the identified keywords on the web-page.

The ad server platform may comprise one or more advert resolution engines 508. The advert resolution engine may comprise any type and form of executable instructions executing on a device, such as a server. The advert resolution engine may comprise any functions, logic or operations for resolving the advertisement to use for a hook. For each advertisement, the advert resolution engine may determine whether the advertisement is a backfill or to be obtained from a backfill network. If the advertisement is backfill, the advert resolution engine calls or communicates with the backfill provider's servers. For example, the advert resolution engine may include one or more handlers designed and constructed to communicate with a particular backfill provider. When an advertisement is received from the backfill provider or when the advertisement if not coming from a backfill, the advert resolution engine may perform any type and form of filtering on the

advertisement, such as for making sure the ad meets any rules or restrictions for content. The advert resolution engine includes a placer for selecting an instance of a keyword to hook with the advertisement. When the advert resolution engine has checked for backfill, filters the advertisement and selected an instance to hook for all the intended advertisements, the advert resolution engine may hook the keywords. The advert resolution engine may perform these operations for content other than advertisements, such as other types of augmented content.

Referring now to Figures 5B through 5H, diagrams of embodiments of the functionality and operations of the ad server platform are depicted. FIG. 5B depicts an embodiment of high level overview of the process from the client perspective. FIG. 5C depicts an embodiment of contextual targeting. FIG. 5D depicts an embodiment of keyword relevancy weighting. FIG. 5E depicts an embodiment of behavioral targeting. FIG. 5F depicts a further embodiment of behavioral targeting. FIG. 5G depicts an embodiment of further weighting based on behavioral targeting. FIG. 5H depicts and embodiment of campaign selection.

Referring to FIG. 5A, at step 502, a user on a client 120 requests a page from a publisher, such as a web page of a content provider 120. At step 504, the client receives the page and the browser loads the page. The user may start browsing the web page. At step 506, an agent on the page, such as a script starts an analysis in the background. The agent may be triggered upon loading of the web page or start the analysis upon receipt and/or loading of the web page. The agent may communicate with the ad server platform to perform any of the services of in-text advertising, related content or interest ads. For example, the agent may send content from the page for the ad server platform to analyze. In the background of the user viewing or browsing the web page, the ad server platform may analyze the page, find relevant campaigns filter campaigns and generate a response to the agent for hooking the keywords and identifying or delivering the augmented content. The ad server platform may not analyze pages based on filtering certain URLs. The ad server platform may analyze the content received from the agent, perform any of the services described herein and send the keywords to hook and the corresponding augmented content, such as advertisements from a campaign. At step 508, the analysis is completed and the user sees links to keywords, such as double underlined keywords. As described herein, the user may mouse over or click the hooked keyword and have the augmented content displayed.

Referring now to FIG. 5C, an embodiment of contextual targeting is depicted. This contextual targeted may be performed by the ad server platform and performed in the background while the page is being loaded and browsed/viewed by the user. The ad server platform receives page content from the client, such as via an agent. The ad server platform analyzes the page to match keywords to campaigns targeted to the web-site, page or URL. In some embodiments, the ad server platform finds all campaigns targeted to this site, finds all keywords in those campaigns and forms or generates a site keyword list for this site. The ad server platform may match the keywords from the site keyword list to keywords in the content from the page. The ad server platform may assign each matching keyword a relevancy weight.

Referring now to FIG. 5D, an embodiment of assigning a relevancy weight to each keyword to provide contextual targeting is depicted. The ad server platform may provide a relevancy weight to each keyword of the site keyword list matching content of the web page. The ad server platform may use any type and form of metrics or combinations of metrics to determine a relevancy weight. In some embodiments, the ad server platform uses a location, frequency and/or length metric to assign a relevancy weight to the matching keyword. The location relevancy weight may comprise an indicator or multiplier to those keywords that appear near the beginning or top of the web page relevant to those keywords that appear near the end of bottom of the web page. The frequency relevancy weight may comprise an indicator or multiplier to those keywords that appear more times on the same page or content than other keywords. The length relevancy weight may comprise an indicator or multiplier to those keywords that have more words in the keywords than single keyword or keywords with less words.

Each type of metric relevancy weight may be weighted the same or differently. Each metric relevancy weight may have it owns multiplier or factor that scales the weight for the keyword up or down according to the relevancy. The keyword may be up weighted and/or down weighted one or more times by each of the metric relevancy weights. A keyword relevancy weight may be up weighted by one metric relevancy weight while downloaded by another relevancy weight. For example, a keyword may be repeated several times and be upweighted or have a high multiplier based on the frequency relevancy weight while only found and repeated near the end of the page for a down weighting or low multiplier from the location relevancy weight. In some embodiments, a keyword may get a low relevancy weighting from each of the metric relevancy weightings. In some embodiments, a keyword may get a high relevancy weighting from each of the metric relevancy weightings. In some embodiments, a keyword may get a combination of low and high relevancy weightings from different relevancy weightings.

Referring now to FIG. 5E, an embodiment of applying behavioral targeting is depicted. The ad server platform may identify, track and store formation about a user's behavior in a behavioral profile. The behavioral profile may comprise a profile for one user or a plurality of users. Each of the user's profile data may be identified, tracked and managed via unique user identifiers. In some embodiments, the ad server platform may track a predetermined number of search terms, such as 5, that the user last searched. In some embodiments, the ad server platform may track a predetermined number of search terms for each search engine, such as the Google search engine, Microsoft Bing search engine, Yahoo search or Ask search engine. In some embodiments, the ad server platform may track a predetermined number of search terms for each search engine across a combination of search engines. In some embodiments, the ad server platform tracks and stores those search terms for which the user clicked a search result. In some embodiments, the ad server platform tracks and stores those search terms for which the user clicked a search result. In some embodiments, the ad server platform tracks and stores those search terms for which the user clicked a search result and landed on a web page of a predetermined content provider or publisher.

Referring to FIG. 5F, a further embodiment of behavioral targeting is depicted. The ad server platform may track and store in the behavioral profile of a user a history of terms the user has seen over a predetermined time period. . In some embodiments, the ad server platform tracks terms has a user has viewed on a web page. In some embodiments, the ad server platform tracks terms the user has selected from a search or interacted with during the user's viewing history. In some embodiments, the ad server platform tracks terms of one or more search results from which the user has clicked through. In some embodiments, the ad server platform tracks viewed terms over a predetermined time period. In some

embodiments, the ad server platform tracks viewed terms over a start of a behavioral profile of the user to current time.

The ad server platform may use any of the search terms and/or viewed terms from the behavioral profile to make a change to the relevancy weightings of the matching keywords. Those matching keywords that the use has searched or viewed previously will have their relevancy weightings increased or upweighted via a behavioral targeting multiplier. In some embodiments, the ad server platform may use a combination of recently searched and viewed terms to apply a multiplier to each matching keyword. The ad server platform may use any temporal threshold to determine which search terms and/or viewed terms to use for determining a multiplier to the relevancy weightings of the matching keywords. The ad platform may apply higher behavioral targeting multipliers to those keywords that were recently viewed and/or recently search within a predetermined time history. The ad platform may apply no or lower behavioral targeting multipliers to those keywords that were not recently viewed and/or not recently search within the predetermined time history.

As a result of using behavioral profile data and behavioral targeting multipliers, as depicted in FIG. 5G, the ad server platform modifies the relevancy of the matching keywords from the site keyword list. The matching keywords are assigned a first relevancy weighting from the contextual targeting and are modified or changed to a second relevancy weighting from the behavioral targeting. In some embodiments, the ad server platform maintains both the contextual targeting relevancy weightings and the behavioral targeting relevancy weighting for each matching keyword. In some embodiments, the ad server platform maintains a single relevancy weighting keyword comprising the behavioral targeting multipliers (up weighting or down weighting) to the relevancy weighting applied by the contextual targeting.

Referring to FIG. 5H, an embodiment of campaign selection is depicted. In some embodiments, the results of contextual and/or behavioral targeting are used as input to the campaign selection engine. The ad server platform may use the relevancy weightings of the matching keywords from the site keyword list to determine which campaigns may be applicable to these matching keywords. Those campaigns not having keywords

corresponding to any of the matching keywords may be dropped from consideration. In some embodiments, those campaigns not having a number of keywords corresponding to the matching keywords within a predetermined threshold may be dropped from consideration. In some embodiments, those campaigns having one or more keywords corresponding to a predetermined number of the top relevancy weighted keywords may be identified for consideration.

The ad server platform may order the list of campaigns under consideration using any type and form of algorithm. For example, the ad server platform may rank the campaigns based on having matching keywords with the highest combined relevancy weightings. The ad server platform may rank the campaigns based on having the highest number of matching keywords. The ad server platform may rank the campaigns based on a combination of the highest combined relevancy weightings and the highest number of matching keywords. The ad server platform may also order campaigns based on any type of priorities assigned to the campaigns. Some campaigns may have a high order of priority to deliver or serve than other campaigns.

The ad server platform may selected the campaigns to deliver from the ordered or ranked list of campaigns. The ad server platform may further restrict the selection based on any rules or policies of the ad server platform, the publisher or the campaign. For example, the campaign or publisher may have rules restricting the serving of a campaign directed to certain users, times of days, locations, browsers, or content. Once the selection of the one or more campaigns is made, the ad server platform generates a list of campaign keywords to hook and transmits these keywords to the agent of the client. The ad server platform may provide to the agent information on the publisher, campaign, tooltip/user interface overlay and/or augmented content with or corresponding to the keyword.

Referring now to FIGs. 51, 5 J and 5K, embodiments of systems and methods for delivering augmented content are depicted. FIG. 51 depicts an embodiment of a system for analyzing content of a page to determine keywords to augment for one or more campaigns. FIG. 5 J depicts an embodiment of augmented content delivered to a web page of a client. FIG. 5k depicts embodiments of a method for analyzing and hooking keywords on a web page of a client.

In brief overview of FIG. 51, an embodiment of a system for augmented keywords on a web page is depicted. A client 130 communicates with one or more content providers 120, such as publishers, via network(s) 140. The client 120 may include a browser that receives loads and display content in the form of web page or pages 517 from the one or more contents providers. The client 130 also communicates with the augmentation server or ad server 110'. The page 517 being loaded or loaded by the browser comprises an agent 520. The agent 520 may communication page content 519 to the server 110, 110' for analysis and received from the server 110, 110' keywords, corresponding campaigns and/or augmented content. The keyword matcher 522 of server 110, 110' may perform keyword matching, such as using site keyword list, on the page content 519 received from the agent 520. The keyword ranker 524 ranks the keywords to provide ranked keywords 528. The campaign selection engine 506 selects campaigns 526 based on the ranked keywords 528.

In further detail, the browser 515 may comprise any type and form of executable instructions for accessing information resources via a network 140 such as the Internet. The browser may include any user agent or software for retrieving, presenting, accessing and/or traversing information resources or documents on the World Wide Web or a network 140. The browser may include any functionality for loading, running, processing and/or displaying on a computer screen information written in HTML, XML, Javascript, Java, flash or any other language or a script used for web pages. Browser may include any

functionality for displaying any type and form of content or features presented by web page or transmitted content provider 120. Browser may include any functionality for enabling a user to interact or interface with a web page. Browser may provide functionality for displaying advertisement information within a web page presented or displayed on a computer screen of client computer 130. In some embodiments, a browser is any version of Internet Explorer web browser manufactured by Microsoft Corp. In other embodiments, the browser is any version of the Chrome web browser manufactured by Google Inc. In other embodiments, the browser is any version of Firefox web browser distributed by the Mozilla Foundation. In further embodiments, the browser is any version of the Opera browser by Opera Software ASA. The page 517 may include any type and form of content processable by any embodiment of the browser 515. The page may be stored on any number of servers, such as content providers 120 and may be accessed and/or loaded by any web browser, such as browser 515. The page may be a web page. The page be a document. The page may be a file. The page may any resource accessible via a network or a world wide web by a networked device, such as a client computer 130. The page may be identified by a URL. The page may include content from a URL. The page may include any type and form of executable instructions, such as scripts, AJAX. The page may include any type and form of graphics and/or text. The page may include any type and form of media, such as video or audio media. The page may include content having text, words, keywords and links or hyperlinks to other web pages or web sites.

Page 517 may include any document which may be accessed, loaded, viewed and/or edited by a browser 620 and displayed on a computer screen. Page 517 may include any content which may be presented via hypertext markup language, extensible markup language, Java, javascript or any other language or script for preparing web pages. Web page may include any type and form of components for adding animation or interactivity to a web page, such as Adobe Flash by Adobe Systems Inc. The page may include functionality for displaying advertisements, such as advertisements from enterprises, government, companies and firms. A web page may include any number of ad spaces providing space or arrangement within web page for displaying advertisement.

The client, browser or page may include an agent 520. The agent may include any type and form of executable instructions executable by the browser and/or client. In some embodiments, the agent comprises a script, such as JavaScript or JSON (JavaScript Notation). In some embodiments, the agent may comprise any type and form of plug-in, add-on or component to or of browser 515. In some embodiments, the agent may comprise any type of application, program, service, process or task executable by the client.

The agent 520 may be included in the page 517 when transmitted by the content provider. In some embodiments, the page includes the agent in script form as part of the content of the page. In some embodiments, the page includes a URL to the script, such as URL pointing to or identifying a resource or script of the servers 110, 110'. In some embodiments, the agent is loaded by the browser. In some embodiments, the agent is executed by the browser upon retrieval and/or loading of the page 517. In some

embodiments, the page includes instructions to the browser or client to obtain and load or install the agent.

The agent 520 may include any logic, function or operations to interface to or communicate with any portion of the augmentation server 110 or ad server platform 110. The agent may include any logic, function or operations to provide any of the services or functionality of in-text 510, interest ads 512 and/or related content 514. The agent may include any logic, function or operations to identify, collect and transmit content from the page to the server 110/110'. The agent may identify, collect and transmit any and/or all text in content of the page. The agent may identify, collect and transmit any and/or all text from any pages or URLs referred to by the page. The agent may transmit any embodiments of this page content 519 to the server 110, 110'.

The agent may comprise any logic, function or operations to receive keywords, campaigns and/or augmented content from the server 110, 110'. The agent may comprise any logic, function or operations to hook keywords identified in the page content. The agent may "hook" keywords by modifying the keyword in the page content to have an indicator, such as double underlined or an icon. Hooking a keyword refers to making a keyword on the page have a predetermined visual appearance to indicate that interactivity would or may occur by the user interacting with the keyword and instrumenting the page or keyword to perform the interactivity responsive to the user interaction. The indicator may provide a visual indication that the keyword in the text is linked or hyperlinked. In some embodiment, the agent may link or hyperlink the keyword. The agent may hook the keyword to include a function, script or executable instruction to take an action responsive to a mouse over, mouse click or other user interaction. The agent may hook the keyword to display a user interface overlay or tooltip such as depicted in FIG. 5 J. The agent may hook the keyword to display a related advertisement or augmented content on the page as also depicted in FIG. 5J.

The keyword matcher 522 of the server 110, 110' may comprise any type and form of executable instructions executable on a device. The keyword matcher may comprise any logic, function or operations to identify matches between one data set and another data set. In some embodiments, the keyword matcher may identify matches between keywords of campaigns with page content. In some embodiments, the keyword matcher may identify whole or complete matches. In some embodiments, the keyword matcher may identify partial or incomplete matches. In some embodiments, the keyword matcher may identify partial or incomplete matches within a predetermined threshold. In some embodiments, the keyword matcher may identify both complete and incomplete matches. The keyword matcher may perform any of the keyword operations described in connection with FIGs. 5 A through 5F. The keyword matcher may be included as part of the context engine, interest engine or campaign selection engine of the ad server platform.

The keyword ranker 522 of the server 110, 110' may comprise any type and form of executable instructions executable on a device. The keyword ranker may comprise any logic, function or operations to rank a set of data responsive to one or more criteria. The keyword ranker may comprise any logic, function or operations to rank keywords matched to page content. The keyword ranker may comprise any logic, function or operations to provide a weighting to a keyword based on any metrics of the keyword, such as location, frequency, and length. The keyword ranker may comprise any logic, function or operations to provide a weighting to a keyword based on relevancy to the site. The keyword ranker may comprise any logic, function or operations to provide a weighting to a keyword based on relevancy to a publisher or content provider. The keyword ranker may comprise any logic, function or operations to provide a weighting to a keyword based on relevancy to a campaign. The keyword ranker may comprise any logic, function or operations to provide a weighting to a keyword based on relevancy to a user or behavioral profile. The keyword ranker may be included as part of the context engine, interest engine or campaign selection engine of the ad server platform.

The keyword ranker may perform any of the keyword ranking and/or weighting operations described in connection with FIGs. 5A through 5F. An output or result of the keyword ranker may be ranked keywords 528. The ranked keywords may include any type of object, data structure or data stored in memory or to storage. The ranked keywords may include contextually targeted ranked keywords as described in connection with FIGs. 5A through 5F. The ranked keywords may include behavioral targeting ranked keywords as described in connection with FIGs. 5A through 5F. The ranked keywords may include any combination of contextually targeted ranked keywords and behavioral targeting ranked keywords. The ranked keywords may be site specific. The ranked keywords may be campaign specific. The ranked keywords may be publisher specific. The ranked keywords may be based on any combination of site, campaign and/or publisher.

The campaign selection engine 506 may interface or communicate with any of the keyword matcher, the keyword ranker and/or ranked keywords. The campaign selection engine 506 may access, read or process campaigns 526. The campaigns 526 may be stored in any type and form of database or file system. The campaigns 526 may include information identifying keywords for the campaigns and augmented content to deliver for those keywords. The campaigns 526 may include any type and form of content, URLS, scripts, video, audio, advertisements, media, text, graphics, data, information etc. to provide as augmented content with the keywords. The campaigns 526 may include any type and form of URLs, advertisements, media, text, graphics, etc. to provide as augmented content with the keywords. The campaigns may identify or provide any desired user interface overlay/tooltip or content therein. The campaigns may be organized by publisher. Each publisher may have a plurality of campaigns.

The campaign selection engine selects the campaign to deliver with the page based on analysis of the page content from the keyword matcher, keyword ranker and ranked keywords. The campaign selection engine may comprise any type and form of logic, functions or operations to identify and select one or more campaigns from a list of contender or candidate campaigns based on any criteria or algorithm. The campaign selection engine may select those campaigns that best match or correspond to the top ranked keywords. The campaign selection engine may select those campaigns that match or correspond to a predetermined number of ranked keywords. The campaign selection engine may select those campaigns that match or correspond to a predetermined set of ranked keywords. The campaign selection engine may select those campaigns that match or correspond to the ranked keywords in accordance with a priority assigned to the campaigns or publisher. The campaign selection engine may exclude or include campaigns based on the logic or criteria of any rules or filters.

Responsive to the campaign selection engine, the server 110, 110' may transmit to the agent identification of one or more keywords to augment on the page and corresponding campaigns for those keywords (see 530). The server may transmit to the agent any script, data or information to provide or facilitate hooking of the keywords on the page and displaying the campaign responsive to user interaction with the keyword. The server may transmit to the agent the indicator, or identification of the indicator) to use for a hooked keyword. The server may transmit to the agent the type and form of user interface overlay to display when a user mouse over or mouse click occurs for the keyword. The server may transmit to the agent a reference to or identification of any of augmented content to display when a mouse over or mouse click occurs for the keyword. The server may transmit to the agent the augmented content, such as the advertisement, to display when a mouse over or mouse click occurs for the keyword.

The agent may receive the information 530 from the server and modify the page or content of the agent to perform the hooking of the keywords, to instrument the hooked keywords, and/or deliver the campaign responsive to the keyword. The agent may perform any of the agent's logic, functions or operations while the web page is being loaded. The agent may perform any of the agent's logic, functions or operations while the user views or browsers the web page. The agent may perform any of the agent's logic, functions or operations in the background to the user viewing or browsing the page.

Referring now to FIG. 5 J, embodiments of augmented content delivered with a corresponding keyword is depicted. In brief overview, the page 517 may include an augmented keyword in the text of the content (e.g., see double underlined "Augmented Keyword" next to "in text of content"). When a user interacts with the augmented keywords, a user interface overlay 550, also referred to as tooltip, may be displayed. This user interface overlay may deliver or provide the campaign corresponding to the keyword. Responsive to user interaction with the keyword, the agent may display related

advertisements 554', such as via a banner ad, or augmented content 556'. The related advertisements 554' and/ or augmented content 556' may be displayed in connection with the tooltip, without the tooltip or instead of the toolip.

Any of the content on page 517 may include any embodiments of the advertisements and/or augmented contented provided and discussed above in connections with FIGs 1 through 4E. The tooltip may be part of a multi-layered augmentation content or

advertisement unit. The tooltip may provide any one or more URLs to access related websites.

The user interface overlay 550 referred to as a tooltip may include any type and form of web beacon 545. In some embodiments, the tooltip 550 may include a plurality of web beacons. The beacon may be used for tracking a user's usage and/or interactions with the tooltip. The beacon may identify or track a length of time of any user interaction with the tooltip and/or augments keyword or inline text. The beacon may identify a URL or tracking system to register or send communications regarding the user interaction. In some embodiments, a web beacon may be designed and constructed for a predetermined tracking system.

A web beacon may be an object that is embedded in the tooltip that is not visible to the user. Sometimes beacons are referred to as web beacons, web bugs, tracking bugs, pixel tags or clear gifs. Web beacons may be used to understand the behavior of users who frequent designated web pages. A web beacon permits a third party to track and/or collect various types of information. For instance, a web beacon may be used to determine who is reading a webpage, when the webpage is read, how long the page was viewed, the type of browser used to view the webpage, information from previously set cookies, and from what computer the webpage is accessed.

The tooltip may be incorporated, integrated or presented with any one or more of related advertisements 554, related video 558 and/or real time statistics 562. The tooltip 550 may include an URL 560 to any web page or resource, such as additional content, search results, or media. Although the tooltip 550 is illustrated each with a related advertisement, related video and related statistics, the tooltip 550 may be presented with one of these related content or a plurality of these related contents. Although this related content is illustrated in a location, size and position in relation to the tooltip, the related

advertisements, related video, and/or real time statistics may be arranged, organized or presented in any manner.

The tooltip may also include one or URLs 560, such as a hypertexted URL or link to any other page or content. In some embodiments, the hypertexted link 560 comprises a URL of a landing page of a web site. In some embodiments, the hypertexted link 560 comprises a URL of a web page providing search results directly from the search engine. In another embodiment, the hypertexted link 560 provides a link to a recommend or most relevant search result. In other embodiments, the hypertexted link 560 provides a link to run the search query on a second search engine. The hypertexted link 560 may bring the user to a landing page of the search results of the second search engine.

The related advertisements 554 may include any type and form of advertisement related to the augmented content or inline text or otherwise related to the keyword. In some embodiments, the related advertisements are advertisements provided as described in connection with any of the embodiments of the Figures 1A-4E. In some embodiments, the related advertisements are advertisements provided by a search engine, such as in relation to and based on the search query. In other embodiments, the related advertisements are provided by any type and form of ad network via the server 110, 110' and/or search engine.

The related video 558 may include any type and form of video media related to the augmented content or inline text or otherwise related to the keyword. In some

embodiments, the related videos are advertisements provided as augmented content as described in connection with any of the embodiments of the Figures 1 A-4E. In some embodiments, the related videos are videos provided by a search engine, such as in relation to and based on a search query. In other embodiments, the related videos are provided by any type and form of video service, such as YouTube.com or iTunes.com. In another embodiment, the related videos are videos available to the user via a user accessible storage or video management system.

The real time statistics 562 may include any type and form of statistics related to the augmented content or inline text or otherwise related to the keyword. In some

embodiments, the real time statistics 562 may be any statistics related to the person or entity of the search. For example, if the augmented keyword is a sports team, the real time statistics may include current or recent game scores and/or standings of the team. In another example, if the augmented keyword is related to the weather, the real time statistics may include a current weather forecast. In one example, if the augmented keyword is related to a musician, the real time statistics may include statistics on music downloads, album sales and top music chart location.

Referring now to FIG. 5K, embodiments of a method for augmented content of a keyword of a web page being loaded into a browser is depicted. In brief overview, at step 580, an agent of the browser sends page data to server 110, 110' upon or while loading a web page. At step 582, the server analyzes the page data and reduced the page data set. At step 584, the server performs content filtering on page and keywords to match to

corresponding campaigns. At step 586, the server performs ranking of keywords. At step 588, the server matches the ranked keywords to keywords of each campaign. At step 590, the server selects top matching keywords and their campaigns. At step 592, the server sends to the agent the selected keywords and their campaigns and may provide the agent tooltips and/or augmented content. At step 594, the agent hooks the keywords identified by the server. At step 596, the agent detects user interaction such as mouse over or click of keywords and displays augmented content, such as a tooltip.

In further details, at step 580, the agent may be executed by the browser upon or while loading the web page. The browser may retrieve the agent via a URL identified by the page. In some embodiments, the page transmitted by the server includes the agent. The agent may comprise script places or arranged at or near the top page to be executed by the browser. In some embodiments, the agent may be triggered by any load events or APIs of the browser. The agent may be executed prior to content of the web page being loaded or displayed. The agent may be executed prior to the retrieval of any URLS of the page. The agent may be executed prior to completion of loading of the web page by the browser.

The agent may identify, gather and aggregate data from the page. The agent many identify all text portions of the web page. The agent many identify those elements of the page that contain text. The agent may identify text from a predetermined set of elements of the page. The agent may identify text from HTML, XML or other page languages. The agent may identify text from the body of an HTTP portion of the page. The agent may perform text recognition on any portion of the page or any element of the page. The agent may identify text from any URLS or other content referred to or loaded by the page. The agent may identify any other date of the page, including headers. For example, the agent may identify the browser type, the user, location, IP addresses from the content of the page or from any of the network packets used for communicating the page. In some

embodiments, the agents performs analysis and identified metrics for the page date, such as text location, frequency, length and repeatability.

The agent may gather the identified page data, text or otherwise, and/or any page metrics and transmits the page data and/or page metrics to the server 110, 110'. In some embodiments, the agent transmits the page data together in one transaction with the server. In some embodiments, the agent transmits portions of page data in a series of transactions with the server. In some embodiments, the agent transmits the page data using any type and form of protocol. In some embodiments, the agent transmits the page data as a background process to the browser loading the page or the user browsing the page. In some

embodiments, the agent transmits the page data while the browser is loading the page.

At step 582, the server analyzes the page data and reduces the page data to a working set of page data to continue analysis. The server may remove a predetermined set of commons words, such as a, and, the, from the page data. In some embodiments, the server may filer a predetermined set of words, phrases, terms or characters according to any filters, rules or policies. In some embodiments, the server may identify and correct any typos or other inadvertences with the page data. In some embodiments, the server may perform any type and form of metrics on the page data. In some embodiments, the server may identify location, frequency, repeatability of text on the page. In some embodiments, the server may identify location, frequency, repeatability of text on the page data relative to other text on the page.

At step 584, the server analyzes the text from the working set of page data to determine if there is any type and form of matching to any campaigns. In some

embodiments, the server performs any type and form of semantic matching to match keywords on the page semantically to concepts, meanings, categories, subject matter and/or keywords of campaigns. In some embodiments, the server performs a phonetic match between keywords on the page to keywords of campaigns. In some embodiments, the server performs a spelling match between keywords on the page to keywords of campaigns. In some embodiments, the server performs content filtering on text, words, and portions of content around the keywords on the page to determine a context for the keywords and match that context to campaigns. In some embodiments, the server performs content filtering on the page data to determine a category, a sub-category, a topic, subject matter or other information indicator and matches the same to any one or more campaigns.

In some embodiments, the server may generate a set of keyword from campaigns targeted towards the site of the page or publisher of the page. The server may generate a site keyword list. The keyword matcher of the server may match keywords from a keyword list, such as the site keyword list, against text of the page data to identify keywords in the page data. In some embodiments, the keyword matcher identifies multiple word phrase matches. In some embodiments, the keyword matcher identifies partial word phrases. In some embodiments, the keyword matcher identifies a number of times or the frequency for which a keyword is found in the page data. In some embodiments, the keyword matcher identifies the location of the keyword in the page data, and in further embodiments, relative to other keywords or boundaries of the page, such as top or bottom.

At step 586, the server performs any type and form ranking of keywords of the page data identified by the keyword matcher. The keyword ranker may rank all of the matching keywords. The keyword rank may rank a predetermined number of keywords. The keyword ranker may rank the keywords according to any one or more metrics. The keyword ranker may rank the keywords according to any one or more criteria. The keyword ranker may rank each keywords by applying a weight to a value assigned to the keyword. The keyword ranker may provide any multipliers to a valued or weighted value of the keyword to increase or decrease the ranking of the keyword. The keyword ranker may rank the keywords on any type and form of scale, which may be absolute or relative.

At step 588, the server matches the ranked keywords to keywords of one or more campaigns. The keyword matcher, ranker or campaign selection engine may compare the list of ranked keywords, or any portions thereof, to a list of keywords of one or more campaigns. In some embodiments, the server identifies those campaigns that are contenders to be a selected for the campaign for this page. In some embodiments, the server identifies those campaigns associated with or assigned to be a campaign targeted to site or publisher of the page. The server may match the ranked keywords against the identified campaigns. In some embodiments, the server may match the ranked keywords against all campaigns. In some embodiments, the server may change the ranking of the keywords based on results of matching the keywords from the campaigns.

At step 590, the campaign selection engine selects a predetermined number of matching keywords and their campaigns. In some embodiments, the campaign selection engine selects a predetermined number of top matching keywords and their campaigns. In some embodiments, the campaign selection engine selects a number of top matching keywords and their campaigns corresponding to a number of matching keywords on the page. For example, if there are five unique keywords on the page and each identified by a campaign, the server may select five campaigns. In some embodiments, the campaign selection engine may select one campaign for a plurality of corresponding matching keywords on the page.

In some embodiments, the campaign selection engine may filter out campaigns based on any type and form of filter rules. The campaign selection engine may rank campaigns according to any type and form of ranking. For example, the campaign selection engine may prioritize campaigns according to clients, volume, importance, spend, budget, historical campaign performance or any other desired criteria. The campaign selection engine may compare the ranked keywords to the ranked campaigns. The campaign selection engine may select any of the higher or highest ranked campaigns matching any of the higher or highest ranked keywords.

At step 592, the server sends to the agent the selected keywords and their campaigns. Responsive to the campaign selection engine, the server may send to the agent the list of keywords to augment or hook and their corresponding campaigns. In some embodiments, the server sends a predetermined number of additional keywords to augment or hook in case the agent cannot hook or augment any one or more keywords in the list of keywords. In some embodiments, the server sends an ordered list of keywords. The ordered list of keywords may identify a priority of augmentation or hooking to the agent.

The server may send any type and form of information to the agent on how to augment or hook a keyword, what type of augmentation to use and identifying the form and content of the augmentation. In some embodiments, the server sends to the agent publisher and campaign identifiers for the agent to obtain or identify the appropriate campaign for a keyword. In some embodiments, the server sends the agent an indication of the visual indicator to use for the hooked keyword (e.g., double underlined). In some embodiments, the server sends the agent the executable instructions by which the keyword is hooked or for replacing the text of the keyword with a hooked keyword.

In some embodiments, the server sends instructions for content, construction and/or display of the tooltip. In some embodiments, the server sends a set of executable instructions providing the tooltip and/or any portion thereof. In some embodiments, the server sends a set of executable instructions providing the augmented content and/or any portion thereof. In some embodiments, the server sends a set of executable instructions providing any embodiments of the augmented content, advertisements and/or tooltip of FIG. 51. In some embodiments, the server sends content for the tooltip to provide the campaign assigned to the keyword. In some embodiments, the server sends one or more URLs referencing a campaign to be delivered via a web-site. For example, in some embodiments, the server sends one or more URLS to advertisements to be delivered for the campaign. In some embodiments, the server sends one or more scripts to agent to provide any of the above embodiments.

At step 594, the agent hooks the identified keywords on the page. The agent may replace each keyword in the identified list of keywords from the server with instructions or code to hook the keyword. The agent may have hyperlink or link the keyword to a set of code or executable instructions to display the tooltip, augmented content or any

embodiments of FIG. 5 J. The agent may use modify the keyword to provide any type and form of visual indicator (e.g., double underlined or icon) to indicate the keyword is user interactive, hyperlinked or linked or otherwise hooked. The agent may modify the page to change the text to a liked or hooked text and to link or associated any forms of augmented content of FIG. 5 J to be displayed or provided via user interaction with the hooked text. The agent may modify the page or instrument the keyword to detect when a user interacts with the keyword in a certain way. The agent may include one or more event based functions that are trigged responsive to predetermined user interactions. For example, the agent may modify the page or instrument the keyword to detect when a user mouses over the keyword, clicks on the keyword, right clicks on the keyword or left clicks on the keyword or otherwise selects any predetermined set of keystrokes or sequence of keystrokes. At step 596, the agent detects user interaction such as mouse over or click of a keyword on the page and displays augmented content, such as a tooltip. The agent may detect when a mouse is over the keyword at any time. The agent may detect when a user has the cursor over the keyword. The agent may detect when a user has put focus on the keyword. The agent may detect when a mouse is over the keyword for a predetermined period of time. The agent may detect when a user highlights or selects a keyword. The agent may detect when the user left or right clicks on the keyword. The agent may detect when a user double clicks the keyword. The agent may detect when a user has put focus on the keyword and hit entered. The agent may detect any set of keystrokes with respect to the keyword.

Responsive to the detection, the agent may display augmented content, for example, any of the forms depicted in FIG. 51. In some embodiments, responsive to detecting a mouse over of the keyword, the agent displays a tooltip delivering a campaign assigned to the keyword. In some embodiments, responsive to detecting a click on the keyword, the agent displays a tooltip delivering a campaign assigned to the keyword. Responsive to detection of the predetermined user interaction, the agent may display augmented content of any form, such as related videos, in predetermined areas or space on the page. Responsive to detection of the predetermined user interaction, the agent may display advertisements of any form, in predetermined areas or space on the page.

In some embodiments, the tooltip may remain displayed until the mouse is moved off of the keyword. In some embodiments, the tooltip may remain displayed until the mouse is moved off of the keyword for a predetermined time. In some embodiments, the tooltip may remain displayed until the mouse is moved off of the keyword until the user closes or exists the tooltip. In some embodiments, if the user clicks on the keyword after the mouse over, the tooltip remains displayed until the user closers or exits the tooltip. In some embodiments, any augmented content may change as the user moves the focus or mouse over to another keyword. For example, moving the mouse to a second keyword may cause a different advertisement to appear in a banner ad or may cause a new tooltip to be displayed or content of the current displayed tooltip to change.

The agent and may perform all or any of the steps of the method of FIG. 5K in realtime upon receipt and/or loading of the page. For example, the agent and the server may be designed and constructed to perform embodiments of steps 580 through 594 within a predetermined time while the page is being loaded by the browser. In some embodiments, the agent and the server may perform embodiments of steps 580 through 594 in

milliseconds, for example within in 100, 200, 300, 400, 500, 600, 700, 800 or 900 milliseconds or within 10, 20, 30, 40, 50, 60, 70, 80 or 90 milliseconds, or within 1, 2, 3, 4, 5, 6, 7, 8 or 9 milliseconds or .1, .2, .3, .4 ,.5, .6, .7, .8 or .9 milliseconds. The agent and the server may be designed and constructed to perform embodiments of steps 580 through 594 while the page is loading and before the page is completely loaded. The agent and the server may be designed and constructed to perform embodiments of steps 580 through 594 in the background while the pages is being loaded and/or the user is browsing the loaded page.

D. Systems and Methods For Providing a Convenience Search Unit

In view of the systems and methods described herein, the augmentation server may be configured to augment keywords (or other types of content) in web pages (or other types of documents) with an advertisement unit or type in the form of a creative referred to as a convenience search unit or CSU. The CSU provides search results from a search engine related to or based on the augmented keyword. The augmentation server may deliver this CSU based on user interaction with the augmented keywords. The CSU may be delivered as an overlay in the Z-axis in a position or located related to the augmented content, such as an augmented keyword or inline text.

Referring now to Figure 6A, a block diagram of an embodiment of a system for provide a CSU 610 is depicted. In brief overview, the system includes an augmentation server 110. The augmentation server 110 may communicate over a network 140 with a search engine 630 and/or a tracking system 640. The augmentation server 110 may include a CS Manager 650. The CS Manager 650 may also include a Search Engine Interface 652, a Tracking System Interface 654, and a CSU Generator 656. The CS Manager 650 processes data received from the client 130 and communicates over the network 140 with the search engine 630 and tracking system 640 to generate a CSU 610 to send to the client 130.

Although FIG. 5 shows a network 140 between the client 130 and the augmentation server 110 and between the augmentation server 110 and the search engine 630 and tracking system 640, the client 130, augmentation server 110, search engine 630, and tracking system 640 may be on the same network 140 or different networks. The network 140 can be a local-area network (LAN), such as a company Intranet, a metropolitan area network (MAN), or a wide area network (WAN), such as the Internet or the World Wide Web.

The client 130 communicates over the network 140 with an augmentation server 110. The augmentation server 110 may include any of the embodiments previously described herein. The augmentation server 110 may be a file server, application server, web server, proxy server, appliance, network appliance, gateway, application gateway, gateway server, virtualization server, deployment server, SSL, VPN server or firewall.

A CSU 610 may be any type and form of user interface or creative for presenting search results. The CSU 610 may present search results based on augmented keywords or inline text of a web page. The CSU 610 may be designed and constructed to provide a user interface display element for displaying search results from one or more search engines 630 to a user related to any augmented content on the web page. The CSU 610 may be designed and constructed in a form factor that provides a convenient overlay to the user in a location or position on the web page related to the augmented content the user may be viewing or otherwise interacting with. In some embodiments, the CSU 610 is a type of advertisement unit or advertisement code. In some embodiments, the CSU 610 is a form of augmented content. In one perspective, instead of delivering an advertisement responsive to an augmented keyword, a CSU 610 is delivered responsive to the augmented keyword.

The CSU 610 may comprise any type and form of user interface elements and/or content. The CSU 610 may comprise any type and form of search results in any format. In one embodiment, the search results are received from the search engine in XML format and presented in XML format or converted, translated or otherwise provided in any HTML format. In some embodiments, the CSU may provide a predetermined number of search results. For example, the CSU 610 may display or present a list of the top 10 search results. The predetermined number of search results may be configurable. In some embodiments, the CSU 610 may provide search results from a plurality of search engines 630. In some embodiments, the CSU 610 may also provide any advertisement, content or media related to the augmented content. In some embodiments, the CSU 610 may provide any real time statistics related to the augmented content.

The CSU 610 may be part of any embodiments of the advertisements and/or augmented contented provided and discussed above in connections with FIGs 1 through 4E. The CSU 610 may be part of a multi-layered augmentation content or advertisement unit. The CSU 610 may provide any one or more URLs to access related websites. The CSU 610 may provide one or more URLs to access the search engine 630 and/or the search results of the search engine.

The CSU 610 may include any type and form of web beacon 645 and may include a plurality of web beacons. The beacon may be used for tracking a user's usage and/or interactions with the CSU 610. The beacon may identify or track a length of time of any user interaction with the CSU 610 and/or augments keyword or inline text. The beacon may identify a URL or tracking system to register or send communications regarding the user interaction. In some embodiments, a web beacon may be designed and constructed for a predetermined tracking system.

The CSU 610 may be executed by, incorporated into or integrated with any embodiments of an agent 520 of the client described in connection with FIG. 51. The agent 520 may received the CSU from the server 100, such as via CS manager.

A web beacon may be an object that is embedded in the CSU 610 that is not visible to the user. Sometimes beacons are referred to as web beacons, web bugs, tracking bugs, pixel tags or clear gifs. Web beacons may be used to understand the behavior of users who frequent designated webpages. A web beacon permits a third party to track and/or collect various types of information. For instance, a web beacon may be used to determine who is reading a webpage, when the webpage is read, how long the page was viewed, the type of browser used to view the webpage, information from previously set cookies, and from what computer the webpage is accessed.

The search engine 630 may comprise any type and form of a search engine, utility, system or tool. The search engine 630 provides an information retrieval system designed and constructed find information from an information source based on one or more keywords and/or one or more search parameters. For example, the search engine 630 may be designed and constructed to search a plurality of web servers or content sources available via the Internet. The search engine 630 may be a search utility accessible through any type and form of application programming interface. The search engine 630 may be accessible via a webpage or uniform resource locator (URL). An interface to a search engine 630 may be displayed via a web browser (e.g. Microsoft Internet Explorer , Mozilla Firefox , or Apple Safari™). The search engine 630 may provide any type and form of user interface for searching and/or display the search results. The search engine 630 may execute or operate on any one or more servers. In some embodiments, the search engine executes on the augmentation server.

The search engine 630 may be a general purpose search engine. In one embodiment, the search engine 630 is any of the search engines provided by Microsoft Corporation of Redmond, Washington, such as bing.com. In another embodiment, the search engine 630 is any of the search engine provided by google.com of Mountain View, California. In some embodiments, the search engine is any of the search engines 630 provided by Yahoo of Sunnyvale, California. In other embodiments, the search engine 630 is any of the search engines provided by ask.com. In some embodiments, the search engine 630 is an aggregator of search engines, such as dogpile.com, and provides an interface and search results from a plurality of different search engines.

In some embodiments, the search engine 630 is any type and form of special purpose or domain specific search engine. In some embodiments, the search engine is a medical search engine (e.g. GenieKnows™, Healia™, Searchmedica™, WebMD™, Nextbio™). In other embodiments, the search engine is a legal search engine (e.g. Westlaw , Lexis , Quicklaw™).

The tracking system 640 may comprise any type and form of online media or advertising tracking utility, system or tool. The tracking system 640 may collect, aggregate and/or analyze data related to user interactions, such as user views, with any online content, such as web pages, videos, and advertisements. In some embodiments, the tracking system 640 may collect, aggregate and/or analyze data related to user interactions related to the CSU 610. In some embodiments, the tracking system 640 may track any metric 641 discussed in more detail below. The tracking system 640 may comprise any software executing on hardware or any combination of software and hardware. The tracking system 640 may comprise an application, program, library, service, process, task, thread or any type and form of executable instructions. The tracking system 640 may execute or operate on any one or more servers. In some embodiments, the tracking system 640 executes on the augmentation server. In some embodiments, the tracking system 640 executes on the same server as the search engine.

A tracking system 640 may be implemented by any type and form of advertisement Internet market research entity and/or may be any product or service provided by the advertisement entity. In some embodiments, the tracking system 640 is any tracking service or product provided by comScore, Inc. of Reston, Virginia. In some embodiments, the tracking system 640 is any tracking service provided by Atlas Search of Seattle,

Washington. In some embodiments, the tracking system 640 is any tracking service or product provided by AdGooroo of Chicago, Illinois. In one embodiment, the tracking system 640 is any tracking service or product provided by Alexa of San Francisco,

California. In another embodiments, the tracking system 640 is any tracking service or product provided by Compete.com of Boston, Massachusetts. In some embodiments, the tracking system 640 is any tracking service or product provided by Nielson Online of New York, New York. In other embodiments, the tracking system 640 is any tracking service or product provided by Hitwise of New York, New York. In some embodiments, the tracking system 640 is any tracking service or product provided by Quantcast of San Francisco, California. In some embodiments, the tracking system 640 is any tracking service or product provided by Gemius of Warsaw, Poland.

In one embodiment, the tracking system of comScore provides metrics on the search landscape referred to as a qSearch. In overview of qsearch metrics, Consumers conduct searches nearly everywhere on the Web, using tools such as toolbars, widgets, affiliates and cross-channel search that reach beyond the standard browser-based search experience. The comScore qSearch™ captures that search behavior at more than 150 search properties in 37 individual countries and worldwide, measuring the full breadth and depth of consumer search activity.

The tracking system 640 may track, aggregate, calculate, compare and/or report any type and form of metrics 641 related to advertisement and/or media usage. In one embodiment, the track system and/or metrics identify metrics related to a CSU. In some embodiments, the metric comprises any type of information identifying a number of views per advertisement, media content or URL over any time period. The metric may identify a length of the user view. In some embodiments, the tracking system 640 only track and report on views of a predetermined length of time. In some embodiments, the metric identifies a number of user clicks to a URL, advertisement or media. In some embodiments, the metric identifies mouse-movement while viewing a webpage. In some embodiments, the metric collects user interaction with the webpage and subsequent pages visited. In some embodiments, the metric identifies a number of click-throughs via a URL.

The metrics 641 may provide any type and form of information on browsing patterns, age, gender and geographic location. In some embodiments, the metric identifies or breaks down the metric according to any granularity of geographic location. In some embodiments, the metric identifies or breaks down the metric according to language. The metrics 461 may identify consumer shopping data such as commerce-related searches, purchases and clicks-throughs. In some embodiments, the metrics identify click to buy conversions and/or number of units ordered. In one embodiment, the metrics identify the number of conversions per the number of advertisement impressions. In some

embodiments, the metrics are identified by media type, such as audio, video, text, etc.

The metrics may identify any one or more of the following advertising metrics: 1) click-through (e.g., the process of clicking through an online advertisement to the advertiser's destination), 2) click-through rate (CTR) (e.g., The average number of click- throughs per hundred ad impressions, expressed as a percentage), 3) conversion rate (e.g., the percentage of visitors who take a desired action), 4) cost-per-action (CPA) (e.g., online advertising payment model in which payment is based solely on qualifying actions such as sales or registrations), 5) cost-per-click (CPC) (e.g., the cost or cost-equivalent paid per click-through, 6) CPM, (e.g.,) cost per thousand impressions), 7) customer acquisition cost (e.g., the cost associated with acquiring a new customer), 8) hit (e.g., request of a file from a Web server), 9) impression (.e.g., a single instance of an online advertisement being displayed), 10) page view (e.g., request to load a single HTML page), 11) pay per click (PPC) (e.g., online advertising payment model in which payment is based solely on qualifying click-throughs), 12) pay per lead (PPL) (e.g., online advertising payment model in which payment is based solely based on qualifying leads), 12) pay per sale (PPS)(e.g., online advertising payment model in which payment is based solely based on qualifying sales), 13) site stickiness (e.g., the amount of time spent at a site over a given time period), 14) unique visitors (e.g. individuals who have visited a Web site (or network) at least once in a fixed time frame, such as a 30 day period) and 15) Web site traffic (e.g., the amount of visitors and visits a Web site receives). A hybrid model may be a combination of two or more online marketing payment models.

Any of the metrics discussed herein may be used or combined in any form to track metrics regarding any one or more CSUs.

The CS Manager 650 may comprise any type and form of logic, operations or functions to generate or provide a CSU 610. The CS Manager 650 may comprise any combination of software and or hardware or software executing or executable on a device. In some embodiments, the CS Manager 650 may comprise an application, program, library, script, process, service, task or any type and form of executable instructions. In some embodiments, the CS Manager 650 comprises a Search Engine Interface 652, a Tracking System Interface 654, and a CSU Generator 656. The CS Manager 650 may execute or operate on the augmentation server. In some embodiments, the CS Manager 650 executes on any of the servers of the search engine and/or tracking system.

In operation, the CS Manager 650 interacts with the client 130 to receive data from an augmented data file 50. The CS Manager 650 prepares and sends a prequery to the search engine 630 over the network 140 and receives search results. The CS Manager 650 then generates a CSU 610 using the received search results. The CS Manager 650 and/or augmentation server 110 sends the generated CSU 610 to the client 130 for presenting on the web page.

The Search Engine Interface 652 may comprise any type and form of logic, operations or functions to communicate with one or more search engines 630. The Search Engine Interface 652 may comprise any combination of software and hardware or software executing or executable on a device. In some embodiments, the Search Engine Interface 652 may comprise an application, program, library, script, process, service, task or any type and form of executable instructions. The Search Engine Interface 652 may use any type and form of application programming interface provided by a corresponding search engine 630 for accessing the functionality of the search engine 630. In some embodiments, the Search Engine Interface 652 may be designed and constructed to provide an API to access the search engine 630.

In one embodiment, the Search Engine Interface 652 uses any functions and/or parameters of the APIs provided by the search engine 630. The Search Engine Interface 652 may use any one or more keywords in generating and/or communicating a search query to the search engine 630 via the API. In some embodiments, the search query is for the augmented keyword(s) or the inline text of the current web page. In other embodiments, the CS Manager 650 may look up search keywords to use for the augmented keyword(s) or inline text. The Search Engine Interface 652 may use any or more API parameters, such as advanced search parameters in generating and/or communicating a search query to the search engine. In some embodiments, the Search Engine Interface 652 may provide parameters to the search query to filter, constrain or to otherwise limit the scope of the search.

In one embodiment, the CS Manager 650 utilizes the bing.com API. The bing.com API provides many utilities which may be incorporated into the generation of a more customized CSU 610. The bing.com API is capable of providing different types of information. The types of information available, include but are not limited to

advertisements, flight information, image queries, instant answers (a single authoritative result to a query), mobile Web search results, news, information related to current query, phonebook results, spelling suggestions, translations, video queries, and web queries.

The API may provide the ability to specify several options in conjunction with the search query. For example, in the embodiment ofbing.com, the Market Property parameter is an optional utility which determines the language and country or region information for the search request. This determination is made through the use of such logic as the IP address of the request, cookies, and other elements.

In some embodiments, a parameter available through the API is the Adult Option. This parameter controls the filtering on the search results returned from a query. More specifically, the developer may turn the query off, specify that the results of a query should not include sexually explicit images or videos, but may include sexually explicit text, or specify that the results of the query should not include any content of a sexually explicit nature. Another parameters that may be available through the API is to specify the number of results to return for queries. Similarly, the API may provide a parameter to specify the types of files to return for submitted queries.

A Tracking System Interface 654 may comprise any type and form of logic, operations or functions to communicate with one or more tracking systems 640. The Tracking System Interface 654 may comprise any combination of software and hardware or software executing or executable on a device. In some embodiments, the Tracking System Interface 654 may comprise an application, program, library, script, process, service, task or any type and form of executable instructions. The Tracking System Interface 654 is designed and constructed to communicate to the tracking system 640 to provide information about the user's activities on a certain webpage, URL or interaction with the CSU 610. The tracking system interface may use any corresponding interface provided by the tracking system to send and receive information being tracked.

A CSU Generator 656 may comprise any type and form of logic, operations or functions to generate any type and form of CSU. The CSU Generator 656 may use information received from the client 130 and the search engine 630 to generate the CSU 610. The CSU Generator 656 may comprise any combination of software and hardware or software executing or executable on a device. In some embodiments, the CSU Generator 656 may comprise an application, program, library, script, process, service, task or any type and form of executable instructions. In some embodiments, the CSU Generator 656 is combines augmented content received by the augmentation server 110 and the search results from the search engine 630 obtained by the Search Engine Interface 652. The CSU

Generator communicates the generated CSU 610 to the client 130 for display to the user.

In some embodiments, the CSU Generator 656 generates one or more CSUs 610 responsive to any user interactions with a web page and/or temporal information. In one embodiment, the CSU Generator 656 generates a CSU 610 responsive to a web beacon. In some embodiments, the CSU Generator 656 generates a CSU 610 responsive to a timer. In some embodiments, the CSU Generator 656 generates a CSU 610 responsive to a mouse roll-over event occurring on augmented content or keyword. In some embodiments, the CSU Generator 656 generates a CSU 610 responsive to a user clicking on a URL or keyword. In another embodiment, the CSU Generator 656 generates a CSU 610 responsive to a mouse click.

In some embodiments, the CSU Generator 656 generates a CSU 610 responsive to any combination of a timer and a user interaction. For example, in one embodiment, the CSU Generator 656 generates a CSU 610 based upon the user having the mouse on augmented content and a timer expiring after a predetermined amount of time, such as 3 seconds, of the user having the mouse over the augmented content. In another embodiment, the CSU Generator 656 generates a CSU 610, which after a time has expired once the user places the mouse over the augmented content allows the user to conduct a modified search within the creative by entering the search term into the search box provided within the CSU 610. In some embodiments, the CSU Generator 656 generates a CSU 610 after a timer has expired once the user places the cursor over the augmented content which takes the user to the results page provided by the search engine within the same browser window. In another embodiment, the CSU Generator 656 begins to generate a CSU 610 when a user places the cursor over augmented content, but the CSU 610 will disappear if the cursor if moved away from the augmented content before a timer has expired.

Although the functionality and operations of the CS manager 650 are generally described in connection with augmentation server 110, any embodiments or portions of the CS manager may operate on an agent of the client, such as agent 520 described in connection with FIG. 51. For example, in some embodiments, the agent 520 may include one or more of the search engine interface 652 and tracking system interface 654 and may communicate with the tracking system 640 and/or the search engine 630 as described herein. In some embodiments, the agent may include portions of or perform some of the

functionality of the CSU generator 656. Referring to FIGs. 6B and 6C, embodiments of a CSU are depicted. Referring now to FIG. 6B and in brief overview, FIG. 6B depicts a CSU 610' that is incorporated, integrated or presented with any one or more of related advertisements 650, related video 660 and/or real time statistics 674. The CSU 610 may include the search text 655, search results 665 and a URL 670. Although the CSU 610' is illustrated each with a related advertisement, related video and related statistics, the CSU 610' may be presented with one of these related content or a plurality of these related contents. Although this related content is illustrated in a location, size and position in relation to the CSU, the related advertisements 650, related video 660 and/or real time statistics may be arranged, organized or presented in any manner.

The CSU may provide the search results 665 in any format and form factor. The search results may include one or more hyperlinks or URLs per result. These hyperlinks may navigate the user within the window of the search results or may cause a new window or web page to be opened. The search results may be provided in any programming or scripting language or protocol, such as XML, HTTP or Javascript. The search results may be localized or otherwise provided in any language, such as Spanish, Chinese, etc.

The CSU may include a search text 655 that identifies the keywords used for or generating the search results. In some embodiments, the search text 655 is set to the augmented keyword or inline text triggering the generated CSU. In some embodiments, the search text is set to a recommend search strategy or set of one or more keywords for further searching the subject matter or narrowing the scope of the search results. The search text 655 may be editable by a user so that the user can enter any keywords and perform any search on the search engine. The search results 665 may be updated response to the entered or changed search text 655.

The CSU may also include one or URLs 670, such as a hypertexted URL or link to the search engine. In some embodiments, the hypertexted link 670 comprises a URL of a landing page of the search engine. In some embodiments, the hypertexted link 670 comprises a URL of a web page providing the search results 675 directly from the search engine. In another embodiment, the hypertexted link 670 provides a link to a recommend or most relevant search result. In other embodiments, the hypertexted link 670 provides a link to run the search query on a second search engine. The hypertexted link 670 may bring the user to a landing page of the search results of the second search engine.

The related advertisements 650 may include any type and form of advertisement related to the augmented content or inline text that generated the CSU. In some embodiments, the related advertisements are advertisements provided as described in connection with any of the embodiments of the Figures 1A-4E. In some embodiments, the related advertisements are advertisements provided by the search engine, such as in relation to and based on the search query. In other embodiments, the related advertisements are provided by any type and form of ad network via the augmentation server and/or search engine.

The related video 660 may include any type and form of video media related to the augmented content or inline text that generated the CSU. In some embodiments, the related videos are advertisements provided as augmented content as described in connection with any of the embodiments of the Figures 1A-4E and/or 5A-5I. In some embodiments, the related videos are videos provided by the search engine, such as in relation to and based on the search query. In other embodiments, the related videos are provided by any type and form of video service, such as YouTube.com or iTunes.com. In another embodiment, the related videos are videos available to the user via a user accessible storage or video management system.

The real time statistics 675 may include any type and form of statistics related to the augmented content or inline text that generated the CSU. In some embodiments, the real time statistics 675 may be any statistics related to the person or entity of the search. For example, if the augmented keyword triggering the CSU was a sports team, the real time statistics may include current or recent game scores and/or standings of the team. In another example, if the augmented keyword is related to the weather, the real time statistics may include a current weather forecast. In one example, if the augmented keyword is related to a musician, the real time statistics may include statistics on music downloads, album sales and top music chart location.

Referring now to FIG. 6C, this example embodiment of the CSU 610" illustrates a search for a celebrity named Megan Fox. In brief overview, the CSU 610" is based on the search engine ofbing.com. This CSU may be generated based on a mouse over of the augmented keywords "Megan Fox" in the text of a viewed web page. The mouse over triggered the generation of the CSU and providing search results of Megan Fox from bing.com. These search results may be displayed in an overlay near the location of the inline text of "Megan Fox" in the current web page. A scrollable user interface element may allow the user to scroll through a list of top search results 665. The search text 655 is initially populated with the search term that generated the search results 665. The user can edit the search text 655 to run a different search query. The URL to the search engine 670, in this case www.bing.com, may take the user to a new window or web page ofbing.com. The URL may bring the user to a bing.com web page that provides the search results 665.

Referring now to Figure 7, a flow diagram depicting an embodiment of steps of a method 700 for delivering a CSU is depicted. In brief overview of method 700, at step 710, the CS Manager in communication with the client, determines whether the cursor is over augmented content. If a mouse over is detected, then a Time To Display (TTD) timer is initiated. At step 715, a prequery call is made to the search engine by the Search Engine Interface of the CS Manager. The CS Generator of the CS Manager generates a CSU comprising the search results obtained from the Search Engine. At step 720, if the user clicks directly on the augmented content before the TTD expires, then, at step 725, the user is directed to the search page results. In this case, the CS Manager may not issue any calls to the Search Engine containing information from the web beacon of the CSU nor may the CS Manager contact the Tracking System. At step 720, if the user does not click directly on the augmented content before the TTD expires, then, at step 730, the TTD expires and another timer, the Time To Halt Display (TTHD) is initiated. The CSU may remain visible to the user until the TTHD expires.

At step 735, if a user clicks on the search results displayed in the CSU obtained from the Search Engine before the TTHD expires, then at step 740, a second call to the Search Engine is made to convey the information gathered by the web beacon of the CSU. An additional call may be made to a designated tracking system. The user may be routed to a landing page.

At step 735, if a user does not click on the search results displayed in the CSU obtained from the Search Engine before the TTHD expires, then at 745, a user may conduct a modified search from the CSU. If the user enters a new search in the search box provided by the CSU, then at step 750, the Search Engine Interface communicates with the Search Engine any related information gathered by the CSU related to the new search. The Search Engine Interface may communicate related information to the designated Tracking Service. The user may be routed to a specified landing page.

At step 745, if the user does not modify the search and ceases further interaction with the CSU and does not move the mouse, then, in step 655, the TTHD timer expires and the CSU disappears. The user is then at step 710 where the process may begin again for the same or different augmented content. In further detail of step 710, a user is presented with the augmented content generated from an ADF created in a process depicted in Figure 2 and described above. In some embodiments, the ADF is presented in a webpage viewable by a web browser. The user moves the cursor over the augmented content using certain input devices, including without limitation, a mouse, keyboard, touch screen, scroll wheel, graphics tablet, or trackpad. Once a user moves the cursor over the augmented content, a timer is initiated. In some embodiments, the timer is designated as a time to display (TTD) timer. In some embodiments the timer is pre-defined. In some embodiments, the timer may be designated by a user. In other embodiments, the timer may be designated by a network administrator. The timer is used to determine the approximate time before an object is displayed. In some embodiments, this timer is set to three seconds. If the user moves the cursor away from the augmented content before the timer expires, then the timer may be reset.

If the user doesn't move the cursor off the augmented content, then, at step 715, the Search Engine Interface 652 of the CS Manager 650 sends a prequery, or search query generated from the augmented content, to the Search Engine 630. The Search Engine Interface 652 receives the results back from the Search Engine 630. The Search Engine Interface 652 communicates the data received from the Search Engine 630 to the CSU Generator 656. The CSU Generator uses the information from the Search Engine Interface 652 and generates a CSU 610 to display to the user. The CS Manager 650 sends the CSU over a network 140 to the client 640 to display to the user.

Once a CSU is generated, a step 720, if the user clicks directly on the augmented content before the timer expires the user is directed to a webpage that displays the search results obtained from the Search Engine 630 as shown in step 725. In some embodiments, the search results are be displayed on a webpage generated by the Search Engine 630. In other embodiments, the search results are displayed on a webpage within frames. The frames may contain without limitation, entity identifying content, related content, or advertisements. In other embodiments, a webpage generated by the augmentation server with the scraped search results is displayed.

If the user does not click on the augmented content and the timer expires, another timer is initiated, as depicted in step 730. The timer, TTHD, determines the amount of time the CSU is to remain visible to the user. In some embodiments, the TTHD timer is predefined. In other embodiments, the TTHD timer is designated by a user. In some embodiments, a network administrator designates the length of time associated with the TTHD. In an embodiment of the timer, the TTHD is set to three seconds. The CSU 610 may remains visible until the TTHD expires. In some embodiments, the user may close or exit the CSU.

If a user clicks on the result displayed in the CSU before the TTHD expires, a second call to the search engine 630 is made as depicted in step 740. In some embodiments, the second call is made by the Search Engine Interface 652 of the CS Manager 650 to send information obtained from a web beacon of the CSU. In some embodiments, the web beacon relays information collected by the web beacon in relation to the content displayed in the CSU over the network 140, to the search engine 630. In other embodiments, the information relayed collected by the web beacon is related to advertisements. In other embodiments, the information relayed collected by the web beacon is related to the user's actions and interactions with the content displayed in the CSU 610. Additionally, in some embodiments, a message is sent to a specified tracking service 640. In some embodiments, multiple messages are sent to a plurality of tracking systems 640. Based on the client, the user is routed to the specified landing page.

At step 735, if the user does not click on the CSU prior to the TTHD expiring, the user may conduct a modified search in the CSU as depicted in 745. If the user conducts a modified search in the CSU, then as depicted in 750, a call to the search engine 630 is made by the Search Engine Interface 652 of the CS Manager 650 with the user specified search criteria. Some embodiments permit the user to designate which search engine to use to conduct the search. Some embodiments permit the user to designate which websites to use to conduct the search. In some embodiments, a message is sent to a specified tracking service 640. The user is routed to the specified landing page.

If in step 745, the user does not conduct a modified search, and instead no further cursor movement or other action is detected, the TTHD timer expires, as depicted in step 655. Once the TTHD timer expires, the CSU disappears. The method 700 may begin again at step 710 or any other step of the method 700.

Although embodiments of method 700 are generally described as portions of a server, such as CS manager 650, performing operations or steps of the method, any of these steps or portions thereof may be performed by an agent on the client, such as agent 520 discussed in connection with Fig. 51.

Referring now to Figure 8, an embodiment of a method for providing keyword based search results via a user interface overlay is depicted. Embodiments of the method include, at step 810, a user interface overlay is generated and the user interface overlay is provided to the client. At step 815, an indication of a cursor over the keyword is received. At step 820, keyword related search results are obtained via a search engine. At step 825, the user interface overlay is displayed on the client to display at least some of the search results.

In further details, at step 810, the server generates a user interface overlay and provides the user interface overlay to the client. In some embodiments, the server generates a user interface overlay comprising a CSU. In some embodiments, the server generates a tooltip having or incorporating a CSU. In some embodiments, the server generates the user interface overlay while the current web page is being loaded. In some embodiments, the server generates the user interface overlay upon identifying a keyword for augmentation, such as any keyword augmented in accordance with the embodiments of the method described in Figure 5K. In some embodiments, the keywords may have been identified and augmented for one or more CSUs 610. In other embodiments, the server generates the user interface overlay upon receiving an indication of a user action with respect to an augmented keyword. In some embodiments, the agent of the client 520 receives the user interface overlay generated from the server. In some embodiments, the browser receives the user interface overlay transmitted from the server. In some embodiments, the server generates and communicates the user interface overlay to the client or agent of the client with a placeholder or instructions to include the CSU, which may subsequently be provided.

In some embodiments, the server generates the user interface overlay or CSU thereof to include a predetermined number of search results. In some embodiments, the server generates the user interface overlay or CSU thereof to include a uniform resource locator to a web page of the search engine proving the search results. In some embodiments, the server generates the user interface overlay or CSU thereof to include one or more advertisements identified for augmentation of the keyword in conjunction with the search results. In some embodiments, the server generates the user interface overlay or CSU thereof to include one or more types of media identified for augmentation of the keyword via the user interface overlay in conjunction with the search results.

In further details, at step 815, the server receives an indication of a cursor or mouse over a keyword. In some embodiments, the servers receives an indication that the user clicked on the keyword. In some embodiments, the servers receives an indication that the user moved the cursor over the keyword. In some embodiments, the servers receives an indication that the user has placed the cursor near the keyword. In some embodiments, the server receives an indication that the cursor was over the keyword for a predetermined time period. In some embodiments, the server received an indication that the user selected the keyword.

In some embodiments, the agent 520 sends a message or communication to the server 100 to provide the indication. In some embodiments, the message identifies a user's interaction, such as a mouse over, in connection with the keyword. In some embodiments, step 815 includes any of the embodiments of step 596 described in connection with FIG. 5K. In some embodiments, the server or system determines to augment the keyword with a CSU upon receiving the indication of the cursor activity with respect to the keyword. In some embodiments, the server or system determines to provide the content of the CSU upon receiving the indication of the cursor activity with respect to the keyword.

At step 820, search results are obtained for the user interface overlay or CSU thereof. In some embodiments, executable instructions of the user interface overlay transmits the request for a search via the search engine. For example, the executable instructions of the user interface overlay may transmit the request responsive to any user activity with a keyword, such as detection of a mouse over. In some embodiments, the server may transmit the request for a search via the search engine. For example, the server may transmit the request responsive to receiving the indication of the cursor over the keyword. In some embodiments, the server may transmit the request responsive to generating the user interface overlay or CSU.

The request to the search engine may include any type and form of search query related to the keyword. In some embodiments, the request includes a search query comprising the keyword. In some embodiments, the request includes a search query of one or more search terms identified for the keyword. In some embodiments, the requests includes a search query of the keyword in combination with any other search terms and/or constraints, limiters or parameters.

At step 825, the client displays the user interface overlay as an overlay

corresponding to the keyword. The user interface overlay may display at least a portion of the search results received from the search engine. In some embodiments, the user interface overlay displays an enumerated list of search results based on any type and form of ranking, such as temporal, relevancy or user profile and history. The user interface overlay may be displayed next to or adjacent to the keyword in any relative direction (above, under, diagonal or to the side of the keyword). In some embodiments, all of the steps of the method of Figure 8 are performed while loading and/or displaying the web page with the keyword. In some embodiments, steps 815 through 825 are performed while the web page with the keyword is currently displayed on the client, such as via a browser.

Referring now to Figure 9, an embodiment of a method for registering user views regarding search results provided by a user interface overlay is depicted. Embodiments of the method include, at step 910, generating and providing a user interface overlay to the client. At step 915, an indication of a cursor over the keyword for a predetermined time period is received. At step 920, an indication that the user selected a result from the search results is received At step 925, a user view is registered.

In further details, at step 910, the server generates a user interface overlay and provides the user interface overlay to the client. Step 910 may include any of the

embodiments of step 810 described above. In some embodiments, the server generates a user interface overlay or CSU that includes one or more beacons 645. In some

embodiments, the agent includes or provides the beacons 645 for the user interface overlay or CSU.

In further details, at step 915, the server receives an indication that the cursor has been over a predetermined keyword for a predetermined time period. In some embodiments, the agent 520 detects and tracks the amount of time the user is interacting with a keyword. In some embodiments, the agent 520 detects and tracks the amount of time a cursor is placed over or near a keyword. In some embodiments, the agent 520 detects and tracks the amount of time a cursor is placed over or near a keyword without selecting the keyword. The agent may determine that the amount of the time the user is over the keyword exceeds a threshold. Responsive to exceeding the threshold, the agent may send a message or communication to the server to indicate such an event. Upon such an event, a second predetermined time period may be initiated for tracking further interactions.

Responsive to the cursor over the keyword, a user interface overlay or CSU presenting search results may be displayed on the currently displayed web page having the keyword. Any embodiments of the method Figure 8 may be performed to provide search results via a user interface overlay, such as a CSU. In some embodiments, the second predetermined time period may be started upon displaying the user interface overlay or CSU In some embodiments, the second predetermined time period may be started upon providing the search results in the CSU. In some embodiments, the second predetermined time period may be started upon transmitting the CSU to the client.

At step 920, the server may receive an indication that the user selected a result from the search results of the user interface overlay. In some embodiments, the agent tracks the amount of time via a second predetermined time period with a corresponding time threshold. The second predetermined time period may be used to track the amount of the time the user interface overlay is displayed by the user. In some embodiments, the server receives an indication from the agent that the user selected a search result of the CSU after expiration of the second predetermined time period. In some embodiments, the agent sends the URL the user selected from the search results provided via the CSU. In some embodiments, the user selects the URL via a search engine landing page accessed via the CSU. In some

embodiments, the agents sends to the server an indication that the user conducted a modified search via the user interface overlay. In some embodiments, the user interface overlay is displayed until expiration of the second predetermined timer period.

At step 925, responsive to the indication of step 920, the server may register the view with one or more tracking services. In some embodiments, the server transmits a request via a network to a tracking service to the register the view. In some embodiments, the server transmits the request responsive to both the user selecting a result from the search results or modifying the search results and expiration of the first predetermined time period. In some embodiments, the server transmits the request responsive to both the user selecting a result from the search results or modifying the search results and expiration of the second predetermined time period. In some embodiments, the server transmits the request responsive to both the user selecting a result from the search results or modifying the search results in combination and the expiration of the first predetermined time period and the second predetermined time period. In some embodiments, the second indication from the agent identifies that the user selected other non-search content from the user interface overlay instead of a search result and responsive to this second indication, the server does not transmit the request to register the user view.

Claims

What is claimed:

1. A method for providing keyword based search results via a user interface overlay responsive to an indication of a cursor over a keyword identified for augmentation on a currently displayed web page, the method comprising:

(a) receiving, by a server, an indication that a cursor on a web page currently displayed on a client is over a keyword identified for augmentation via a user interface overlay that displays search results;

(b) transmitting a request for search results based on the keyword to a search engine via a network; and

(c) displaying, by the client on the currently displayed web page the user interface overlay as an overlay corresponding to the keyword, the user interface overlay displaying at least a portion of the search results received from the search engine.

2. The method of claim 1, wherein step (a) further comprises receiving, by the server, the indication that the cursor was over the keyword for a predetermined time period.

3. The method of claim 1, wherein step (a) further comprises receiving, by the server, the indication that the user selected the keyword.

4. The method of claim 1, wherein further comprising generating, by the server, the user interface overlay to include a predetermined number of search results.

5. The method of claim 1, wherein further comprising generating, by the server, the user interface overlay to include a uniform resource locator to a web page of the search engine proving the search results.

6. The method of claim 1, further comprising generating, by the server, the user

interface overlay to include one or more advertisements identified for

augmentation of the keyword in conjunction with the search results.

7. The method of claim 1, further comprising generating, by the server, the user

interface overlay to include one or more types of media identified for augmentation of the keyword via the user interface overlay in conjunction with the search results.

8. The method of claim 1, wherein step (c) further comprises transmitting the request to include a search query comprising the keyword.

9. The method of claim 1, wherein step (c) further comprises transmitting the request to include a search query of one or more search terms identified for the keyword.

10. The method of claim 1, wherein step (c) further comprises transmitting, by the server, the request for search results.

11. The method of claim 10, further comprising including at least a portion of the search results into the user interface overlay transmitted to the client in step (b)

12. The method of claim 1, wherein step (c) further comprises transmitting, by the user interface overlay, the request for search results.

13. The method of claim 1, wherein step (d) further comprises displaying, by a

browser on the client, the user interface overlay near the keyword on the currently displayed web page.

14. A method for tracking user interactions related to a user interface overlay

displayed with a keyword identified for augmentation on a currently displayed web page, the method comprising:

(d) receiving, by a server, a first indication that a cursor on a web page currently displayed on a client has been over a keyword for a first predetermined time period, the keyword identified for augmentation via a user interface overlay that displays search results;

(e) receiving, by the server, a second indication that the user selected a uniform resource locator of a result from the search results displayed by the user interface overlay; and

(f) transmitting, by the server, a request via a network to the search engine to register a view by the user of the result from the search results.

15. The method of claim 14, wherein step (b) further comprises receiving, by the

server, the second indication the user selected the uniform resource locator after expiration of a second predetermined time period.

16. The method of claim 15, further comprising initiating the second predetermined time period responsive to transmitting the user interface overlay.

17. The method of claim 14, wherein step (c) further comprises transmitting, by the server, a request via a network to a tracking service to the register the view.

18. The method of claim 14, further comprises providing, by the user interface overlay, a display of the search results via a landing page of the search engine.

19. The method of claim 14, wherein step (b) further comprises receiving, by the

server, the second indication after expiration of a second predetermined time period and in step (d) transmitting the request to the search engine.

20. The method of claim 14, wherein step (b) further comprises receiving, by the

server, the second indication that the user conducted a modified search via the user interface overlay.

21. The method of claim 20, further comprising receiving the second indication after expiration of the second predetermined time period.

22. The method of claim 14, further comprising displaying the user interface overlay near the keyword on the currently displayed web page until expiration of a second predetermined time period.

23. The method of claim 14, wherein step (b) further comprises receiving, by the

server, the second indication that the user selected augmented content of the user interface overly instead of the uniform resource locator of the result from the search results and not transmitting the request to the search engine.