NL1016812C2 - Route navigation method, especially for blind or visually impaired people, detects user position and sends information from central database server to user - Google Patents

Abstract

The starting position of the person is determined and a connection with a central database server (15) is set up so that identification information associated with the starting position can be sent to the server. In response, information concerning the route from the starting position to the desired end position is sent to the user, where it is stored and reproduced. Independent claims are also included for the following: (1) a route navigation device; (2) a walking stick for a blind person fitted a route navigation device.

Description

Device and method for delivering route information

The present invention relates to a device and method for providing route information regarding a route from a first position to a second position. The route information can also be provided during the route, and can for instance be of a tourist nature.

Such a device is known, for example designed as part of a car navigation system, which determines its position with the aid of GPS and / or speed sensors and provides route information. Such a system is expensive and often only applicable for use on public roads. Another similar system is known, for example, that is used in museums. Users of such a museum information system receive information about exhibited objects via a tape. The disadvantage of this is that you have to listen to the tape, and that only one fixed route that cannot be influenced is available.

The present invention seeks to provide a device for route information which not only provides information but also route guidance, and which is suitable for use for the visually impaired and blind for example.

This object is achieved by a method of the type defined in the preamble, the method comprising the steps of detecting the first position, establishing a connection to a central database server at the first position, sending an identification associated with the first position to the central database server and in response thereto receiving and storing route information data regarding the route, and displaying the route information data.

The present method has the advantage that it can be applied locally and can be made operational quickly. The method is easily expandable in a geographical sense, and the central information provision makes flexible deployment possible. In addition, the method is simple and inexpensive to use.

In an embodiment of the present method, the route information data comprises partial information data associated with intermediate positions and the method comprises the further step of displaying the partial information data as soon as an associated intermediate position is detected. This makes it possible to provide route information to the user at intermediate places, for example concerning the route itself (directions for continuation of route) or concerning interested parties in the vicinity of the intermediate position.

The display of the route information data can take place by means of voice messages and / or textual representation with large characters. Voice messages are very effective for blind users, and textual representation with large characters is very effective for the visually impaired.

In one embodiment, the detection of the first position takes place by means of detection of a beacon with a limited detection area. Due to the limited detection area, such a beacon indicates a certain position along a route with great accuracy. The beacon can for example be an HF beacon, such as a beacon that works according to the Bluetooth protocol.

In a still further embodiment of the present method, the intermediate positions are connected by a guide line, and the method comprises the further step of following the guide line by detecting the guide line. The guideline makes it very easy for the visually impaired to follow the route, even when the intermediate positions with beacons are far apart and the route instructions do not follow each other quickly.

Preferably, in addition to the identification associated with the first position, an identification of a user and the position of the user are also sent to the central database server. This information can be used in the database server to adapt the route information to be supplied to the location or identity of the user. The position of the user can, for example, be obtained from a GPS device or another navigation system.

The present method can be implemented in a computer, such as a personal digital assistant (PDA), which is provided with a communication option, such as a Bluetooth transceiver and / or a mobile telephony device.

In a further aspect, the present invention relates to a device for providing route information relating to a route from a first position to a second position, the device comprising communication means adapted to make a connection to a database server on the first position and receiving route information data from the database server, memory means for storing the route information data, 1 U.

3 shows means for displaying the route information data, wherein the device is further adapted to detect the first position on the basis of a first beacon identification of a first beacon along the route. With the device, the method according to the present invention is easy to put into practice.

In an embodiment of the present device, the route information data comprises at least one route indication associated with one of a plurality of beacons along the route, and the device is further adapted to receive a further beacon identification associated with one of a plurality of beacons on the route and to display the route information data associated with the further beacon identification 10. A user can thus follow his route on the basis of route instructions that belong to a certain intermediate beacon and that lead the user to a next beacon on his route.

In a still further embodiment, the display means comprise conversion means for converting the data in the memory means into speech messages and / or text messages with large characters. These are easily and effectively understood by the visually impaired.

In a further embodiment, the plurality of beacons each have a limited receiving area for indicating a position along the route. It is not necessary that the receiving areas of the beacons overlap each other, as long as clear indications can be given from one beacon to the next beacon.

The route is preferably indicated by a guide line and the device further comprises a line sensor for detecting the guide line, the guide line being arranged in accordance with the route. Such a guideline makes it possible for the visually impaired to orientate correctly and to follow the route between two beacons, for example with the aid of a cane.

In an embodiment of the present device, the line sensor is adapted to emit a focused beam and further comprises a sensor for detecting a beam reflected by the guide line. The ray beam 30 can be an optical or a high-frequency beam, which is reflected by the guide line.

The device is preferably adapted to give a signal upon detection of the guide line by the line sensor. The signal can be an audio signal, 4 but also a vibration signal or a combination of both. Such a signal is easily and unambiguously recognizable by a visually impaired person.

In a preferred embodiment, the communication means comprise an interface for communication with a mobile telephone, and the connection to the database server is established via the mobile telephone. Such an interface can for instance be a Bluetooth interface, with which mobile telephones will be equipped in the very near future. The connection to the database server need only be of short duration, namely entering the route with the aid of, for example, a voice-controlled menu and sending data back to the central information device. This keeps the call costs for the user limited. The communication means can operate circuit-switched or exchange data via a packet-switched protocol, such as GPRS.

A further embodiment of the device further comprises position-determining means for determining the position of the device, and the communication means are further adapted to send the position of the device and an identification of the device to the database server. This makes it possible to adapt the route information to be supplied to the identity or location of the user of the device. The position means can for instance be a GPS sensor, which can supply accurate position data throughout almost the entire world.

The device according to the present invention is preferably attached to a cane. The line sensor can then be aligned with the blind stick, whereby a signal is always given when the user swings the blind stick back and forth and the bundle is reflected by the guide line.

The present invention will now be explained in more detail with reference to a preferred embodiment with reference to the accompanying drawing, in which

FIG. 1 shows an overview of a guiding device according to an embodiment of the present invention; and

FIG. 2 shows a block diagram of the central information device used in an embodiment of the guiding device of FIG. 1.

The present invention relates to a route information system, in particular suitable for guiding blind and partially sighted people along a predetermined route and providing information concerning the route. In addition, the device 5 is also suitable for providing information, such as tourist information, concerning a route to sighted people.

An embodiment of the guiding device according to the invention is shown schematically in FIG. 1. The guiding device comprises as its most important part a central information device 10. The central information device 10 comprises a communication interface 11 and an optional line sensor 12. Via the communication interface 11 data exchange is possible between the central information device device 10 and a central database server 15. Also, in a preferred embodiment, the communication interface 11 is arranged to receive an identification signal from a beacon 16. Alternatively, the communication interface 11 may comprise separate parts on the one hand for communicating with the database server 15 and on the other hand for receiving identification signals from one of the beacons 16.

The beacons 16 are placed at predetermined locations along a certain route to be followed and each emit a, preferably unique, identification signal, which is indicated in the figure as bundle 17. Preferably, the signal is an RF signal which is in an limited broadcasting area, for example through the use of special antennas. The route to be followed is indicated in one embodiment with the aid of one or more guide lines 19.

The central information device 10 is adapted to communicate with the database server 15 via the communication interface 11. In a preferred embodiment of the present invention, as shown in FIG. 1, the communication takes place via a mobile telephone 13. The mobile telephone 13 can communicate with the database server 15 in the normal way, via the mobile telephone network, the public telephone network and / or the Internet. 25 With the aid of new data communication techniques in the field of mobile telephony the communication between database server 15 and mobile telephone 13 (and from there to the central information device 10) can take place very efficiently. Examples are packet-switched services (General Packet Radio System, GPRS) and mobile Internet communication using the Wireless Application Protocol (WAP).

In the embodiment shown in FIG. 1, the communication interface 11 is designed as a Bluetooth interface. With the aid of Bluetooth technology, known per se to the skilled person, a wireless local network can be built up between different elements that must communicate with each other. Both data traffic and digitized voice signals can be exchanged via the Bluetooth protocol. In the preferred embodiment shown, the communication interface 11 communicates both with the beacons 16 and with the mobile telephone 13. For this purpose, the beacons 16 must then also send an identification signal which satisfies the

Bluetooth protocol, and the mobile phone 13 must be equipped with a Bluetooth interface.

The beacons 16 are preferably arranged in the floor or against a wall and have such a radiation characteristic that the bundle 17 can only be received in a limited area along the guide line 19. The beacons are also provided with a protective housing, so that they are protected against weather influences and vandalism. The beacons 16 are preferably provided with their own feed.

In FIG. 2 shows a schematic representation of the guiding device 10. In FIG. 2, the communication interface 11 and the line sensor 12 are again shown. Both the communication interface 11 and the line sensor 12 are connected to processor means 20, for example in the form of a central processing unit (CPU) or another form of a data processing unit. The processor means 20 are further connected to memory means 21, for example in the form of a random access memory (RAM), optionally in combination with a read-only memory (ROM). Furthermore, the processor means 20 are connected to a loudspeaker 23 for reproducing audio signals and / or spoken messages. In a further embodiment, the loudspeaker 23 is designed as an earphone which, optionally wirelessly, for example via the Bluetooth protocol, communicates with the guide device 10. For use by the visually impaired, the loudspeaker 23 can optionally be replaced by or supplemented with a display screen for large format characters. In a still further embodiment of the present invention, the guiding device is provided with an electronic compass 22, which is connected to the processor means 20 for supplying a direction signal. The whole can be implemented in a small, portable computer, such as a PDA (personal digital assistant). The device is hereby inexpensive and simple to realize, and the use of the device is simple.

The optional line sensor 12 emits a signal that is reflected by the guidance line 19, for example in the form of an optical signal, indicated by reference numeral 18. The guidance line 19 is applied to the floor or another paved surface and indicates a route in for example public buildings, train stations or between other (public) places. The guide line 19 preferably consists of a reflective layer, and is also preferably designed as a rib line, so that it can be followed by blind and visually impaired people with the aid of a cane stick. The guiding line 19 can also consist of an already existing conventional rib line for tactile guiding of a blind or partially sighted person, wherein this is provided with a reflective layer for use with the present device. The guidance line 19 can also have a signaling function to indicate when a turn, choice point, dangerous situation (height difference), etc. is approaching, for example by increasing the number of parallel running guidance lines 19, or by other forms of the guidance line 19 being to feel with a cane.

The line sensor 12 detects when the transmitted signal is reflected, and sends a signal to the processor means 20 in the guide device 10. Preferably, the line sensor 12 is arranged in such a way that only the reflected transmitted signal is detected, and not others ( interfering signals, for example by coding the transmitted optical signal. The processor means 20 are adapted to give an acoustic signal with the aid of the loudspeaker 23 upon receipt of a signal from the line sensor 12. Alternatively, a sound signal is not generated, but the processor means 20 are adapted to generate a vibration signal upon detection of the reflective line 19. This has the advantage that less nuisance is caused for passers-by.

The guiding line 19 is, for example, a 1-centimeter wide line that is applied to a paved surface, such as asphalt, clinker, marble, etc. Preferably, the guiding line 19 is provided with a wear-resistant layer, which can be formed as a ridge for tactile guidance. . The guiding line 19 can be designed in all desired colors, so that architectural aspects of a building or public space do not have to be affected. The colored guidance line 19 can also serve to distinguish departments in a hospital, for example. If the guidance line 19 is used in a high contrasting color, it is also possible that visually impaired people who do not use a cane can also follow the guidance line 19 well.

8

When the line sensor 12 is mounted on a blind stick, the optical signal 18 being in the form of a narrow beam directed along the blind stick, the user can follow the guiding line 19 by swinging the blind stick together because each time it is optical signal along the guidance line 19, a sound signal is given through the loudspeaker 23. The continuous confirmation of following the guidance line 19 gives the user a sense of security. The possible rib line also gives the user an extra (tactile) confirmation and more certainty about the correct route.

The database server 15 manages static and dynamic information associated with the route indicated by the guidance line 19 and with the beacons 16. The route information is preferably stored in the form of a database, in combination with digital maps for calculating routes for users.

The database server 15 is preferably adapted to run a speech-driven menu program for determining a specific route. Via the mobile telephone 13, the user contacts the database server 15. The position of the user is known by means of the identification signal of the beacon 16, the user of which was last in the transmission area 17. In an embodiment (not shown) the device is provided with position-determining means, such as a GPS receiver or other navigation system, for precisely determining the position of the user. The database server 15 obtains the data from the user regarding a desired destination, such as a route to a train platform, via the voice-controlled information. On the basis of the information obtained regarding the desired destination, the database server 15 calculates which guideline 19 the user must follow and which beacons 16 he will thereby pass along the way. This information can optionally be adapted on the basis of information obtained regarding the exact position and / or identity of the user. The database server 15 sends this data, with information associated with each of the beacons, to the central information device 10. This data is stored in the memory means 21.

The electronic compass 22 present in the central information device 10 provides information regarding the orientation of the user. In connection with the information received from the database server 15 concerning the route to be followed, the processor means 20 can generate the correct start instructions for the user.

9

As soon as the user starts following his route, supported by the guidance line 19 and the line sensor 12, he will at some point come into the transmitting range of a next beacon 16 along the route. At that time, the central information device 10 will read the information associated with that specific beacon from the memory means 21 and convert it into an audible message via the speaker or earphone 23.

The information associated with the different beacons 16 can include both static and dynamic information. Because the static information is also managed in the database server 15, it is possible to quickly adapt this static information to changing circumstances. In an embodiment of the present invention, it is recorded which users actually use the device at what location. As soon as a sudden situation occurs somewhere, it is possible to immediately inform the users affected by this, for example by offering an alternative route in the event of a barrier.

The information associated with the beacons 16 can also comprise dynamic information, for example originating from a public transport institution. By contacting the database server 15, a user can consult the dynamic information at any given moment to determine, for example, whether a train is delayed. Alternatively, the database server 15 may be arranged to notify a user in the event of, for example, delays or other changed circumstances. This can be done by means of, for example, a spoken telephone message via the mobile telephone 13, or via data communication to the central information device 10.

The operation of the present invention can be explained with the aid of a practical example. A user of the present device arrives by taxi at a taxi stand of a station and wants to go to platform 5, from where his train departs. After getting out of the taxi, the user searches with his central information device 10 attached to his cane, a guide line 19. As soon as he has found it, he follows it, initially not knowing in which direction. The electronic compass 22 determines the direction while walking, and within a few meters the central information device receives an identification signal from a beacon 16. The central information device 10 reports via the loudspeaker 23 that a beacon 16 has been found and asks the user whether he wants to receive new information from the 101 6 ·; Beacon 16 concerned. If the user responds in the affirmative, for example by pressing a key, the central information device 10 establishes a connection with the database server 15 via the mobile telephone 13. Data concerning the identification of the user, identification of the beacon 16 and possibly the walking direction (or GPS-5 position) are transferred. The database server 15 searches the database for the correct digital map and the other information associated with the beacon 16.

The database server 15 then starts a voice-controlled menu via the mobile telephone 13. Via speech recognition in the database server 15, the user can record a destination and confirming answers. After entering a destination, the database server 15 calculates the desired route and reports data regarding the route (distance, obstacles such as stairs, number of direction changes, etc.) to the user and asks whether changes are needed. If this is not the case, the database server 15 sends the data concerning the route and the information associated with the intermediate beacons to the central information device 15.

15 If the user has followed the wrong direction until then, the central information device will notify the user ('You are now walking in the wrong direction, please turn around'). The user can now follow the route by following the guidance line 19 and at some point he will come across a beacon 16, in which information will be played, such as 'you must turn left at the next junction, or 20' at the next junction. turn left, you will come to 21-step stairs'. This way the user can be guided all the way to the destination (platform 5).

If the user wants to get to know or explore an environment of, for example, a station, this is also possible if the user reports this to the database server 15 via the voice-driven menu. In that case, the database server 15 can transmit all important information at each beacon in the neighborhood and the user can explore the environment on the basis of that information.

The central information device 10 is preferably further provided with a number of keys or program functions. The functions that may optionally be present in the central information device 10 relate to a repeat function of the last message, a restore function for reconnecting with the database server 15, and an emergency function, wherein, for example, the nearest output is indicated.

The central information device 10 is preferably included in a closed housing with an ergonomic shape. With the aid of 11, for example, the housing can be attached to a blind cane, just below the blind's handle. This creates a whole that is easy to handle and that is sufficiently balanced. The visually impaired who do not use a cane can hold the central information device 10 by hand. The central information device 10 is preferably provided with a rechargeable battery and the associated electronics for charging the battery. The central information device 10 is then preferably supplied together with a charging device in which the central information device 10 can be placed. Alternatively, an existing charging device of the mobile telephone 13 can be used.

The guiding device according to the present invention can advantageously be used in a multitude of environments, such as at station halls and platforms, bus stations, taxi stands, shopping centers, walking routes to centers of cities, recreation parks, hospitals, town halls and other government institutions, department stores, etc. Guiding device can be used instead of, but also in addition to, existing systems for guiding blind and partially sighted people. The present invention is easy to expand and can be applied quickly and directly.

Claims (16)

A method for providing route information regarding a route from a first position to a second position comprising the steps of detecting the first position; establishing a connection to a central database server (15) at the first position; sending an identification associated with the first position to the central database server (15) and, in response, receiving and storing route information data regarding the route; displaying the route information data. 2. Method as claimed in claim 1, wherein the route information data comprises partial information data associated with intermediate positions and the method comprises the further step of displaying the partial information data as soon as an associated intermediate position is detected. 3. Method as claimed in claim 1 or 2, wherein the display of the route information data takes place by means of voice messages and or textual representation with large characters. Method according to one of claims 1, 2 or 3, wherein the detection of the first position takes place by means of detection of a beacon (16) with a limited detection area (17). 25 The method of any one of claims 1 to 4, wherein the intermediate positions are connected by a guide line (19), and the method comprises the further step of following the guide line (19) by detecting the guide line (19) ). Method according to one of claims 1 to 5, wherein in addition to the identification associated with the first position, an identification of a user and the position of the user are also sent to the central database server (15). 7. Device for providing route information concerning a route from a first position to a second position, characterized in that the device (10) comprises communication means (11) which are adapted to make a connection to a database server (15) at the first position and receiving route information data from the database server (15), memory means (21) for storing the route information data, display means (23) for displaying the route information data, the device (10) is further adapted to detect the first position on the basis of a first beacon identification of a first beacon (16) along the route. 8. Device as claimed in claim 7, wherein the route information data comprises at least one route indication associated with one of a plurality of beacons (16) along the route, and the device (10) is further adapted to receive a further beacon identification associated with one of a plurality of beacons (16) on the route and to display the route information data associated with the further beacon identification. 9. Device as claimed in claim 7 or 8, wherein the display means (23) comprise converting means for converting the data in the memory means into speech messages and / or text messages with large characters. 10. Device as claimed in claim 7, 8 or 9, wherein the plurality of beacons (16) each have a limited receiving area (17) for indicating a position along the route. A device according to any of claims 7 to 10, wherein the route is indicated by a guide line (19) and wherein the device (10) further comprises a line sensor (12) for detecting the guide line (19), the guide line (19) is arranged in accordance with the route. The device of claim 11, wherein the line sensor (12) is arranged to emit a focused beam (18) and further comprises a sensor for detecting a beam of radiation reflected by the guide line (19). Device as claimed in claim 11 or 12, wherein the device (10) is adapted to provide a signal upon detection of the guide line by the line sensor (12). Device according to any of claims 7 to 13, wherein the communication means (11) comprise an interface for communication with a mobile telephone (13), and the connection to the database server (15) is formed via the mobile telephone ( 13). Device according to one of claims 7 to 13, wherein the communication means (11) are adapted for communication according to the Bluetooth protocol. Device as claimed in any of the claims 7-15, wherein the device (10) further comprises position-determining means (22) for determining the position of the device (10), and the communication means (11) are further adapted to position 20 of the device and an identification of the device to the database server (15). A blind cane provided with a device (10) according to any one of claims 7 to 16. 25