WO2008067754A1 - Image database of computer assembling eyeglasses process method and device - Google Patents

Abstract

An image database of computer assembling eyeglasses process method and device, the device includes: a preference center including an eyeglasses frame database, the eyeglasses frame digital images in the database are obtained by producing a frontal or/ and side digital image wherein the legs of an eyeglasses or an eyeglasses frame expanding completely and vitrification processing the background and lenses of the digital image, wherein incising the eyeglasses legs covered partly in the side digital image into two digital eyeglasses side frame images; storing the attributes corresponding to the trim size and/or the rotating angle while establishing the database for the digital image after processing; and a sending flat and a adjusting picture sticking device connected to the preference center. Also an image database of computer assembling eyeglasses process method is provided.

Description

 Ffi film database processing method and device thereof for computer glasses

 The present invention has a method and apparatus for processing a database of lens products, and more particularly, a device and associated image data processing method that can optimize a K-mirror product through a public communication network and a computer. Users can use this g-and-method to optimize the selection of eyewear products through the public communication network, and quickly and accurately match his face image with a selected mirror.

Background technique

 Everyone who wears a frog mirror wants to try on all the different styles of glasses he likes. Before purchasing a new eye. Mirror, determine which style of eyewear is best for his face shape. Although there are thousands of new glasses on the market, each optical shop may only purchase one of them, so the number of new glasses available is very limited. Users may lose the opportunity to try on some other eyewear styles before deciding to purchase in the optical shop. 3⁄4 · · On the other hand, the optical shop lost only because it failed to provide a certain kind of glasses that the customer likes. Potential buyers Because of the rapid development of the Internet, almost every family has at least one computer, or every place has an Internet cafe. A computer connected to the Internet that allows people to shop online. There are countless glasses websites on the Internet, and each website can provide a variety of eyeglass photos for customers to purchase. However, most people who need to wear glasses try to wear the selected eye lens before purchasing to ensure that it fits B's face shape.

 The programmer can design a software that combines the user's face image with the frame image to show the user's appearance after wearing the frame, but the size of the frame cannot be adjusted according to the proportion of the face image. One size does not match. In other words, although the programmer can determine the actual proportion of a particular frame that is input to the computer, the brain does not determine the proportion of the face artifacts that are entered. Therefore the image of the frame is not the actual size corresponding to the proportion of the face. For example, the frame image displayed on the computer is half the actual size, but it is almost impossible for the user to scale the image swept into the computer to half the size of the user's face.

:1 Patent No. I.S5983201 (owner: Philippine) has published a method in which a customer tries on a eyeglass frame through a personal computer. The customer can see the glasses worn by the customer from the electronic circle image. What would the box look like. Just this method requires customers to "customers Diagnostic clubhouse "takes a look at the scene, photographs the customer's image to confirm the head shape, face shape, skin color and gender of the customer who determines the size of the eyeglass frame. Then the customer can enter the "remote electronics store" to try on the eyeglass frame, examine There is no doubt that the frame product on the customer's portrait is _3⁄4 , this method allows the customer to try on all the frames before ordering the selected frame. However, this method also has several disadvantages:

 First of all, the customer's portrait must be subject to a restrictive review by the "Customer Diagnostics Club" to determine which images are allowed to be used in the "remote electronics store" in other words, even if: The customer is in the "Customer Diagnostics Club" Can not find the frame that fits its image, but also be assigned to the club to get its portrait. And ii, the location of the "customer diagnosis club" may not be close to the customer's residence or office, so the customer has to find the nearest "customer diagnosis club", compared with the traditional method of matching glasses to the retail store. It is a waste of time and/or money just to reach the above clubhouse.

 In addition, when the customer's age or weight changes cause their face to change, they only have to visit the "customer diagnosis club" once, because the optometrist recommends that each person should check the US patent US 6, 791, 584 per year. In order to solve the above problems, the author proposed to use the method of zooming the face image to solve the problem that the computer is not suitable for the remote glasses in the face frame. The method mainly includes the following steps:

 (a) providing an image of the frame in the camphor and determining the intermediate point of the frame image (front circle image, no temple portion);

 (h) determining the frame ratio of the frame image on the camphor display device according to the actual size of the frame;

 (c) Provide the user's face image on the monitor of the computer by entering the front photo of the user into the computer.

 (O on the computer display device. For a pair of pupil marks;

e) use the computer's input device, such as a mouse, to move the hole detection mark toward the face image until the center of the pupil mark coincides with the center of the a hole image of the face image; to measure the two images of the face image The distance between the holes, and enter them into the computer as a facial image Image pupil distance; the ratio of the distance in the image to determine the proportion of the face image;

 (g) Adjust the face ratio and the frame ratio according to the same scale value, so that the size of the face image and the frame image can be displayed proportionally on the computer display device;) Mirror on the computer display device The image of the frame and the face of the face are like 3⁄4, and the line is adjusted until the center point of the two pupil lines coincides with the center point of the frame image.

 When a and b are used, different frames of different sizes and shapes are pre-loaded in the computer's electronic memory unit as different frame images and so on. Summary of the invention

 One of the main aspects of the present invention is to provide a computer image processing method and an optical lens device based on the prior art, so that the user can customize the optical product through the public communication network and selectively wear it. The image on the face of the face is more realistic and does not have to be tried.

 The invention is based on the prior art and further provides a computer database processing method including a stereoscopic lens and a device thereof, so that the user can customize the eye mirror through the public communication network. The circle image that is selectively worn on multiple facets and frontal portraits of the face is more realistic without having to try on the iE.

 Another main object of the present invention is to provide an improved computer optician device based on the prior art of Φ, enabling users to quickly browse glasses through a public communication network to make selective glasses on face portraits. The circle symbol is true and does not have to be really tried.

 A further object of the present invention is to provide a computer eye-mirror wearing device that is based on the prior art of the applicant, so that the data processing amount of the picture is greatly reduced and the running speed is improved.

 In order to achieve the above-mentioned flaws, the computer stereoscopic lens ring database provided by the present invention

The film, the background of the digital picture and the lens are transparent, and the digital K-frame frame digital picture is obtained.

The side digital picture is rotated by the center of the frame of the K mirror or the eyeglass frame. A certain degree of rotation obtained by the thousands of side ffi digital ring tablets, or also includes a picture of each side;

 When the processed digital picture is built into the database, it is also stored in an attribute that satisfies the determination of the true size of the glasses or the eyeglass frame or the degree of rotation angle.

 Among them, the relevant attributes that satisfy the requirements for determining the true size of the glasses or glasses frame mainly refer to the width and height of the frame, or include the center point of the vertical and horizontal directions.

 The treatment of the present invention is to apply a crescent-shaped reflective effect color to the corresponding side of the two lenses of the glasses or the eyeglass frame, and to use the lightening effect processing technology to make the reflective effect color fade to achieve a reflective effect. Or put a shadow line on the bottom frame of the glasses or glasses frame and use the lightening effect processing technique to make the shadow effect fade to the shadow effect. Or digitally image the front or back of the transparent film on the frame of the glasses or glasses frame to make the frame have a stereo effect.

 In order to achieve the above object, the present invention also provides a stereoscopic lens device which can optimize a lens product through a public communication network, the device comprising:

 a preferred center with a glasses frame database, the display device of the database is suitable for users to enter through a public communication network, and contains many digital eyeglass frame images for the user to select. Each of the glasses frame digital pictures in the database includes The front side or/and the side digital ring piece are manufactured by the following methods:

 Make glasses or glasses frame with the temples fully unfolded and can see the front or/and side digital pictures of the curved legs of the temples, transparently process the background and lens of the digital picture, and obtain the digital picture of the glasses frame, wherein the side digital The picture is a thousand side digital ring film obtained by rotating the center of the frame of the glasses or the eyeglass frame at a certain rotation angle, or further comprising dividing the partially covered temples in each side digital picture into two pieces. The digital picture of the side frame of the glasses is stored in the database when the digital image is processed, and the related attributes satisfying the requirements of determining the true size and the degree of rotation of the glasses or the glasses frame; a transmitting platform connected to the above-mentioned service frame database by communication means; And a display device thereof, the user can send a front or/and side impact portrait on the platform through the public communication network and display on the display device;

a calibration mapping device having a scale in which the scale can appear according to an instruction On the display device, the scale has at least two horizontal reference marks or/and two vertical reference marks on the opposite side of the portrait, and the zoom adjustment scale or portrait is moved when the digital image is corrected on the iE surface. Matching the reference mark of the ruler with the reference point of the face circle on the portrait, and respectively aligning the reference mark with the S point on the portrait to ensure that the mark of the scale reference coincides with the corresponding reference on the portrait, so that the portrait is on the portrait The user's actual vertical or horizontal reference point is compared to the vertical or horizontal reference point of the image to obtain the proportion of the face, and the width or height of the actual warm mirror frame is compared with the width or height of the digital frame of the eyeglass frame. This obtains the frame ratio. During the processing of the mapping technique, the computer program coordinates the proportion of the face ratio _3⁄4. When correcting the digital image of the side, move the zoom adjustment ruler or portrait to make the reference mark of the ruler Matches the reference point of the face circle on the portrait, the distance between the actual longitudinal reference point of the user on the portrait and the longitudinal reference point of the circle image , in order to obtain the proportion of the face, and then measure the distance between the two lateral reference marks on the portrait, and compare the side to the front to obtain the face rotation angle of the upper side of the portrait, with the width of the actual eyeglass frame. Or the height is compared with the width or height of the digital picture of the eyeglass frame to obtain the frame ratio. During the processing of the mapping technique, the computer program also aligns the proportion of the face with the proportion of the glasses, and the computer program selects the closest The digital circle on the side of the rotation angle is used as the object to be attached, and the digital image of the eyeglass frame selected by the user and the computer program is affixed to the portrait by computer mapping technology to simulate the virtual appearance of the frame worn by the user.

The invention relates to a computer lens processing method and an optical lens device, which enables a user to directly preview a user to wear a selected shape and color through a public communication network by using a digital camera, a network camera or even a scanned photo. after the appearance of the face glasses _¾ portrait using simple correction ιΕ ho step, i.e., as long as the other two aligned ¾ still image fiducial mark on the fiducial mark, optical products with the proportion of the size of the frame will be two mirrors The reference mark is the reference and is automatically matched with the portrait. The spacing between the two reference marks is easily measured. Users do not have to go to the optometry room or the electronics store to get facial portraits. They can purchase the preferred eyeglass frames at any time through the public communication network and click the mouse to speed up the purchase of glasses. The invention successfully provides an economical and efficient solution for the user to purchase the service mirror through the public communication network, and the invention can also become the best auxiliary tool for the research and development of the glasses. In addition, the invention can also be used on the transmission platform. Pre-preferably set up with multiple Models that include gender differences and face differences are still like digital pictures. These models are also pre-marked as long as the two reference points of the model portrait digital images pre-set on the sending platform are used. The user is still wearing a frame with the model. In the browsing operation, the standard operation of the scale relative to the two reference points on the portrait can be omitted. In the operation of the user to select a quick view and wear the viewing effect, the user can select a model that is similar to the face shape and the like to have a better browsing effect, and is particularly suitable for not uploading the user's own portrait digital picture. situation

 In addition to the convenient browsing operation according to the above method, the present invention also increases the precise wearing operation, that is, the spacing between the actual specific vertical or horizontal reference points of the user is input to the display device, for example, In the scale adjustment operation window or the specific reference point pitch operation window or the like, the ratio of the portrait face is obtained in comparison with the pitch of the vertical or horizontal reference point of the portrait image, that is, the display device is provided with an inputtable The scale adjustment operation window of the distance between the two reference points, the distance between the two reference marks of the scale is determined by the selected value, and the portrait displayed on the display device is suitable for the movement and zoom adjustment operation, the portrait It is suitable for the movement and zooming. It refers to the rotation, movement or zooming of the portrait movement with the size of the eyeglass frame and the position of the country in the process of mapping, and also includes the portrait to be stored in the determined glasses when the processed digital image is built into the database. Or the actual size of the eyeglass frame requires the relevant attributes, with the actual woven or lateral reference point and portrait of the user on their portrait The ratio of the portrait face, as compared to the vertical or horizontal reference point, is obtained by comparing the width of the actual eyeglass frame or the 3⁄4 degree of the frame width or height of the eyeglass frame on the digital ring to obtain the frame ratio. During the mapping technique processing, the computer program coordinates the proportions of the portrait face proportion glasses, and adjusts the proportion of the image according to the fixed eye lens ratio to adapt to the virtual appearance of the user wearing the frame on the portrait.

 The above adopts a very simple portrait correction step, that is, as long as the two reference marks are aligned with the reference mark on the portrait, the size ratio of the optical product eyeglass frame is based on two reference marks, and automatically matches the portrait. Matching, the spacing between the two reference marks of .li is easy to measure, and it is convenient for people to see the effect of the glasses on the face and whether the glasses are compatible with him, and can be used directly for the user. Customized lenses.

The two horizontal reference marks on the portrait of the present invention preferably refer to tt holes, and the holes of the holes. The spacing can be obtained during the optician, but it can also be obtained from a measurement, or a horizontal scaled scale on the face when the user's portrait is provided; the reference or the mouth of the mouth and the two corners of the mouth The spacing or the spacing between the sides of the nose and the sides of the nose, etc., the spacing can be easily measured by yourself, or simply put a horizontal scaled ruler on the face when providing the user's portrait, the spacing between the two benchmarks It is very convenient to obtain. The reference point at this time can also be directly the scale on the scale. The reference can also be the frame on both sides of the front of the glasses worn on the portrait. This reference mark is especially convenient for users with double-layer glasses. Or it is still suitable for users who already have glasses, because it is convenient for users who wear glasses to measure their glasses. Preferably, the two longitudinal reference points are the center points of the two holes and their vertical spacing between the noses, etc., and may also be specific reference marks on other user portraits as described above, such as the mark of a specific point in the center of the front of the face to two β. The spacing of the center points of the hole marks, etc. The specific two or more mark coordinates on the service mirror frame may be a pupil, an inner frame, an outer frame edge, etc., and the further step of the present invention is to set the database after processing the digital thumbnail. It is stored in the eyeglass frame on the specific two lens pupil design point mark coordinates as the relative attribute _s portrait on the opposite two reference points is ί3⁄4 hole. That is, the specific two mark coordinates on the mirror frame are the coordinate coordinates of the two lens pupil design points. At this time, the specific two mark coordinates on the eyeglass frame in the eyeglass frame database refer to the two pupil mark points on the preset lens. Such a setting. When the virtual glasses are worn on the face portrait, it is not necessary to correct the 3⁄4 distance to make the wearing effect more realistic without actually trying on it, and then selecting the pupil instead of the frame edge for the latter. Precise wear is also more convenient and convenient

Preferably, the scale in the correction applicator device of the present invention is a longitudinal measurement line that can be moved on the display device. The horizontal measurement line is used for longitudinally aligning the two reference points of the user on the portrait. The transverse measuring line is used to laterally align the two reference points of the user, respectively, which facilitates alignment and facilitates measurement if required by computer programming. The school i:E map device is provided with a scale, the scale can be based on the command reference point, that is, the scale can not appear on the display device, usually after the portrait K is worn on the frame, the ruler does not appear in the display The device also includes two reference points which can be used to compare the preset digital portraits of the model portraits on the sending platform with the ruler. The user can omit the ruler pair by using the model to wear the frame. The two reference points on the portrait are operated, and the scale can not appear on the display device. In this case, the ruler can be hidden behind the display device, and the other pair is pre- The set model portrait digital picture 迸 computer coordinate processing to indicate the relative two reference points on the portrait is completely similar to the scale indication method; in addition, there are no two benchmarks relative to the portrait digital cabinet In the case where the point is also pre-marked, especially for the portrait digital picture uploaded by the user, it is necessary that the ruler appears on the display device, directly displayed on the display device, or after being prompted on the display device. Then click on the display device, etc., when it is necessary to mark such a portrait digital picture, move the adjustment ruler or portrait so that the reference mark of the ruler matches the reference point on the portrait, and the reference mark of the ruler can be respectively The reference points on the portrait are aligned, and the marks on the fifi scale are respectively coincident with the corresponding reference on the portrait.

 Further, the scale in the correction applicator device of the present invention preferably consists of a longitudinal line and a transverse line (not necessarily horizontal and vertical lines) movable on the display device, the cross between the longitudinal and transverse lines. The reference mark is used to align the two or two display devices of the user on the portrait, and the button frame for selecting whether to issue an instruction, such as "clicking on the pupil" or "adjusting the ruler", "hiding the ruler" and the like.

Each digital eye in the database. The mirror frame digital picture can be manufactured as follows; the lens or the eyeglass frame is formed with the fully extended front side or the plurality of side digital readings, and the present invention preferably and can see the temples. The front side of the hook or the digital picture with multiple sides, the digital camera or the scanner can be used as the image capturing device to make the iE surface and the side digital picture of the glasses or the eyeglass frame, and the image capturing can be other conventional types of images. Capturing devices, such as conventional optical cameras, but the photos taken by such cameras require the scanner to be digitized; they can also be directly designed without the need for an image capture device, and the design circle is placed directly in the database to use the digital image. Or the background of the design and the lens are transparent, for example, using the transparency processing technology in the drawing software such as Photoshop. The 3D image processing makes the frame have a stereo effect, so-called three-dimensional image processing in many drawing software The step is generally to shift the specified edge or wheel, and then perform grayscale or twist or color. Processing In the present invention, the eyeglasses or eyeglass frame two A crescent-shaped reflective effect color is attached to the corresponding side of the lens, and the lightening effect processing technology is used to make the reflective effect color fade to achieve a reflective effect. The so-called lightening effect processing technology processing is also called fuzzy effect processing. For example, in Photoshop drawing software, it refers to image robustness (transliteration) processing. According to algorithm technology, the mean value processing also includes attaching under the bottom frame of glasses or glasses frames. The upper hatching is also treated with a lightening effect processing technique, so that the shadow effect color fades to a realistic shadow effect. Of course, the present invention does not exclude the case where the digital frame of the eyeglass frame is simply performed without increasing the effect of the effect. In the center of the frame ⁴³ warm side mirror frame digital image processing is still spectacles or spectacle frames when the point is rotated around one thousand digital sheet side by a certain rotation angle obtained, except that each side of the digital ^ FIG. In addition to the partially covered temples being cut away to obtain the side frame digital ring of the eyeglasses, the present invention also includes the process of cutting out the partially obscured temples while retaining the uniform lens or the digital ring on the side of the eyeglass frame.

The 迸-歩 setting of the present invention is a correction mapping device which also includes a first-time portrait for the texture used in the technique for the portrait on the circle. The t-cut position of the ear is used, and the second one of the texture is Attach the selected eye mirror frame to the portrait after cutting the ear position with the eye. The mirror position, the first part of the circle is to put the cut ear position circle image back to the original position, the frame is on the side of the computer The portrait is cut with the side glasses frame texture technology for the first-in-one image of the user's ear and the virtual ear position image and the portrait is divided into three, and the second image of the texture is displayed. The device leaves the portrait of the user's virtual ear position, and the third step of the circle is to be cut by the partially covered side of the temple. The digital garden is attached to the portrait of the user's virtual ear position. The fourth trick is to attach the portrait of the image without the ear and the virtual ear position to the original position. The fifth cymbal of the ring will be partially covered with the side of the temple frame on the side of the temple. The digital cymbal is attached to the ear. Ear position The portrait of the image is equipped with the position of the glasses, and the sixth point of the map is to paste the image of the position of the cut ear back to the original position S. On the basis of this, the further setting of the present invention sets the position of the user's ear on the portrait in the circle. The treatment of the squatting technique allows the temple to have the effect of inserting the visible portion of the ear that extends to the side of the face of the portrait. This treatment can cover the temples seen in the picture of the eyeglass frame, especially for viewing. A good visual effect can be achieved by the front of the curved hook of the temple or with the digital picture of the multiple side frames. A further arrangement of the present invention is that the correcting applicator device further includes a frame or line for delineating the position of the user's ear and its covering on the portrait, the frame or line being used in the computer mapping technique to delineate the dynamic mask The boundary of the cover layer, the frame or line can also be adjusted by the operator in the precise wearing operation, and can be preset by the computer during the browsing operation without adjusting the computer graphics technology including the dynamic mask technology. Processing such as: ik h draw software or other similar drawing software in the dynamic mask technology processing, set the portrait as a background image, digital glasses frame image set to be masked layer, ear defined by frame or line The position of the cover and the cover are set as a mask layer, and the image of the eyeglass frame is covered by the ear or its cover when the image of the eyeglass frame is attached to the portrait digital picture, and is retained by cutting off the temple that is not partially covered. Constitutional glasses or eyes. In the mask processing of the digital picture on the side of the frame, the position of the corresponding portrait digital picture can be set as a mask layer, and the lens or the side frame of the eyeglass frame is in the digital circle. The front frame is set to not mask the mask layer, etc. processing techniques. On the basis of this, the further setting of the present invention is to perform the edge feathering processing of the occlusion layer, that is, to achieve the gradual, semi-transparent ^: bright, feathering mask effect. Such as fl ash. in the painting software in the feathering process, according to the algorithm technology called the mean processing. This will cause the glasses or eyeglass frame to have a progressive insertion effect when it is inserted into the ear or its cover. The computer glasses wearing device provided by the invention adopts the dynamic mask technology to make the image of the digital mirror frame and the frame of the eyeglass frame have the effect of hanging on the ear or inserting the position of the cover when the eyeglass frame or the eyeglass frame is attached to the portrait digital circle. , and the data processing capacity of the movie is greatly reduced, so that the running speed is improved.

 The following detailed description of the combined state will clarify the flaws, characteristics and advantages of the present invention.

DRAWINGS

Circle: A block diagram of a public communication network equipped with a mirror according to an embodiment of the present invention. Process block diagram. Mirror or frame: ί: The first circle of the digital face The third 歩 of the front digital picture of the mirror or frame.

 Circle 6 is a first 歩 schematic circle for making a side digital picture of an eye or mirror frame in a picture database processing method formed in accordance with an embodiment of the present invention.

 Figure 7 is a second schematic representation of a reversed digital picture of an eyeglass or eyeglass frame in a method of image database processing formed in accordance with an embodiment of the present invention.

 Figure 8 is a fourth schematic representation of a third digital representation of a side digital picture of a side digital picture of an eyeglass or eyeglass frame formed in accordance with an embodiment of the present invention.

 Figure 1.0 is a schematic illustration of an optical device having only a front user portrait formed in accordance with an embodiment of the present invention described above.

 阌 11 is a schematic representation of a lens arrangement device having a front user portrait and a ruler formed in accordance with an embodiment of the present invention described above.

 Figure 12 is a first step view showing the steps of displaying the front eyeglass frame digital loops superimposed on the front user portrait in accordance with an embodiment of the present invention.

 The trouble 1.3 is a second step of the circled step showing the display of the front eyeglass frame digital national film superimposed on the front user portrait according to an embodiment of the present invention.

 The trouble 1.4 is a schematic diagram of the third step of the step of attaching the digital picture of the front side of the frame formed on the front user portrait according to the embodiment of the present invention.

 The garden 15 is an illustrative apparatus for displaying a lens arrangement with a side user portrait and a scale formed in accordance with an embodiment of the present invention described above.

 The garden 16 is a second schematic view of a map showing the side glasses frame digital wafer superimposed on the side user portrait formed in accordance with an embodiment of the present invention.

 The 闘 17 is a third 歩 schematic circle of a map step of displaying a face glass frame digital wafer superimposed on a side user portrait according to an embodiment of the present invention.

 The country 18 is a fourth step diagram of a step of displaying a digital picture of the side glasses frame superimposed on the side user portrait formed in accordance with an embodiment of the present invention.

The country 19 is a display side glasses frame formed according to an embodiment of the present invention. The digital picture stack country 20 is a digital picture stack for displaying side glasses frames formed according to an embodiment of the present invention. Add a ring on the side of the user's still image to the sixth step of the circle.

 The circle 21 is a schematic representation of the lens arrangement with respect to Fig. 15 and only a user portrait.

 Figure 22 is a schematic illustration of the digital frame of the display glasses frame formed in relation to Figure 20, which has been added to the user's portrait.

 Figure 23 is a schematic view showing the effect of the front side of the eyeglass frame of the eyeglass frame being formed on the user or the model portrait, which is formed by moving the left side of the eyeglass frame according to an embodiment of the present invention.

 Fig. 24 is a view showing the effect of the front side of the digital frame of the eyeglass frame which is formed to be moved to the right, which is formed on the user or the model portrait, according to an embodiment of the present invention.

detailed description

 As shown, a device for optimizing eyeglasses over a public communication network formed in accordance with a preferred embodiment of the present invention has a preferred center iO, a transmitting platform 20 and a calibration map device 30. The center center i () includes an eye. The mirror frame database 1. The central processing unit 13 and its display device 14 can be classified according to j-home and brand, and can also be based on men and women, materials, frames, colors. , functions, etc. are classified and set as attributes. The database is suitable for users to access via a public communication network (such as the Internet), and the digital country 12 has a frame ratio relative to the true size of the frame. Each digital eyeglass frame digital country in the database is manufactured by the following methods;

Make the mirror or the eyeglass frame with the temples fully exposed and you can see the front and side digital slides of the curved legs of the temples. You can use the digital camera or scanner as the image capture device to make the iE surface of the glasses or frames. With the side digital picture, the capture of the circular image can be other conventional types of image capture devices, such as conventional optical cameras, but the photos taken by such cameras require the scanner to digitize. The background and the lens of the digital picture are transparently processed, for example, using a transparency processing technique in a drawing software such as Photoshop, and the digital picture before or after the transparent processing is performed on the truss of the glasses or the eyeglass frame. The image processing makes the frame have a stereoscopic effect, and the virtual three-dimensional image processing is processed in a lot of drawing softness or color. In addition, in the embodiment, the two sides of the lens or the eyeglass frame are attached with a crescent shape. Reflective effect color, and treated with a lightening effect processing technique to make the inverse The light effect color gradually fades to achieve the reflective effect. The so-called lightening effect processing technology processing is also called blur effect processing. For example, in photosbop drawing software, it refers to image robust (transliteration) processing, according to algorithm technology called mean processing _3⁄4 Also included is a shadow line under the bottom frame of the glasses or glasses frame, which is also treated with a lightening effect processing technique, so that the shadow effect color fades to a shadow effect. The side digital cabinet is the frame center of the glasses or the eyeglass frame. a number of side digital K-pieces obtained by rotating a point at a certain angle of rotation, for example 5 to

10 bisector 9 () degree side digital pictures, ii will be partially covered in each side digital picture is cut into two glasses side frame digital picture

 When the processed digital image is built into the database, the attribute corresponding to the requirement of determining the center point of the warm mirror or the eyeglass frame and the true size and the rotation angle degree is also stored, so that the eyeglass frame with the circle image on the digital picture 12 of the eyeglass frame is relatively The vertical and horizontal center points of the glasses or the frame of the glasses are also stored as attributes in the establishment of the digital glasses frame country database. The above-mentioned eyeglass frame, such as the conventional frame, generally includes a frame in which a pair of lenses are mounted in position, and the frame has a nose beam that connects the two lenses to the outer side of the lens. The body of the eyeglass frame can be traditional, framed, half-framed or frameless. On the rimless eyeglasses, the bridge of the nose is drawn directly between the inner edges of the two lenses.

Obtained by the above processing techniques spectacles or spectacle frames of the digital picture of the entire front slovenly effect is very true, greatly improving the user wear glasses on discs appearance _¾ other words, the eyeglass frame ¾ sheet 12 superposed digital ring When the portrait 21 is on, a reflection effect is generated on each lens, and the frame shadow of the eyeglass frame digital wafer 12 is generated on the portrait 21 to enhance the stereoscopic feeling of the user's virtual appearance of each frame, and the user is tried on the same. In the process of performing 3⁄4 episodes, the invention can also use the mirroring technology of the computer to reduce the number of gardens in the database by half, for example, the degree of rotation angle is The 30-degree mirror frame digital cymbal 12 is mirrored by the computer. The processing can directly get the 120-degree glasses frame digital picture] 2, etc., at this time, in the mapping process, according to the needs, you can set it in the display device Μ An image processing window allows the operator to operate by himself, of course, the computer can also be set Automatic operation

 The sending platform 2() is suitable for the user to send his portrait 21 on the display 14 of the platform through the public communication network, and the image 21 can simultaneously include the front and side portraits 21 according to the needs of the user, and of course, the user can directly send the portrait 21 The portrait 2 ί to the display device of the platform] 4, the portrait 2 1 with the user's two pupils as the two horizontal reference marks, the pupil center point and the nose tip of the nose as a longitudinal reference mark, for example, correction stickers The cymbal device 30 superimposes the spectacles frame digital picture 12 selected by the user on the portrait 2.1. by aligning the two reference marks on the scale 32 with the two pupil reference points of the user on the image 21, respectively. Simulates the virtual appearance of the user wearing the frame. Among them, the two reference marks are set to represent the true distance between the two reference marks of the user by a certain ratio. Therefore, the two reference marks formed according to the present embodiment first refer to the two pupils 3' and the two reference points are the two pupils of the user on the portrait 21. In other words, the two β holes 31 represent the true distance between the two tt holes of the user in a certain ratio, for correcting the ratio of the frame to be worn by the user, or by inputting between the two pupils according to the ratio of the frame. The real distance corrects the user's portrait 2ί and the ratio of the face represented by the real two pupils. On the side, the center point of the 3⁄4 hole and the nose of the nose are used as markers for the longitudinal reference. These two vertical reference marks are used to represent the true distance between the two reference marks of the user in a certain ratio.

The sending platform 20 can also have a model portrait 21 directly preset on the display device 14 of the platform. On the transmitting platform, a plurality of model portraits 21 characters can be preliminarily set to summarize gender differences and face shapes. In the operation of using the user to quickly browse and wear the viewing effect, the user can select a model similar to the face shape to achieve a better browsing effect, and is particularly suitable for the case where the user's own portrait 21 digital picture is not uploaded. . The above-mentioned eyeglass frame database 11 is also provided on the display device 14 of the transmitting platform 20 or preferably the center 10. In order to make the portrait 21 displayed on the display device 14 or the glasses frame digital picture 1.2 of the eyeglass frame database 11 more obvious, The display device 14 is provided with a switch button or a change selection box, etc., and a switch box such as a portrait selection selection eyeglass is displayed in the figure, and the switch frame is clicked to switch the image on the display device 14. In the simple browsing operation, the portrait 21 has two apertures as two reference points, or a pupil center point and a nose tip of the nose as two reference points, etc., and the correction attachment device 30 passes the scale 32 The two reference marks 322 are respectively aligned on the portrait 21 The user's two pupil reference points are affixed to the portrait 21 by the user-selected eyeglass frame digital picture 12, and the opposite two reference points, ie, the pupils on the 2:1. The specific two mark coordinate points, that is, the specific two lens pupil design points on the eyeglass frame completely correspond to the ratio of the portrait ratio to the eyeglass frame ratio, to simulate the virtual appearance of the user wearing the frame, so that the user can quickly browse and match The wearing effect; the other operation is to pre-mark the two reference points of the model portrait 21 digital picture preset on the sending platform 20 by using the ruler, or the preset model image 2:! The digital picture is subjected to computer coordinate processing to indicate that the two opposite reference points on the portrait 21 (this embodiment refers to the two pupil reference points of the user on the portrait 21) are completely similar to the method indicated by the scale 32, the user is The display device M uses the model portrait 21. In the browsing operation of wearing the frame, the marking operation of the two reference points (pupils) on the portrait 21 on the portrait 21 can be omitted, and the ruler: 32 can be omitted. On the display device, only such a browsing operation may be considered to be hidden behind the display device 1.4. The user directly clicks on a certain digital frame 12 of the eyeglass frame in the image database to be attached; 3⁄4, except In the case where the two reference points of the portrait 21 digital picture are also pre-marked, especially for the portrait digital pictures uploaded by the user, it is necessary that the scale 32 appears on the display device, and is directly displayed on the display. On the device 14, or after being prompted on the display device 14, click on the display device 14, or the like.

According to an embodiment of the invention, the correction mapping device 3() is preferably provided with a longitudinal measuring line 321- movable on the display device 14 for longitudinally aligning the two users of the above portrait as two reference circle images The pupil is further provided with a lateral measuring line 322 movable on the display device for laterally aligning the two pupils of the two reference images on the portrait, respectively, as two reference holes of the two reference marks Formed at two intersections between the longitudinal measurement line and the lateral measurement line, that is, the scale 32 in the calibration map device 30 is composed of a longitudinal measurement line 321 and a lateral measurement line 322 that are movable on the display device 14, longitudinal measurement Line 321 is used to longitudinally align the two reference points of the user on portrait 21 above, and lateral measurement line 322 is used to laterally align the two reference points of the user on image 21, respectively. In the embodiment of the invention, scale 32 is provided for display. A longitudinal measuring line 321 that moves over the device 14 for longitudinally aligning the two beta holes of the user on the portrait 21; the scale 32 is provided with a lateral measuring line 322 that is movable on the display device: 1.4 for lateral alignment of the portrait 2i on the user's two Hole. Thus, two cross-porous marks are formed at the intersection between the longitudinal measurement line 321 and the lateral measurement line 322. In other words, the coordinates of a borehole displayed on the portrait 21 are determined by the longitudinal measurement line: 1⁄21 and the lateral measurement line: 2 intersecting each other. The longitudinal measurement line 321 and the lateral measurement line 322 are also suitable for longitudinal and lateral movement on the portrait 2 ί to determine the coordinate of the other pupil's coordinate scale 32. However, by calculating the two sets of coordinates, Derive the distance between the two pupils specified by the two hole marks 31 to proportionally determine the true distance between the two pupils of the user, especially on the side, in order to determine the angle of rotation of the upper side of the portrait, often The angle of rotation of the upper face of the side portrait is measured by the scale 32. At this time, the vertical and horizontal measurement line scale of the scale 32 is preferred, and of course it is also necessary depending on the computer program design.

 As an obvious alternative, the correction applicator device 30 can contain the above-mentioned ruler

32 matching scale adjustment operation window 33 for the user to input the true distance between the two pupils or between the pupil center point and the nose tip of the nose, the scale adjustment operation window 33 is input between the two holes or in the hole The true distance between point b and the tip of the nose to adjust the horizontal and vertical measurement lines 322, 321 align each of the two holes or the pupils of the portrait 2 ! . . . h

II, based on the width or height of the actual eyeglass frame, the width or height of the eyeglass frame digital picture 1.2 is compared with the determined frame ratio. In the technical process of the reading process, the computer conveniently compares the face ratio to the eyeglass ratio. It has two coherent superposition image that is in order to preferably _¾ ring frame image is superimposed on the portrait image 21, a preferred embodiment of the invention the digital image spectacle frame 12 is fixed, and is displayed on the launch platform 21 portrait It is suitable for scaling up or down or including other adjustments such as rotation, until the center point of the two holes or pupils and the nose point of the nose are superimposed to the two pupils or sleeping holes of the portrait 21 in a certain ratio! Point 3.3⁄4 on the tip of the nose, and the center point of the two pupils or pupils and the tip of the nose can represent the true distance between the user's pupil or the center point of the hole and the tip of the nose. The fixed value is drawn, and the portrait 2 ί displayed on the display device 14 of the above transmitting platform 20 is adapted to perform a moving zoom adjustment operation until the flag of the scale 32 is superimposed on the user. Given the flag.

An alternative is that the portrait 21 displayed on the sending platform is fixed, and The glasses frame digital picture 1.2 is suitable for scaling up or down until the eyeglass frame digital circle 12 matches a certain ratio with two ft hole marks (or two other reference marks) or the pupil center point and the nose tip of the nose. . The two pupil marks (or the other two fiducial marks) or the bell hole 4 ^{: the} point of the nose and the tip of the nose can represent the user's pupil (or other two fiducial marks) or between the center point of the pupil and the tip of the nose. Real distance »

 That is, a preferred embodiment of the present invention is that the display device 1.4 is provided with a scale adjustment operation window 33 capable of inputting the pitch of two reference points. Generally, the scale adjustment operation window 33 also has a conventional setting such as determining whether or not to display the operation window of the dial. It is not described here that the reference scale has a distance between two reference points determined by the selected value, and the reference scale 32 is determined by the selected value, and the distance between the two reference points on the reference scale cannot be performed. The zoom adjustment, of course, the other reference points adjusted by the fixed values and their scaling adjustments may also be allowed. The selected value may be the measured distance between the two reference points, or may be statistically obtained. The spacing between the two reference points The portrait 21 displayed on the display device described above is adapted to perform a moving zoom adjustment operation until the reference mark of the user is superimposed on the reference scale

32 on the benchmark mark. During the processing of the texture, the computer can set the glasses frame digital picture 12 directly to the ruler: 3⁄42 its lateral measurement line: 3⁄422 represents the position of the glasses like 2 圈 circle, regardless of the portrait 21 in the «like position, then display The portrait movement zoom adjustment operation window 34 can also be correspondingly arranged in the device 1, 4, as described above, the portrait movement zoom adjustment operation window 34 can be separately set to operate, such as moving, zooming, and the like, respectively. I will not repeat them here.

 The calibration mapping device 30 provided by the embodiment of the present invention is configured to use the ratio of the two pupils on the customer's pupil as a reference to calculate the ratio of the iE frame, as if most users do not know their true interpupillary distance, Such a small problem in operation, in the present invention, also provides a very simple method and its installation, which is similar to the real distance, as described above, regardless of whether the two references in the portrait are the hole or the corner of the mouth or When making a portrait, the scale on the scale placed on the face, etc., the distance between the two references can be: self-measurement, and in the embodiment where the ruler 32 is determined by the selected 而 and cannot be scaled, The input measurement is obtained: the two reference spacings are obtained: Ε Ε frame ratio.

Or the user does not provide anything. To try on all the glasses, the user can only input the sex. Various information such as age, age, and ethnicity are searched as basic personal information. To this end, gender and gender are used to classify statistical distance ranges to subdivide the frame size. In terms of age factor, the preferred center of the present invention is divided into three sections of the elderly, children, and adults, which are used to classify the frame size, and to subdivide the frame size. It is worth mentioning that each of the above categories may also be Divided into several sub-categories, such as 13 Ί 9 years old and 】 under 3 years of age, the statistical range of Asians is different from that of Europeans. Therefore, by inputting the race, the present invention preferably has a 4 ¹ heart 10 which can be a corresponding statistical range of 4 races. The device can statistically determine the user's distance range and the like by a combination of gender, age, and ethnic factors.

 In addition, you can enter detailed information such as height, weight, and face shape for advanced search. Therefore, by entering gender, age, race, height, and weight, the corresponding size of the eyeglass frame can be screened out from the database by speculation. In particular, input the user's face shape, such as a circle or an ellipse. By speculating, it can be calculated that the user's avoidance is that the user's gender, age, race, height, weight, face shape, etc. are only available. For the purpose of trying to buy glasses, especially lenses, it is best for the user to provide an accurate interpupillary distance to match the focus of the lens. The growth of height is directly proportional. Statistically, the height of the statistical data range is Γ 2 meters, and the distance statistics in proportion to the height is 4 (200 mm wide. Therefore, the preferred device of the present invention can be counted from the user by inputting the height data of the user. Learn to determine the user's distance to minimize the misalignment.

 It is worth mentioning that all the information about the user's gender, age, race, height, weight, face, etc. is the basic information that the user can provide. The preferred center 1.0 of the present invention utilizes this information to statistically determine the user's interpupillary distance. The error between the statistical distance obtained by the device and the user's true distance is 3 mm. Therefore, the preferred center 10 also includes a statistical distance database. The child library stores user «distance statistics related to the user's gender, age, race, height, weight, and face information. Of course, if the user can provide more information, the statistical results obtained by the device: the distance error will be reduced by one.

After measuring or determining the distance between the two pupil marks, you can select the relevant eyeglass frame digital picture i2 pair portrait 2 ί glasses to simulate the virtual appearance of the user wearing the frame. In the mirror When the color has a unique aspect of the sheet of wear performance requirements., Wearing sunglasses, for example is the case, for example, may be utilized in graphics software Photoshop sleeve purple tool to select the lens position and can add the corresponding transparent color _¾ Accordingly, the present invention The user can match the image 21 with a variety of eyeglass frame digital pictures 12 to observe the overall appearance of the relevant frame image on the user's face.

 Therefore, it can also be understood that each of the warm-mirror frame digital wraps 12 stored in the eyeglass frame database u of the preferred center U) is subjected to careful and accurate conversion in accordance with a specific established procedure. Photographing the frame forming the digital frame 12 of the eyeglass frame to produce a frog frame digital picture that meets the necessary scale. 3⁄4 resolution requirements. In addition, each eyeglass frame digital image 12 has a frame, two temples, The bridge of the nose, preferably also includes a lens. However, the user can select to display a portion of the digital frame 12 of the service frame. For example, the user can request to see only the frame, the bridge of the nose and the lens without two temples. The present invention can be achieved at this stage. It is important to note that it is preferred that the central processor 13 of the center 10 can be configured to adjust or trim a predetermined portion of the predetermined eyeglass frame digital wrap 12 to optimize the wearing of the formed eyeglass frame digital picture 12 for a certain portrait 21 . That is to say, the present invention can also combine the processed frame frame digital picture position in the development of a new type of eye mirror, using the lens arrangement of the invention to combine different frames, temples (or temples), bridges and the like. Wear it on the model's portrait, it's easy to design new glasses that are more in line with the new fashion.

It is worth mentioning that the eyeglass store can optimize the use of the present invention, so that the customer actually has the opportunity to appreciate the appearance of wearing a plurality of glasses without trying on a large number of glasses. The facts can prove that the invention is very effective, because the frame image database provided to the customer carries a large number of glasses frame digital pictures 12, and §., the user can also hand over the prescription prescription to the preferred center. The center of the goods is used to grind the lens with the corresponding radius of curvature. At this time, the true determined distance is more important. Or the glasses of the 冲 圏 圏 其 其 其 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 镜 j j j j j The frame 323 of the user's ear position on the portrait 21 in the circle, it should be noted that the user's ear position is not only It refers only to the ears seen on the portrait 21, and includes the decorations such as the hair or the hat covering the ears, which cover the ears. The ears seen on the portrait 21 plus the hair covering the position of the ears are collectively referred to as the user's ears. position. The frame 323 may be displayed on the display device 1.4 as a square, an ellipse, a comma, etc., and the frame: 323 in the circle portrait 2] when the user's ear position g is preferably a frame line and an ear The face intersects the line of the circle, the frame 323 is on the front of the computer and the front of the eyeglass frame! Figure 4 is used for the first part of the map to cut the 3⁄4 position of the user on the portrait 21. The second is to attach the selected warm frame mirror picture 12, so that the frame of the glasses is attached to the image 21 with the frog mirror position after cutting 5 positions. The third point of the map is to press the position of the cut ear. In the original bit processing, the first frame for the texture cuts the user's ear and the virtual ear position on the portrait 21 in the circle and divides the portrait 21 into three, and the attached I: 歩 is left on the display device. On the portrait of the user's virtual ear position image, the third step of the map will be the part of the mirrored side of the cut-off side of the digital country film attached to the portrait 2!. on the user's virtual 3⁄4 position on the pavilion, attached The fourth step 3⁄4 is attached to the portrait without the ears and the virtual ear position ffl In the original position, the fifth step of the map will have no partially covered side of the temple. The digital picture on the side of the mirror frame is attached to the portrait with the ear and the virtual ear position. The sixth step of the map is The image of the cut ear position is pasted back to its original position.

In this way, the complete glasses or frames are completely worn on the portrait 21, so that the effect is more consistent with the actual, and the process of several times of the pasting is completed instantaneously in the mapping technique without being displayed on the display device 1.4. A further design of the embodiment of the present invention is to passivate the image of the user's ear position on the portrait 21 of the circle in the last lap of the garden, so that the temple or the temple is inserted and extended to the image 2:. The effect of the visible part of the ear side of the face is the result of the user's attempt to wear the actual appearance of each frame. The passivation technology processing refers to, for example, a median algorithm technique, etc., corresponding to the sharpening processing technology in Photoshop drawing software. In addition, the frame for enclosing the position of the user's ear on the portrait: 23 is corrected as part of the scale 32. The operator, for example, the user selects the operation movement, and the user selects the position to be more accurate in the user selection operation. At this time, the display device 14 may indicate that the frame 23 is for selecting an ear covering position of the temple or the side of the face, for example, an operation window such as S in the scale adjusting operation window 33, when However, the frame 323 can also be based on the distance between the eyes and the ear with less deviation from each other. For example, the lasso worker in the photoshop drawing software selects the face wheel, and the computer map process automatically sets the selection operation. The computer image processing technology is used to reasonably cut the picture of the glasses selected by the user and the portrait 2i picture, and mark the serial number (computer-defined, the user cannot see), and then circle in the specified order to form a new circle to simulate The virtual appearance of the user wearing glasses, in the process of sticking K: ^f , the computer program automatically aligns the proportion of the face with the proportion of the glasses, so that the new picture after the glasses is more vivid and realistic, in the process of posting the country In the lens frame digital picture 12 directly attached to the portrait 21 picture of the service mirror position or freely attached to the other positions of the portrait 2] picture, in the computer map technology processing are very easy to set or selected, for example, the setting will The eyeglass frame digital loop piece 12 is directly attached to the eyeglass position of the portrait 21 picture represented by the horizontal measuring line 322 of the scale 32. At this time, the portrait 21 can also be used without the movement correction process, and the meter can set the mapping process while simultaneously measuring the lateral direction. The line 21 corresponds to the portrait 21 escape movement correcting operation, or the computer setting directly attaches the glasses frame digital picture 12 to the display 21. The portrait image 14 is set on a position at a high ≡ two thirds, etc., are not repeated here. The purpose of the illustration is to set the eyeglass frame digital picture 12 directly to the scale 32. The lateral measurement line 322, in particular, also includes the portrait 21 picture of the lens position represented by the two pupil center points, the side-based portrait 21 The center vertical line of the glasses is offset from the center vertical line of the portrait of the iE face 21, and the vertical vertical line of the portrait 21 wearing glasses is offset from the center vertical line of the portrait 21 wearing glasses. 2CIK, at this time, according to the experience, when the user operates the ruler 32 in the j::E applicator device, the ruler 32 on the portrait 21 of the different side rotation angles has its two pupil center points and its vertical line (ie, this The longitudinal measuring line 21 in a preferred embodiment of the invention is modified, for example, the j:E to the center point of the two pupils, the vertical line passing through or near the tip of the nose, etc., can obtain a very true eyeglass frame digital cymbal 1-2 attached The actual eyeglass position effect of the portrait 21 picture, the need to correct the center point of the two pupils and its vertical line, the process of setting the map in the aforementioned computer is to directly attach the digital picture of the eyeglass frame: 1.2 to the horizontal measurement line 3 22 corresponding portrait 21, you can also use the computer to the side of the rotation angle change caused by the vertical line to deviate from the setting, and in the process of mapping the movement of the portrait 21 at the same time is worth a trip. Yes, the eyeglass frame digital picture ί'2 is set on the scale 32, and the scale 32 has its lateral measurement line 322. The center point and the eyeglass frame digital circle 12 have their center points in the database of computer mapping technology processing and glasses frame digital picture 1.2. It is often an important setting element. Preferably, glasses or frames are used as in the embodiment of the present invention. The vertical and horizontal center points are also stored as attributes in the establishment of the digital eyeglass frame picture database. In the computer mapping technology processing, the center point of the two reference marks determined by the vertical and horizontal measurement lines 32:1, 322 of the scale 32 and the glasses are Or corresponding to the longitudinal and lateral center points of the eyeglass frame, when the mapping instruction is given, the eyeglass frame digital picture 12 is directly attached to the frog mirror position of the portrait 21 picture represented by the ruler 32, wherein the scale 32 has longitudinal and lateral measurement lines 321, 322 The determined center point of the two reference marks includes the corrected situation when the image 21 is on the side.

 The present invention also provides another mapping embodiment, the correction mapping device 30 further comprising a frame or line 323 defining the position of the user's ear and its covering on the portrait, the frame or line 323 being used in the computer patching technique The boundary of the dynamic mask layer is defined, and the frame or line 323 can also be adjusted by the operator in the precise wearing operation, and can be preset by the computer in the browsing operation without adjustment. The computer veneer technology includes some dynamic mask technology to process the embodiment. The dynamic mask technology in the ash drawing software is used to set the portrait 21 as a background image, and the digital eyeglass frame alarm image is set to be masked. Layer, by the frame or line: 3⁄423 delineated ear and its cover. i position is set as a mask layer, especially the front frame in the digital eyeglass frame circle image is always on the portrait digital picture. The temples are covered when they are positioned corresponding to the portrait digital image that needs to be covered. Thus, it can be said that when the eyeglass frame country image is attached to the portrait digital picture, the eyeglass frame garden image is hidden by the position of the ear or its cover at the position. In addition, the edge of the mask layer is feathered, that is, the gradient, the transparency, and the feathering effect. For example, the feathering processing in the flash drawing software is called the mean processing according to the algorithm technique. This causes the eyeglasses or the eyeglass frame to have a progressive insertion effect when inserted into the ear or its cover position, so that the temples or the temples have the effect of inserting the visible portion of the ear that extends to the side of the face of the portrait 21 , improved use

The front side of the K frame is set to be unmasked, and the processing technology of the occultation technique or multiple setting of different background laps, mask layers, mask layers, etc. The glasses block diagram is not spoofed, as shown It should be noted that the user's ear or the position of the object of the turtle is not only the position of the ear seen on the portrait 21, but also the position of the ear covering the ear such as the hair or the hat covering the ear, or It also refers directly to the covering that can cover the temples on the 21st image, especially in the processing of the inverted image, as shown in the figure. The ear seen on the portrait 21 plus the hair covering the position of the ear can be collectively referred to as the user's ear position 3⁄4. The frame 323 preferably has a frame line and five ring lines intersecting the face when delineating the user's ear position on the portrait 21, or may be a simple straight line similar to the wheel line of the cover position. In this way, the complete glasses or glasses frame is completely worn on the still image 21, so that the effect is more consistent with the actual, and the ii texture over-process is completed in the instant of the mapping technique and is not displayed on the display device 1.4. The frame 323 for delineating the position of the user's ear on the portrait is corrected as part of the scale 32 by the operator, for example, the user selects the operation to move the comparison, and the user selects the position to be more accurate in the selection operation. Such an operation window can be set in the display window 14:3 adjustment operation window 33 of the display device 14, and the specific arrangement can be determined according to user convenience.

The trouble 2 is a solution to the method flow of the preferred eyeglass product through the public communication network, and the preferred method formed according to the embodiment of the present invention is explained. The method comprises the following steps: (a) providing a suitable center that fits the user through the public communication network. The center has a database of digital photo frames 12 containing a large number of digital eyeglass frames for users to choose from. Each of the glasses frame digital wafers in the database contains the ratio of the national frame to its respective real frame. (b) Providing a delivery platform that is connected to the database. The user can send its image on the platform through the public communication network. (c) Select at least one eye, mirror, and frame digital image from database 11. (1) According to two pupil marks on two pupils, respectively, on portrait 21. School: Ε Ε frame or image The ratio makes the two consistent. (e) When the user selects the frame circle image 12 to be affixed to the portrait 21丄, the mold is as recommended in the present invention, and the alternative lens product is preferred. The method can be used commercially and commercially, and the method of purchasing an optical product through a public communication network includes the following steps: Providing a remote purchase center accessible through a public communication network. The center provides a sending platform 20 for enabling users to access the public communication network. Send it Xiao Like 21; at least one eyeglass frame digital picture 12 is selected from the eyeglass frame database l. The eyepiece frame digital picture 12 is affixed to the portrait 2:1. Each eyeglass frame digital picture 12 has a frame ratio relative to the true size of the respective frame; simulates the virtual appearance of the user wearing the frame; accepts the user selected frame order to accept confirmation of at least one frame selected by the customer, according to the corresponding frame Confirmation and information of the image, send the order to the manufacturer of the selected frame. The frame information includes specifications for the lens, the lens color of the sunglasses, and the prescription of the lens so that the manufacturer can produce the relevant frame and provide the lens based on all relevant information, ie lens specifications, requirements, frame style and appearance.

Through the above operation, the present invention can be used to improve the integrity of the sales and promote the acceptance of the goods by the customer. Therefore, the steps which may be included in the method for purchasing the glasses product are as follows: the customer is made a member of the remote purchasing center, and the credit information is stored in the user database 5, and the customer is authorized according to the credit status of the customer. It is possible to select a frame image from the frame database, and the customer user sends a portrait of the frame image to a friend, asks them for a reference, and the like. The value mentioned is that the remote purchase center preferably operates as a user terminal of a public communication network such as a computer, so that the customer can easily and conveniently purchase the glasses through his own computer without having to wait. Shop or optometry shop to buy. Preferably, the method for purchasing the lens product further includes a step of selecting the latest and most popular frame image set from the eyeglass truss database 1 1 as a classification category on the display device 14 for providing customers select, via a public communication network promotional frame _¾ further, the above step may further comprise a ho ho step of providing instructions to adjust the glasses, so that customers may be adjusted to the side frame nose they buy through the public communication network, comfortable to wear glasses . The eyeglass adjustment manual allows the user to adjust the frame in an appropriate manner without having to go to the optometry store to lie in the lens alignment or a small number of frame adjustments.

In order to promote the interaction between the customer's glasses sellers, and to advertise the glasses, the method of purchasing the glasses frame also includes a step of conducting a questionnaire market survey on the new glasses frame through the public communication network, so that the customer can return feedback. We will deepen our customers' impression of the seller's eyeglass frame sales service and expand the sales of glasses. The purchase method of the service mirror product includes the delivery of the lens frame with the lens, and the lens is produced according to the confirmation of the user and the authorized prescription. The delivery of the eyeglass frame is preferably carried out by mail, so that the customer does not have to go to the optometry store-one Lying down Buy glasses. But if the customer wants to go to the optometry store to test new glasses, of course, it is also welcome.

 I. The present invention provides a platform for selecting glasses for standing glasses. Customers use the public communication network, the Internet, to use their own portraits on this platform 2 1. Select the desired frame and provide a prescription for the spectacle lenses produced by optometry. As long as the customer gets the appropriate authorized prescription, they can order their favorite eyeglass frames and their eyeglasses at home or anywhere they like.

 Therefore, the user can use the lens arrangement of the present invention to try on all the frames. The user can preload the software with the lens device of the present invention into a personal computer or enter the device via the Internet. By simply sending the user portrait on the sending platform 2], the user can enter the above information, or the device can statistically determine the user's distance. Since the error between the statistical pitch of the device and the user's true pupil distance is relatively small, the user can select at least one frame image from the eyeglass frame database i1 as mentioned in the above method.

Similarly, the eye shop can also pre-load software with the preferred device of the invention into a personal computer or simply provide an internet computer. Therefore, the user can go to the optical shop to help send his portrait 21 on the sending station and input the above information, ^1> enable the preferred device of the present invention to statistically determine the user's pupil distance, and thus the user decides to purchase the goggles before purchasing There will also be hundreds of thousands of chances to try on other frame styles without providing specific logo data c

The present invention provides an apparatus and method for optimizing and purchasing eyeglass products through a public communication network. With this apparatus and method, the customer can customize the product via the public communication network glasses, without actually trying on glasses to wear glasses portrait selectively _¾ Further, the present invention may also be in the frame for the retail or wholesale Commercial use, let the frame retail or wholesaler to operate as a network custom eyewear product.

 Those skilled in the art will appreciate that the embodiments of the invention illustrated in the foregoing and appended claims are only examples, and are not intended to limit the invention. The embodiment of the invention has been shown and described for the purpose of explaining the principles of the invention. Embodiments of the invention may vary without departing from the principles. Accordingly, all the embodiments of the invention are intended to be included within the scope of the invention as claimed.

Claims

 Rights request

1. A method of image database at the mirror of the machine, including the following steps:

(a.) Make a front or / and a digital photo of the eyelid or the frame with the temples fully unfolded, and transparently process the background and the lens of the digital picture to obtain a digital picture frame of the digital glasses frame.

 The side digital instant film is a thousand side digital ring film obtained by rotating the center of the frame of the glasses or the eyeglass frame at a certain rotation angle, or includes a partially covered mirror in each inverted digital picture. The foot is cut into two digital eyeglass side frame loops;

 (b) When the database is processed, the database is also stored with attributes that meet the requirements for determining the true size of the glasses or frames, and/or the degree of rotation.

 2. The method of processing a picture database of a computer optic according to claim 1, wherein the longitudinal and lateral center points of the glasses or the eyeglass frame are also stored as attributes when establishing the digital eye frame.

Fruit color, and treated with the lightening effect processing technology, so that the reflective effect color fades to achieve a reflective effect:

 4. A method for processing a picture database of a computer optic according to claim 1 or 2, characterized in that a shadow line is attached under the bottom frame of the eyepiece or the eyeglass frame and processed by a lightening effect processing technique to make the shadow effect The color fades to the shadow effect.

 5 . The method of processing a computer database according to claim 3 , wherein the bottom frame of the eyeglass frame or the eyeglass frame is hatched and processed by a lightening effect processing technique to make the shadow effect gradually fade. Light fade to the shadow effect is realistic.

 6. A computer database image processing method according to claim 2 or 2 or δ, characterized in that the digital picture before or after the transparency is in the eye or the mirror frame

7. The method for processing a picture database of a computer according to claim 3, The invention is characterized in that the digital picture before or after the transparency processing is subjected to virtual three-dimensional image processing on the frame of the glasses or the glasses frame to make the frame have a stereoscopic effect.

 8. The image processing method for computer glasses according to claim 4, wherein the digital image before or after the transparency processing is subjected to virtual three-dimensional image processing on the frame of the K mirror or the frame of the glasses to make the frame have a stereoscopic effect.

 9. A computer optician device comprising:

 A preferred center having a glasses frame database, the display device of the database is suitable for users to enter through a public communication network, and includes a plurality of digital eyeglass frame country images for user selection, and each of the glasses frame digital pictures in the database includes The front or /_3⁄4 side digital ring is manufactured by:

 Make the E-face or / and the inverted digital ring of the glasses or the frame of the glasses, and transparently process the background and the lens of the digital ring to obtain the digital frame of the glasses frame. The center of the frame of the mirror or service frame is a thousand side digital pictures obtained by rotating the rotation point at a certain rotation angle, or includes the partially covered temples in each side digital picture being cut into two side faces. The frame digital ffl piece', when the processed digital picture is built into the database, is also stored in a transmission platform and a display device thereof, which are connected to the above-mentioned eyeglass frame database, which can satisfy the determination of the glasses or the glasses frame, and the user can access the public communication network through the public communication network. Sending a front side or/and a side portrait on the platform and displaying the display device;

... a correction mapping device, in which a scale is provided, which can be present on the display device according to instructions, the scale having at least two horizontal reference marks or/and two longitudinal reference marks on the opposite side of the portrait, When correcting the digital image of the i:E face, move the zoom adjustment ruler or portrait so that the reference mark of the ruler matches the reference point of the face circle on the image, and the reference mark can be aligned with the reference point on the portrait. The mark on the basis of the ffi scale is respectively coincident with the corresponding reference on the portrait, and the ratio of the actual vertical or horizontal reference point of the user on the portrait is compared with the vertical or horizontal reference point of the image, thereby obtaining the face proportion, The degree or height of the eyeglass frame is consistent with the width or height ratio of the digital frame of the eyeglass frame and the proportion of the eyeglasses; when correcting the digital image of the side, shifting The zoom scale adjusts the scale or portrait so that the fiducial mark of the scale matches the reference point of the face circle on the portrait, and the ratio of the face is compared with the vertical reference point of the user's actual longitudinal reference point image on the image. And measuring the distance between the two horizontal reference marks on the opposite side, and comparing the side to the front side to obtain the face rotation angle of the upper side of the portrait, with the width or height of the actual service frame and its eyeglass frame digital Compared to the width or height of the image, the frame ratio is obtained. In the process of the splicing technique, the computer program also aligns the face ratio with the frog mirror ratio, and the computer program selects the side closest to the rotation angle. The digital K-chip is used as a 3⁄4 image object, and the computer frame mapping technology is used to affix the digital frame of the eyeglass frame selected by the user and the computer program to the portrait to simulate the virtual appearance of the frame on the side of the user.

I.0. The computer lens arrangement according to claim 9, wherein the calibration device further comprises a frame for the position of the user's ear on the portrait of the circle, the frame being on the front of the computer and the front side Eye. Mirror frame mapping technology 4 ^s The first 用于 used for mapping cuts the user's ear position on the portrait in the circle. The second 贴 of the texture is to attach the selected eyeglass frame to the portrait after cutting the ear position. The third step of the map is to put the cut ear position on the original position of the national image, and the first step of the sub-picture in the eyeglass frame mapping technology processing on the side of the computer side will be the user's portrait in the circle. The ear and the virtual ear position image are cut and the portrait is divided into three pieces. The second picture of the picture is the virtual ear position circle image of the user on the display device leaving the portrait, and the third piece to be cut is to be cut. The digital picture on the side of the covered temple is attached to the user's virtual ear position circle. The fourth step of the sticker is to stick the image of the ear without the ear and the virtual ear position to the original position. The fifth cymbal of the figure will be attached to the portrait with the ear and the virtual ear image on the side of the temple without the partially covered side of the temple. The sixth point of the map is the ear that will be cut. The location object is pasted back to its original location.

 II. The computer optic arrangement of claim 9, wherein the correcting attachment device further comprises a frame or line for delineating the position of the user's ear and its covering, the frame or line in computer mapping technology Used to delimit the dynamic mask layer, computer map

The technology also includes dynamic masking technology, setting portraits as background images, numbers The eyeglass frame circle image is set as a mask layer, and the ear and the cover position defined by the frame or the line are set as a mask layer.

 The computer lens arrangement according to claim 10, characterized in that the image of the user's ear position is subjected to a passivation technique on the portrait of the last pair of stitches in the image, so that the temple has an insertion extending to the portrait. The effect of the visible part of the face of the face

 1.3. A computer eyewear wearing device according to claim i, characterized in that the edge layer is feathered by the mask layer.

 M. The computer lens arrangement according to claim 9, 10, 1 1 , 1.2, ..., 3, characterized in that the processed digital picture is stored in a database or two or two on the eyeglass frame. The above-mentioned mark coordinates are used as related attributes, and the produced glasses or service frames are the front faces of the curved hooks of the temples or the digital pictures with multiple sides; the transfer platform and its display device are also pre-set with portraits. Digital enclosing film; the two opposite reference points on the portrait refer to the special logo corresponding to the position of the wearing glasses frame on the portrait, and the selected digital frame of the eyeglass frame is attached to the portrait digital picture according to the computer program of the surrounding instruction. The two reference points on the portrait are completely matched with the specific two mark coordinate points on the eyeglass frame to achieve the coordination and consistency of the portrait ratio with the eyeglass frame ratio.

 1.5, reference to claims 9,! .0, ! The computer lens arrangement device according to 1, 12, 13 is characterized in that when the processed digital national film is built into a database, the coordinates of the specific two lens pupil design points on the eyeglass frame are stored as related attributes, and the portrait is relatively The two reference points are pupils.

 The computer lens arrangement device according to claim 14, wherein when the processed digital circle piece is built into the database, the specific two lens ft hole design point mark coordinates are stored on the eyeglass frame as related attributes, on the portrait. The opposite two reference points are the more holes.

 According to claims 9·, 10, 11, 12, ! The computer lens arrangement of claim 3, wherein the scale in the calibration mapping device is composed of a longitudinal traverse line and a lateral measurement line movable on the display device, the longitudinal measurement line being used for longitudinally aligning the user on the portrait Two reference points, the lateral measurement line is used to laterally align the two reference points of the user on the portrait

18. A computer optic device according to the claims, characterized by a longitudinal A cross-reference mark composed of a horizontal line is used to align two or more reference points that are still like the user

 1-9. The metering device according to claim 9, 10, 1 1 , 12, 1.3, 16, 18, wherein the scale provided in the calibration mapping device marks the lateral reference is a pupil The ruler marks the longitudinal reference mark as the center point of the pupil and the tip of the nose.

 20. The computer lens arrangement according to claim 9, 10, 1 1 , 1.2, 13, 16, 18, wherein the display device is provided with a scale adjustment operation window capable of inputting a pitch of two reference points, The spacing between the two reference marks is determined by the selected 値, and the portrait displayed on the display device is suitable for the rotary zoom adjustment operation, and the processed digital image is also stored in the determined glasses when the database is created. Or the relevant attribute of the actual size of the eyeglass frame, the distance between the actual vertical or horizontal reference point of the user on the portrait and the vertical or horizontal reference point of the portrait image, thereby obtaining the portrait face ratio, with the actual glasses The width or height of the boring frame is compared with the width or height of the Mirror frame on the digital ring to obtain the frame ratio. During the mapping technique, the computer program coordinates the portrait face ratio with the glasses ratio and fixes according to the above. The proportion of the glasses is adjusted accordingly to adjust the proportion of the portrait to fit the virtual appearance of the user wearing the frame on the portrait.

 2. A computer optic arrangement according to claim 9, 10, 1, 12, 13, 16, 8 wherein the frame for enclosing the position of the user's ear on the portrait is corrected as part of the scale The device operator selects the operation to move.

 22. A computer optic arrangement according to claim 14 wherein the frame for enclosing the position of the user's ear on the portrait is corrected as part of the scale by the applicator.

 A computer lens arrangement according to claim 20, wherein the frame for enclosing the position of the user's ear on the portrait is used as part of the scale to be calibrated. The operator selects the operation to move.

 24. A computer optic arrangement according to claim 9, 10, 1:1.1, 12, 13, 6, 6, 22 or 23, characterized in that each of the digital service mirror frames in the database is digital

K piece of glasses or glasses frame on the corresponding side of the two sides of the lens attached to the crescent-shaped reflective effect color, and the use of lightening effect processing technology, so that the reflective effect color fades to achieve a reflective effect remote: true, will be transparent before processing Or after the digital picture on the frame of the glasses or glasses frame The image processing of the pseudo-dimensional image makes the frame have a stereoscopic effect, and the bottom frame of the glasses or the eyeglass frame is shaded and processed by the lightening effect processing technology, so that the shadow effect color gradually fades to achieve a realistic shadow effect.

 2δ, the computer lens arrangement device according to claim i4, wherein each of the digital glasses frame in the database is attached with a crescent-shaped reflective effect color on the corresponding side of the two lenses of the glasses or the service frame, and The lightening effect processing technology is used to make the reflective effect color fade to achieve the reflective effect, and the digital image before or after the transparent processing is subjected to virtual three-dimensional image processing on the frame of the glasses or the glasses frame to make the frame have a stereoscopic effect. Warm mirror or warm. The bottom frame of the frame is attached with a haze line and treated with a lightening effect processing technique to make the effect of the haze fade to a vivid effect.

 26. A computer lens arrangement according to the claims, characterized in that each digital frame of the digital eyeglass frame in the database is attached with a crescent-shaped reflective effect color on the corresponding side of the two lenses of the glasses or the eyeglass frame, and is reduced by The light effect processing technology is used to make the reflective effect color fade to the reflective effect, and the digital circle film before or after the transparent processing is subjected to virtual image enclosing processing on the frame of the glasses or the eyeglass frame to make the frame have a three-dimensional shape. The effect is that the bottom frame of the glasses or the eyeglass frame is shaded and processed by the lightening effect processing technique, so that the shadow effect color fades to the shadow effect.

 27. The computer lens arrangement according to claim 19, characterized in that each digital eye in the database, the digital frame of the mirror frame, and the two sides of the lens of the glasses or the eyeglass frame are attached with a crescent-shaped reflective effect. Color, and adopting the lightening effect processing technology to make the reflective effect color fade to achieve the reflective effect, and the digital picture before or after the transparent processing is performed on the frame of the glasses or the glasses frame to make the virtual three-dimensional image processing frame With stereo effect processing, the shadow effect color fades to the shadow effect.

28. According to the claims! The computer lens arrangement device of the present invention is characterized in that each digital frame of the digital eyeglass frame in the database has two mirrors of the K mirror or the eyeglass frame, and the reflective effect color is gradually faded to achieve a reflective effect, which will be transparent. The front or back digital picture is subjected to virtual three-dimensional group image processing on the frame of the glasses or the eyeglass frame to make the frame have a stereoscopic effect, and the bottom frame of the glasses or the eyeglass frame is hatched and the lightening effect processing technology is adopted. Processing, so that the shadow effect fades to the shadow effect.

 2 . The computer lens arrangement device according to claim 2 (1), wherein each digital frame of the digital eyeglass frame in the database is attached with a crescent-shaped reflective effect color on a corresponding side of the two lenses of the glasses or the eyeglass frame. And adopting the lightening effect processing technology to make the reflective effect color fade to achieve the reflective effect, and the virtual three-dimensional image processing on the frame of the glasses or the glasses frame before or after the transparent processing makes the frame have Stereoscopic effect, with the mirror or warm. The bottom frame of the frame is affixed with a hatching and treated with a lightening effect processing technique, so that the shadow effect color fades to the shadow effect.