DE19937013A1 - Information column for displaying passenger information - Google Patents

Abstract

An information column for displaying passenger information is proposed, which is used for the time-dependent representation of passenger information. The information column comprises a radio receiver (6, 7, 8) for digital radio signals, a processor (1) for signal processing, a transmitter (17) for sending emergency calls, a proximity switch for detecting the approach of people, and then the information processing of the Only switch on the information column when required, means for optical and / or acoustic display (3, 5), a security element (42) to permanently check the correctness of the function of the information column, a camera (20) to detect sources of danger and an energy supply in order to be independent of the energy supply network. The information column receives the information to be displayed via a wireless transmission by means of DAB, the information to be displayed being contained in MOT objects. In addition to stationary operation, the information column is therefore also suitable for mobile operation, with a locating device (4) determining the location of the information column.

Description

State of the art

The invention is based on an information column Presentation of passenger information according to the type of independent claim.

It is already known that at airports and train stations Stations are set up for passengers with which the Query passengers departure or departure and arrival times can. These stations can either be operated or they only output a given information. The Information and the information necessary for the information pillar electrical energy is delivered to these stations via cables transfer.

Advantages of the invention

The information column according to the invention for the representation of Passenger information with the characteristics of the independent Claim has the advantage that the Information on the information pillar with which passengers be informed about departure and arrival times, be transmitted wirelessly. This is the installation of these information pillars flexible because it is now possible  that anywhere in the wireless coverage area Information the information pillars are placed. So are also remote and remote stops for Trams or buses with such information pillars provided.

Another advantage is that the wireless Transfer of information to the information pillar Cabling for the transmission of information is saved. This makes the installation of the information columns extremely inexpensive and simple.

By those listed in the dependent claims Measures are advantageous training and Improvements to those specified in the independent claim Information column for displaying passenger information possible.

It is particularly advantageous that the information column Has transmitter with which an emergency call can be sent. This makes the safety of stops crucial increased, because the waiting passengers can with this Senders make an emergency call, or the information pillar recognizes itself a situation that requires an emergency call makes.

Another advantage is that the information column is a Fuse element to automatically in the event of a failure a restart of the information processing of the Trigger information column. This measure makes the Information column self-sufficient as the maintenance needs of the Information pillar can be significantly reduced and the functionality is increased.  

In addition, it is advantageous that the information column has a proximity switch to when approaching through people the information processing units of the Information pillar, such as a processor, means for acoustic and / or visual representation, the Switch on fuse element and a radio receiver. In In this way, energy is saved because the essential ones energy-consuming components of the information pillar are only activated if there are also people for the Interesting information pillar. This property is particularly important if the information column is not on Power supply network is connected.

It is also advantageous that the information with the HTML (Hyper Text Mark up Language) can be displayed. In order to will advantageously be a flexible and well known format used for the presentation of the information so that the Creator of information on known software tools Presentation of the information can use.

It is also advantageous that the information using DAB (Digital Audio Broadcasting) in the form of MOT (Multimedia Object Transfer) objects to the information pillar be sent. MOT objects have the advantage that they are from the file size (maximum 268 MByte) as well as the file content are freely configurable. This means that any information on the Information columns are sent, for example HTML pages.

It is also advantageous that the information is dependent displayed by the time. So that the Passengers who use the information pillar only for those current time relevant information transmitted. Thereby the passengers gain time because they recognize it immediately important information for them. In addition, the  Acceptance of such a pillar of information increased, if only for important information is presented to the passengers.

It is also an advantage that the software included in the information column is running, using wireless Data transmission is renewed, making it extremely easy and easy maintenance of this software is made possible.

In addition, it is advantageous that the information column has a camera, whereby by means of a Signal processing a hazard monitoring is possible. This ensures the protection and security of the Passengers using the information column increased significantly.

It is advantageous that the information column is a Has locating device with which the location of the Information pillar is determined. This makes it possible that the information pillar is mobile or at least portable is interpreted or that the information column is in Vehicles, such as trains.

It is also advantageous that the information column is a has its own energy supply device, so that the Information pillar becomes independent from the power grid Places, such as at distant and remote stops, where there is no power supply, these information pillars to set up.

drawing

An embodiment of the invention is in the drawing shown and in the following description explained. Show it

Fig. 1 is a block diagram of an information column,

Fig. 2 shows a DAB frame,

Fig. 3 is a block diagram of a proximity switch and

Fig. 4 shows a power supply to the information column.

Description of the embodiment

An information pillar for passengers has the task of Passengers over z. B. Departure and arrival times of the Inform means of transport. To such information pillars flexible, cheap and if possible at all locations one Setting up transport systems is a wireless one Transfer of information to these information pillars advantageous. To have an existing infrastructure for the to use this information wirelessly, offers DAB as an available, already used one Broadcast transmission method convenient ways Data information without much additional effort transfer. In addition, everyone else Radio transmission method with which data is transmitted can, are suitable, for example, in addition to the Broadcast transmission procedures also include the mobile radio procedures like GSM and UMTS suitable for individual. Information pillars to provide with data.

GSM (Global System for Mobile Communication) and UMTS (Universal Mobile Telecommunication System) are far widespread cellular digital wireless Radio system standards with which besides voice signals also transmit other data signals such as text and image data become. These systems are duplex Transmission systems, communicating with each other can send and receive at the same time.

DAB is a digital broadcasting method, whereby in addition to the actual audio program with additional data information be transmitted. DAB is especially for the mobile  Suitable receiver because the properties of DAB on mobile Reception are designed. In particular, by distributing the Information on many carrier frequencies, the Information on the different carrier frequencies not disturb each other, it is achieved that a frequency selective attenuation the whole signal not so far attenuates that reception is no longer possible, but with frequency-selective attenuation, only the Information that is transmitted on the frequency that this shows strong damping, get lost. By error correcting codes can be this part of the information but can be reconstructed in the receiver. It's called Distribution of the signals on different carrier frequencies Orthogonal frequency division multiplex (OFDM = Orthogonal Frequency Division Multiplex).

These error correcting codes require that in the transmitter added additional data to the data to be transferred redundancy is added. This Redundancy is either at one end of a data block added, or the redundancy is determined by means of a given rule at different positions between the Data added. The recipient then uses this Corrected redundancy errors.

In addition to DAB, there are also other digital ones Broadcasting methods such as DVB (Digital Video Broadcasting) and DRM (Digital Radio Mondial) for such a Suitable for data transmission. These procedures differ differ from each other essentially Frame structure, a different bandwidth and one different transmission frequency range of DAB, but also Here, for example, with error correcting codes and OFDM worked. Analog broadcasting methods sometimes point digital carriers, such as the well-known radio  Data signal, which also leads to such an information transmission can be used.

Fig. 1 shows a block diagram of an information column, said column information receives the information by means of DAB which the information pillar will constitute the passengers. Some of the functional units of the information column, which are described below, are connected to a bus 41 . The functional units shown in FIG. 1 are also summarized below with the term information processing of the information column.

An antenna 8 , with which the DAB signals are received, is connected to a high-frequency receiving part 7 , which filters the received DAB signals, converts them into an intermediate frequency that is lower than the reception frequency, demodulates and digitizes. The high-frequency receiving part 7 is connected via its output to a DAB decoder 6 . Passes from the high frequency receiving part 7 to the DAB decoder 6, a data stream, which is composed of the digitized data representing the high frequency receiving part has determined. 7 The antenna 8 , the radio frequency receiving part 7 and the DAB decoder 6 are together the radio receiver of the information column.

The DAB decoder 6 decodes the data stream and determines the information that is present in DAB frames and that is divided into MOT objects.

Fig. 2 shows such a DAB frame 10 having a frame head 11 is used for synchronization. This is followed by the so-called Fast Information Channel 16 , which indicates here whether information relating to the information column is located in the MOT objects. Individual information columns or entire groups of information columns can also be individually addressed.

Each information column is assigned an address which is a numerical code which is stored in the respective information column, so that the respective information column, by comparing the address received with the DAB signals and the stored own address, contains the data relevant to the respective information column Takes DAB signals. For this purpose, the DAB decoder 6 is equipped with software which has the address of the information column and / or a group of information columns. Then the DAB decoder 6 performs a comparison of the values which the DAB decoder 6 in fast. Information Channel 16 and in data fields 21 and which the DAB decoder 6 has stored by, and if they match, the DAB decoder 6 decodes the data in the MOT objects.

The MOT objects are present in the data fields 21 and the following, the MOT objects themselves having header information which provides information about the file size in which the useful data are present. In addition, the data are available as HTML files, so that the multimedia representation of information known from the Internet is used and the widespread creation programs for HTML files can be used.

The task of the DAB decoder 6 is now to determine the useful data from the MOT objects 21 and to transfer them to a processor 1 via the bus 41 . The processor 1 displays the user data at a predetermined time, which is also contained in the user data, by means 3 and 5 for optical and / or acoustic display. For this purpose, the processor 1 has an internal clock.

The processor 1 periodically transmits a signal to a fuse element 42 via the bus 41 . The fuse element 42 has a counter to count the time that elapses between two signals sent by the processor 1 . If the time exceeds a value specified in the security element, the security element 42 triggers a restart of the information processing of the information column.

In a further embodiment, the processor can 1 the securing element 42 transmit a specific signal that compares the securing element 42 to a permanently stored in the fuse element 42 signal. If the comparison reveals differences, then the securing element 42 triggers a restart of the information column. This method is even stricter because the processor 1 must also transmit the correct signal to the fuse element 42 in the correct form. With a digital signal this means that no bit errors may occur.

Alternatively, the fuse element can be connected directly via a data output of the processor 1 , and the periodic signaling then takes place via the change between logic one and logic zero.

Furthermore, it is possible to execute the security element as a software program. Since this software program must be independent of the other software programs, because otherwise a failure of these software programs would also affect the security element as a software program, a so-called multi-tasking operating system is implemented on the processor 1 , which allows several software programs to appear to be running simultaneously run in parallel. This is achieved by the operating system cyclically assigning individual time slots to the independent software programs. An example of such a multi-tasking operating system is the well-known UNIX operating system.

A software program that controls the course of information processing in the information column will then periodically send data to the software program that is the security element. If the data match the data stored in the security element, then nothing happens, if there is a difference, the security element triggers a restart of the information column. The processor 1 is also connected to a GPS receiver 4 via the bus 41 . The GPS (Global Positioning System) - receiver 4 delivers location information for the information column to the processor 1 by evaluating the received GPS data. It is thus possible for the information column to change its location and then transmit it to a central station via a transmitter 17 and an antenna 18 , the transmitter 17 being connected to the bus 41 . When there is mobile operation of the information column, the processor 1 periodically requests the location information of the GPS receiver 4 . The location information is important for the control center, because the control center sends the information to be displayed to the information pillars by means of DAB and the control center has to decide which information is important for which information pillar. For example, the location at which an information column is located determines which passenger information is displayed, i.e. which trains depart from the next stop.

The transmitter 17 receives from processor 1 the data to be sent. The processor 1 sends the location information to a center by means of the transmitter 17 and the antenna 18 connected to the transmitter 17 . Processor 1 also uses transmitter 17 and antenna 18 to send emergency calls. Such emergency calls are permanently stored in the information column, so that the processor 1 can send them automatically in the event of an emergency by means of the transmitter 17 and the antenna 18 . The transmitter 17 is, for example, a transmitter station based on the known GSM standard. The data coming from the processor 1 to the transmitter 17 are modulated, amplified and converted into a transmission frequency.

Via an input device 19 , the z. B. is a keyboard, the user makes inputs to the information column. Such inputs concern e.g. B. an emergency call. The input device 19 is connected to the bus 41 , so that the signals from the input device 19 go via the bus 41 to the processor 1 , which triggers an action according to the input by a user. These actions include e.g. B. the presentation of certain information or just sending an emergency call. With the input device it is also possible to switch on the information column so that information is presented to a user.

The processor 1 is also connected via the bus 41 to a signal processing unit 9 for a camera 20 in order to evaluate the recorded images. The signal processing 9 has software with which image recognition is possible, features and / or stored images of possible sources of danger being contained in the signal processing 9 in order to identify them by comparing an image recorded with the camera 20 and a stored image of the possible sources of danger. The camera 20 with its signal processing 9 sends z. B. to the processor 1 a signal when the camera 20 is a source of danger, for. B. fire, detected.

A signal processor 5 is also connected to the bus 41 , which processes the data coming from the processor 1 for the display 3 , for example a loudspeaker and a monitor.

Otherwise, the radio receiver 6 , 7 and 8 is used to update the software of the information column. For this purpose, the new software in the MOT objects is transferred to the information pillars. The DAB decoder 6 has decoding software with which the DAB decoder 6 recognizes that the received data has new software and with which the DAB decoder 6 can decode the data comprising the new software. Decryption data are thus present in the software that runs on the DAB decoder 6 , so that only those data that have also been appropriately encrypted are correctly decrypted. This protects the information pillar software from unauthorized access and manipulation.

FIG. 3 shows a block diagram which shows a structure of a proximity switch for the information column. A sensor 30 detects whether one or more people are approaching. An infrared sensor is used for this.

A person emits thermal energy which can be measured in the infrared range and which can thus be measured using an infrared sensor. If the sensor 30 detects an incoming infrared source, the output signal of the sensor 30 is compared with a predetermined value, which is stored in a memory 32 . The predetermined value is dimensioned such that an unambiguous measured value of the sensor 30 is larger than the predetermined value. Fluctuations in the measured values of the sensor 30 are thus eliminated. The sensitivity of the sensor 30 is thus reduced in order to eliminate small measured values.

This comparison takes place by means of a comparator 31 . A comparator is a circuit that compares two electrical signals and provides a corresponding output signal. Such an output signal is e.g. B. the difference between the two signals or a fixed signal, the size of which depends on the comparison of the two input signals.

The output signal of the comparator 31 leads to a switch 2 which, when the output signal has a certain size, switches on the power supply for the information processing 33 of the information column shown in FIG. 1. The switch is a relay, i.e. an electromechanical switch, but also power switches from semiconductor technology, such as a thyristor, are used.

The size of the output signal of the comparator 31 is only large enough if the sensor 30 delivers a measured value which is above the value stored in the memory 32 . If the measured value of the sensor 30 is below the predetermined value, which is stored in the memory 32 , the output signal of the comparator 31 is of such a size that the switch 2 remains open and the information processing 33 remains without current. The sensor 30 , the memory 32 , the comparator 31 and the switch 2 are always supplied by the power supply 28 , so that these elements are always in operation so that people approaching the information column are continuously detected.

If the people leave the information column, the sensor 30 no longer provides a measured value which is above the value stored in the memory 32 , and the comparator 31 supplies an output signal, so that the switch 2 opens again and the information processing 33 is de-energized again. In order to avoid immediate switching off after the people have left, a time delay circuit can be added, which causes the information processing 33 to be switched off after a predetermined time after the people have left.

As an alternative to an infrared sensor, a capacitive sensor can be used. In such a capacitive sensor, a voltage is applied between the bottom and an insulated part of the information column, so that an electrical field is applied to the information column. Since this results in separate charges, there is a capacitance which is influenced by the dielectric constant between the information column and the floor. Without people, the dielectric constant of the air is present, if people join, the dielectric constant is changed and thus the capacity. If this capacitance is integrated in an electrical oscillator, that is to say a vibration-generating circuit, the change in frequency of the vibrations generated by the oscillator is used to infer that people are approaching or moving away. The block diagram in FIG. 3 remains for this alternative, it only changes the physical principle that the sensor 30 uses.

In FIG. 4 is a power supply device which is connected to the information pillar, FIG. A solar collector 12 converts received solar energy into electrical energy. The current goes via a switch 15 to the information column 14 and permanently to an accumulator 13 , so that the accumulator 13 is charged. If the accumulator 13 is charged, the accumulator 13 switches off the line from the solar collector 12 , so that no overcharging occurs. For this purpose, a conventional charging circuit is used in the accumulator 13 .

If the solar collector 12 no longer outputs electricity due to the lack of solar energy, the switch 15 switches to the accumulator 13 , so that the accumulator 13 supplies the information column 14 with current during this time. The switch 2 is located behind the switch 15 so that a proximity switch 40 is always supplied with power, while an information processing are only supplied 50 of the information pillar with current when the proximity switch 40 switches on the power supply to the information processing 50 of the information pillar. The proximity switch has the sensor 30 , the memory 32 , the comparator 31 and the switch 2 .

Such an energy supply device is with the Information pillar mainly used at stops, where there is no connection to the power supply network, for example at rural bus stops. In buildings or at stops where a connection to the Power grid is in place Information column connected to the power supply network.

Claims (12)

1. information column for displaying passenger information, the information column having a processor ( 1 ), the information column having means ( 3 , 5 ) for optical and / or acoustic output, a user using control elements ( 19 ) of the information column information from the information column calls, characterized in that the information column has a radio receiver ( 6 , 7 , 8 ) for receiving digital radio signals, that the information column receives information by means of the radio receiver ( 6 , 7 , 8 ), that the information column receives the information by means of the processor ( 1 ) adapts for the acoustic and / or visual representation ( 3 , 5 ) and that the information column displays the information by means of the acoustic and / or optical representation ( 3 , 5 ). 2. Information column according to claim 1, characterized in that the information column has a transmitter ( 17 ) with an antenna ( 18 ) to send an emergency call. 3. Information column according to claim 2, characterized in that the information column has a securing element ( 42 ) which causes a restart of the information processing ( 33 ) in the information column in the event of an error in the information processing ( 33 ). 4. Information column according to claim 3, characterized in that the information column has a proximity switch ( 40 ) which turns on the information processing ( 33 ) of the information column when at least one person is approaching. 5. Information column according to claim 4, characterized in that the proximity switch ( 40 ) has a sensor ( 30 ), a memory ( 32 ), a comparator ( 31 ) and a switch ( 2 ). 6. Information column according to claim 5, characterized characterized in that the information column the information in Displays HTML format. 7. Information column according to claim 6, characterized in that the information column receives the information by means of the radio receiver as MOT objects ( 21 ). 8. Information column according to claim 7, characterized characterized that the information pillar the information depending on the time. 9. Information column according to claim 8, characterized characterized that the information pillar their software renewed by data in the radio signals. 10. Information column according to claim 9, characterized in that the information column has a camera ( 20 ) which by means of signal processing ( 9 ) is used for hazard monitoring. 11. Information column according to claim 10, characterized in that the information column has a locating device ( 4 ) to determine the location of the information column. 12. Information column according to one of the preceding Claims, characterized in that the information pillar has an energy supply device.