JP2004144558A - Pedestrian guidance system, pedestrian guidance method, and traveling direction information generation program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pedestrian guidance system having a low arrangement cost, capable of guiding a pedestrian by presenting the correct traveling direction along a route to the destination, a pedestrian guidance method and a pedestrian guidance program. <P>SOLUTION: When receiving ID data originated from radio tags 2 arranged at optional intervals capable of receiving the ID data of of one or more radio tags 2 and acquiring destination information inputted by the pedestrian, a portable terminal 3 transmits the newest received ID data, received ID data before one point of time, and the destination information. A location processing device 4 deduces the present traveling direction of the pedestrian carrying the portable terminal 3 by retrieving database based on the information, performs generation/setting of the route to the destination from the present position of the pedestrian, and generates and transmits traveling direction information from the present position to the destination. The portable terminal 3 presents the received traveling direction information to the destination to the pedestrian. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a pedestrian guidance system, a pedestrian guidance method, and a traveling direction information generation program for providing pedestrians with traveling direction information to a destination.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there are technologies that use a GPS system or a PHS system to specify a self-position or a route to a destination of a pedestrian. A pedestrian can obtain his / her position information on a map and map information indicating the shortest route to a destination by using a terminal device of the GPS system or the PHS system.
[0003]
In the GPS system, the position can be specified by receiving radio waves transmitted from a plurality of GPS satellites by a terminal device. However, it is known that in a basement, indoor, or high-rise building area, it is difficult to specify a position or extremely low in the accuracy of specifying a position because satellite communication is impossible.
[0004]
In the PHS system, the position of the terminal device can be specified by the position information of the base station with which the terminal device communicates. However, the base stations are arranged at intervals of about 100 m to 200 m in the city center and at about 500 m intervals in the suburbs, and the density of the base stations is coarse. Therefore, the position detection accuracy of the terminal device is approximately several tens to 100 m, and only a rough position can be specified.
[0005]
In addition, as described above, in these systems, their own position information and the shortest route to the destination are provided as map information. Therefore, it is difficult for a user such as a pedestrian who cannot read the map, a pedestrian whose geography is not known, and a visually impaired person to specify the traveling direction to the destination despite using the terminal device. there were. As described above, the conventional method of providing a pedestrian with a route to a destination has a problem in that it does not always provide a simple and easy-to-understand route and guidance of a traveling direction.
[0006]
In order to solve such a problem, a system has been proposed in which a blind block incorporating an IC tag is laid on a pedestrian road, and a visually impaired person is guided to a destination based on memory information of the IC tag. (For example, refer to Patent Document 1).
[0007]
[Patent Document 1]
JP-A-2002-165825 (page 3-5, FIG. 1-6).
[0008]
[Problems to be solved by the invention]
However, in the system for guiding / warning information of a visually impaired person described in the above-mentioned patent document, when information of an IC tag arranged on a route to a destination is acquired, whether or not the information is information of an IC tag on a route guidance track is determined. Is determined, and the visually impaired person is guided to the destination. Therefore, even if the visually impaired person being guided to the destination turns back the path that has been taken, the mobile terminal receives the information of the IC tag on the route guidance trajectory, so that the visually impaired person can correctly reach the destination. There was a problem that there was a case that it could not be guided.
[0009]
In addition, Patent Document 1 does not disclose how to make a route guidance request, and first transmits a route guidance trajectory from a pedestrian information terminal to a center device. . Therefore, it is unknown how the information on the destination is transmitted to the center device, and the route from the current position to the destination may not be set correctly.
[0010]
Furthermore, in order to read the IC tag information contained in the blind block, a pedestrian must use, for example, a walking stick or shoes provided with communication means. Also, the IC tag must be built in or buried under the blind block or tile. Therefore, in order to provide a plurality of IC tags, large-scale civil engineering work is required, and the cost is enormous. As described above, the system described in Patent Literature 1 has various problems.
[0011]
Accordingly, the present invention provides a pedestrian guidance system that can guide a pedestrian by presenting a correct traveling direction along a route to a destination with a low arrangement cost and solving the above problem. It is an object to provide a pedestrian guidance method and a pedestrian guidance program.
[0012]
[Means for Solving the Problems]
The present invention has the following arrangement as means for solving the above-mentioned problems.
[0013]
(1) a plurality of wireless communication means installed at an appropriate position on the road and each provided with transmission means for transmitting unique ID data indicating the installation position;
ID receiving means for receiving ID data transmitted from the wireless communication means, destination information obtaining means for obtaining destination information, latest received ID data received by the ID receiving means, current moving direction A mobile terminal comprising: moving direction information for specifying the information, and information transmitting means for transmitting the destination information acquired by the destination information acquiring means,
Receiving means for receiving the information transmitted by the mobile terminal, database storage means for storing a database of position information and destination information of each of the plurality of wireless communication means, based on the information received by the receiving means A location processing apparatus comprising: an information processing unit that searches a database and generates traveling direction information to a destination; and a transmission unit that transmits traveling direction information to the destination.
The mobile terminal further includes information receiving means for receiving the traveling direction information to the destination transmitted by the location processing device, and providing means for providing the traveling direction information to the destination received by the information receiving means. And characterized in that:
[0014]
In this configuration, the plurality of wireless communication units are arranged at any appropriate intervals at which the portable terminal can receive the ID data of at least one wireless communication unit in principle. The mobile terminal receives the ID data transmitted from the wireless communication unit (for example, the ID data of the wireless communication unit having the strongest reception electric field strength of the radio wave transmitted by the wireless communication unit), and the user inputs the ID data to another terminal. When the desired destination information input from the input means of the device is acquired by the destination information acquisition means, the latest reception ID data, the destination information, the reception ID data received one time before or before, or the current reception ID data, And moving direction information for specifying the current moving direction such as vector information indicating the traveling direction. The location processing device searches a database based on the received information. The location processing device can determine the current moving direction of the pedestrian carrying the portable terminal, determine the current position of the pedestrian, and generate and set a route from the current position of the pedestrian to the destination. Since it is possible, information on the traveling direction from the current position to the destination is generated and transmitted based on the information. The mobile terminal receives the traveling direction information from the current position to the destination, and provides this information to the user from the providing unit. Therefore, the pedestrian can obtain the traveling direction information to the destination only by inputting the destination to the mobile terminal, so that even a pedestrian who cannot read the map or a pedestrian who is not familiar with the site, does not get lost. You can reach your destination with peace of mind.
[0015]
(2) a plurality of wireless communication means, each of which is provided at an appropriate position on a road and includes transmission means for transmitting unique ID data indicating the installation position;
ID receiving means for receiving ID data transmitted from the wireless communication means, destination information obtaining means for obtaining destination information, and a database of position information and destination information of each of the plurality of wireless communication means From the latest receiving ID data received by the ID receiving means, moving direction information for specifying the current moving direction, and the destination information acquired by the destination information acquiring means. A mobile terminal provided with information processing means for generating travel direction information to the destination and providing means for providing travel direction information to the destination.
[0016]
In this configuration, the plurality of wireless communication units are arranged at any appropriate intervals at which the portable terminal can receive the ID data of at least one wireless communication unit in principle. The mobile terminal receives the ID data transmitted from the wireless communication unit (for example, the ID data of the wireless communication unit having the strongest reception electric field strength of the radio wave transmitted by the wireless communication unit), and the user inputs the ID data to another terminal. When the desired destination information input from the input means of the device is obtained by the destination information obtaining means, the destination information is obtained based on the latest reception ID data, the moving direction information for specifying the current moving direction, and the destination information. To search the database. The mobile terminal can determine the current traveling direction of the pedestrian carrying the mobile terminal, determine the current position of the pedestrian, and generate and set a route from the current position of the pedestrian to the destination. Therefore, traveling direction information from the current position to the destination is generated based on these pieces of information, and this information is provided to the user from the providing means. Therefore, pedestrians can obtain travel direction information to the destination simply by inputting the destination to the mobile terminal. You can reach the ground.
[0017]
(3) The information processing means generates a route to a destination based on the latest reception ID data and the destination information, searches a database stored in the database storage means, and returns to the destination. And generating ID data string information of the wireless communication means arranged in order along the route.
[0018]
In this configuration, the information processing means generates ID data string information of the wireless communication means arranged sequentially along the route based on the route information to the destination and the information in the database. The portable terminal can receive ID data of at least one of the plurality of wireless communication units. Therefore, by generating the traveling direction information to the destination so that the ID data string information matches the latest received ID data, the traveling direction information to the destination is provided to the pedestrian carrying the portable terminal. , And can be reliably guided to the destination.
[0019]
(4) When detecting that the mobile terminal has deviated from the route to the destination, the mobile terminal provides warning information from the providing unit.
[0020]
In this configuration, the latest reception ID data received by the portable terminal is compared with the ID data string information of the wireless communication means arranged sequentially along the route to determine whether the mobile terminal has deviated from the route to the destination. Can be determined. If the latest received ID data received by the mobile terminal is different from the ID data string information of the wireless communication means, it is known that the user has deviated from the route to the destination. Can be notified, a traveling direction to return to the route to the destination can be provided, and the route to the destination can be reset. Therefore, even if the pedestrian carrying the portable terminal accidentally deviates from the route to the destination, the pedestrian can reach the destination by following the warning information.
[0021]
(5) The providing means provides the traveling direction information to the destination and the warning information by at least one of a character, a graphic, a voice, a signal sound, and a vibration.
[0022]
In this configuration, by providing the traveling direction information and the warning information to the destination by, for example, a signal sound or vibration from the providing means, the pedestrian's attention can be drawn and the information can be provided reliably. Therefore, even a pedestrian who cannot read the map or a pedestrian who is not familiar with the site can easily recognize the information. In addition, for example, by providing information using signal sounds or vibrations in addition to information using characters, figures, and voices, it is possible to prompt the user to confirm the information provided from the providing means of the portable terminal. Therefore, even a pedestrian who cannot read the map or a pedestrian who is not familiar with the site can easily recognize the information.
[0023]
(6) A plurality of wireless communication means are installed at appropriate positions on the road and each transmit unique ID data indicating the installation position,
The latest reception ID data of the wireless communication means received by the ID receiving means, the moving direction information for specifying the current moving direction, and the destination information obtained by the destination information obtaining means for obtaining the destination information Based on, based on the database of position information and destination information of each of the plurality of wireless communication means, to generate traveling direction information from the current position to the destination,
The present invention is characterized in that information on a traveling direction to the destination is provided from a providing means.
[0024]
In this configuration, the same effect as (1) can be obtained.
[0025]
(7) The portable terminal receives ID data of a plurality of wireless communication means installed at an appropriate position on the road and transmitting unique ID data indicating the installation position, and walks based on information output from the portable terminal. A traveling direction information generating program for generating traveling direction information of a person,
Based on the latest reception ID data of the wireless communication means output from the portable terminal, the moving direction information for specifying the current moving direction, and the destination information, the computer determines the position of each of the plurality of wireless communication means. Procedures for searching information and destination information databases,
A procedure for generating traveling direction information from a current position to a destination based on a search result of the database is executed.
[0026]
With this configuration, it is possible to cause the computer to generate traveling direction information from the current position to the destination. Therefore, by providing this information to the user from the portable terminal, even a pedestrian who cannot read the map or a pedestrian who is not familiar with the site can reliably reach the destination.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
First, an outline of a pedestrian guidance system according to an embodiment of the present invention will be described. FIG. 1 is a conceptual diagram of a pedestrian guidance system. The pedestrian guidance system 1 transmits a plurality of radio tags 2, which are radio communication means arranged in space at predetermined intervals along a road, a portable terminal 3 carried by a pedestrian, and arrangement information of the radio tags 2. It comprises a location processing device 4 for storing and generating route information.
[0028]
The radio tags 2 are linearly or planarly arranged in space along a sidewalk, a pedestrian-only road, or the like at predetermined intervals based on the relationship between the space characteristics and the electric field strength. Here, the linear arrangement refers to, for example, arranging a plurality of radio tags 2 on one road at any appropriate intervals at which the portable terminal 3 can receive the ID data of at least one radio tag. This means that the radio tag 2 is arranged like a line. In addition, the planar arrangement means that the radio tags 2 are arranged at arbitrary intervals at which the portable terminal 3 can receive the ID data of at least one radio tag on each road intersecting in a matrix, for example. 2 refers to a state where they are arranged like a plane.
[0029]
The portable terminal 3 is carried by a pedestrian (hereinafter, the pedestrian is the user of the portable terminal 3) 5 and ID data transmitted from the radio tag 2 (for example, the radio wave transmitted by the radio tag). While receiving the ID data of the radio wave tag having the highest received electric field strength and storing it in the storage unit, the ID data of the radio wave tag currently received or the ID data of the radio wave tag received last time (hereinafter, referred to as “the radio wave tag”) is transmitted to the location processing device 4 , Referred to as the latest reception ID data).
[0030]
When receiving a request for transmission of the current location information from the portable terminal 3, the location processing device 4 searches the database for geographic information corresponding to the latest reception ID data of the radio tag, and uses the corresponding geographic information as the current location information. Send to terminal 3.
[0031]
The location processing device 4 may be configured to be independently disposed as a processing center or may be configured to be built in the mobile terminal 3.
[0032]
The mobile terminal 3 provides the pedestrian 5 with current position information by at least one of characters, images, sounds, signal sounds, vibrations, etc., based on the information received from the location processing device 4. When the pedestrian 5 inputs the information of the destination 7 to the mobile terminal 3, the mobile terminal 3 stores the destination information, the latest reception ID data of the radio tag, and the moving direction information for specifying the current moving direction. It is transmitted to the processing device 4. The moving direction information for specifying the current moving direction is the ID data of the radio tag received in the past, for example, the radio tag received ID data (hereinafter, 1) received immediately before the latest received ID data. This is referred to as reception ID data before the time point) and the latest reception ID data of the radio tag.
[0033]
The location processing device 4 sets a scheduled route 8 from the current position (current location) 6 to the destination 7 based on the received destination information, the latest reception ID data of the radio tag, and the reception ID data one time before. At the same time, scheduled route information including ID data strings of a plurality of radio tags 2 arranged along the scheduled route 8 from the current position 6 to the destination 7 is generated. Then, the current (previous) traveling direction vector of the pedestrian 5 is determined from the latest reception ID data of the radio tag 2 and the reception ID data of the radio tag 2 one time before. Subsequently, a traveling direction to the destination 7 is generated for the pedestrian 5 based on the current (previous) traveling direction vector and the planned route information, and this information is transmitted to the portable terminal 3.
[0034]
The mobile terminal 3 presents the traveling direction based on the received information and guides the pedestrian 5 to the destination 7. At this time, the mobile terminal 3 may also provide scheduled route information. The destination input function (destination information acquisition means) may be realized by the portable terminal 3 or an apparatus in which the portable terminal 3 and the location processing device 4 are integrated. Further, it may be realized by a device that separately inputs via the location processing device 4. Specifically, for example, when information on a destination is input from an input terminal installed on a street corner, this information is transmitted to the location processing device 4, and information on the destination such as traveling direction information on the destination is generated. It is preferable that the information is transmitted to the mobile terminal 3 and the information is provided from the mobile terminal 3.
[0035]
As described above, in the pedestrian guidance system according to the embodiment of the present invention, the pedestrian is presented with the traveling direction to the destination and guided along the planned route to the destination, so that the map cannot be read. Even pedestrians and pedestrians who are not familiar with the site, regardless of whether they are healthy or visually impaired, can safely go to their destination without hesitation.
[0036]
Note that the pedestrian guidance system of the present invention can guide not only pedestrians but also users (drivers) of moving means that move at low speed such as bicycles to destinations. When the moving means is a bicycle, the mobile terminal 3 may be fixed to a steering wheel.
[0037]
[First Embodiment]
Next, the pedestrian guidance system according to the first embodiment of the present invention will be described in detail with reference to the drawings. FIG. 2 is a block diagram showing a configuration of the pedestrian guidance system according to the first embodiment of the present invention.
[0038]
The pedestrian guidance system 1 includes a plurality of radio tags 2 arranged in a space along a road, a portable terminal 3 possessed by a pedestrian 5 for inputting and acquiring information, and a portable terminal 3. It is configured by a location processing device 4 that provides guidance information to the ground.
[0039]
The radio tag 2 includes a storage unit 21 and a communication unit 22. Different ID data is assigned to each radio wave tag 2, and the storage unit 21 stores unique ID data. The communication unit 22 transmits the unique ID data stored in the storage unit 21 using radio waves of a predetermined frequency.
[0040]
Here, the tag used as the radio wave tag 2 is an active tag (a tag that performs data transmission using the energy of a built-in power supply), but a passive tag (a power supply using RF energy from the mobile terminal 3 as a power supply). Tag for transmission.). The wireless communication means is not limited to a radio tag, but may be any type of radio tag, for example, a communication device (adapter) using a wireless LAN conforming to the IEEE802.11b standard, or Bluetooth (registered trademark). Alternatively, a short-range wireless communication means such as a communication device (adapter) using a communication device may be used.
[0041]
When the radio tag 2 is an active tag, the radio tag 2 includes a power source such as a battery (not shown). send. In addition, when guiding a route to a destination not only to a pedestrian but also to a bicycle driver, it is set to intermittently transmit at an interval shorter than when guiding only a pedestrian, for example, every one second. I do.
[0042]
When the radio wave tag 2 is a passive tag, the radio wave tag 2 transmits and receives data using the RF energy transmitted from the portable terminal 3 as a power source, and transmits ID data using, for example, a weak radio wave using a microwave band.
[0043]
The radio tag 2 is designed based on the relationship between the spatial characteristics and the electric field strength, taking into account the position of the destination and the moving space of the pedestrian in the target area, for example, at the eaves of a store, security light, lighting, etc. Place it on the pole part. Since the radio wave tag 2 is small and lightweight, it may be attached to the eaves of a store with an adhesive or the like, and can be easily arranged without civil works. Further, since the radio tag 2 is small and lightweight as described above, it does not occur that it is easily removed and lost.
[0044]
The arrangement intervals of the radio tags 2 need to be set based on the relationship between the spatial characteristics and the electric field strength, such as the type of the radio tags 2 and the communicable distance with the portable terminal 3. For example, the radio tags 2 are arranged at intervals of several meters to several tens of meters, which are intervals at which the portable terminal 3 can receive the ID data of at least one radio tag 2 at an arbitrary position on the sidewalk. In the open space, since an estimation technique based on the electric field strength position database has been developed, the radio tags may be arranged at somewhat coarse intervals. However, in a closed space such as an underground shopping mall, the electric field strength becomes unstable due to irregular reflection of radio waves, so that the range of radio waves can be narrowed, and the position of the portable terminal 3 can be determined only by the positional relationship of the radio wave tags that have received the ID data. It is preferable to arrange a plurality of radio tags 2 so that identification is possible.
[0045]
Since the radio tags 2 are arranged as described above, even if, for example, some of the radio tags arranged linearly do not transmit ID data due to battery exhaustion, there is a possibility that the accuracy of the provided information is slightly deteriorated. But this is not a big problem.
[0046]
The mobile terminal 3 includes a control unit 31, an input unit 32 as a destination information acquisition unit, a providing unit 33, a storage unit 34, and a communication unit 35. The control unit 31 controls the operation of each unit of the mobile terminal 3. The input unit 32 is for a pedestrian to perform an input operation. The providing unit 33 generates a display unit that displays characters and images, a voice synthesizing unit that outputs audio, a signal generating unit that outputs a signal sound, and generates vibration in order to provide information accompanying input and output of information. A vibration generator is provided to provide pedestrians with various types of information, such as information on traveling directions to destinations and warning information, using at least one of characters, images, sounds, signal sounds, and vibrations. Is possible.
[0047]
Further, patterns such as signal sounds and vibrations can be set according to the user's preference. When providing the traveling direction information to the destination with a signal sound, for example, a sound of a bell for "turn right instruction", a chime sound of "turn left instruction", and a siren sound for "straight ahead instruction" Can be set to provide. Also, when providing the traveling direction information to the destination by vibration, "turn right" is a double beat vibration, "turn left" is a triple beat vibration, and "go straight" is a continuous command. Can be set to provide with vibration.
[0048]
Further, when providing the pedestrian 5 with the current position information, the mobile terminal 3 emits a signal sound according to the content of the information or vibrates according to the content of the information, and then transmits various types of information to characters, You may make it provide with an image and a sound.
[0049]
The storage unit 34 stores mobile terminal attributes such as personal information, destination shortcut data, and the like. The communication unit 35 receives the ID of the radio tag 2. In addition, data communication with the location processing device 4 is performed.
[0050]
The communication unit 35 may be configured to be able to communicate using a wireless telephone line such as a mobile phone or a PHS, a wireless transmission method, or the like, and may perform data communication with the location processing device 4.
[0051]
When the radio tag 2 is a passive tag, the communication unit 35 outputs, for example, microwaves to the radio tag 2 as an inquiry operation for acquiring ID data of the radio tag 2 and outputs radio wave energy (RF energy). Supply. The radio tag 2 transmits the ID data using the radio energy.
[0052]
The portable terminal 3 is usually carried by a pedestrian. The pedestrian inputs destination information or the like from the input unit 32 of the mobile terminal 3 or requests information provision as needed, or sends at least one of characters, images, sounds, signals, vibrations, etc. from the provision unit 33. The user can check the provided current position information, route information to the destination, traveling direction information to the destination, store information, and the like.
[0053]
In the mobile terminal 3, the communication unit 35 may be provided with a configuration for receiving radio waves from GPS satellites so that the GPS system can be used together. That is, a configuration may be employed in which the current position of the portable terminal 3 can be specified by receiving not only the ID data transmitted from the radio wave tag 2 but also the radio wave from the GPS satellite. This is because recently, the positional accuracy of the GPS system has an error of several meters or less, and is sufficiently practical in an open space where a space such as a building does not obstruct the space. Thereby, the positional accuracy of the mobile terminal 3 can be further improved.
[0054]
The location processing device 4 includes a control unit 41 that is an information processing unit, a communication unit 42, and a storage unit 43. The control unit 41 controls the operation of the main body, and generates self-position (current position) information of the mobile terminal 3, route information from the current position to the destination, traveling direction information to the destination, and the like. The communication unit 42 receives a request from the mobile terminal 3. Further, it transmits the information generated by the control unit 41 based on the request. The storage unit 43 includes a radio tag attribute database 51 in which position data and the like of radio tags are registered, a geographic information database 52 in which geographic information is registered, a destination information database 53 in which positions and attributes of destinations are registered, and an individual mobile terminal. A mobile terminal attribute database 54 in which information is registered is stored.
[0055]
The location processing device 4 searches each database stored in the storage unit 43 based on the request transmitted from the mobile terminal 3 and generates and processes current position information, route information to a destination, traveling direction information, and the like. To the mobile terminal 3.
[0056]
In addition, as a method of inputting destination information from the input unit 32 of the mobile terminal 3, a method of directly inputting a store name or the like, a method of selecting a type of facility or a type of store, and setting a store as a destination and so on. Further, based on abstract information such as “I want to eat.”, It is also possible to present a choice to a pedestrian and set a destination. In these cases, the mobile terminal 3 communicates with the location processing device 4 to acquire information on the destination information, presents the information to the pedestrian, and finally determines the destination. In the following description, a case where a pedestrian directly inputs destination information will be described.
[0057]
FIG. 3 is a diagram showing the contents of the radio wave tag attribute database. The radio tag attribute database 51 includes the radio tag position database shown in FIG. 3A, the radio tag adjacency database shown in FIG. 3B, and the radio tag adjacency / progress shown in FIG. And a direction code database. The radio tag position database is a database representing the relationship between the ID data of the radio tag and the X, Y, and Z coordinates of the location of the radio tag 2. In the general-purpose space, for example, a standardized coordinate system represented by latitude, longitude, and altitude is used. However, when the target area is a closed space, an arbitrary local coordinate system may be used. FIG. 3A shows an example in which a standardized coordinate system is used. For example, as for the installation position of the radio tag of ID10001, the X coordinate is 34.682756 degrees north latitude, the Y coordinate is 135.5517577 degrees east longitude, The Z coordinate is 0.010 km above sea level.
[0058]
The radio tag adjacency database is a database indicating the adjacency of each radio tag. In an area formed by a network such as a complicated road network, the radio wave tag adjacency database shown in FIG. 3B is used. As shown in FIG. 3B, for example, the radio tags adjacent to the radio tag of ID10002 are a radio tag of ID10001, a radio tag of ID10003, and a radio tag of ID10004.
[0059]
Further, the radio tag adjacency relation / traveling direction code database is a database indicating the adjacency relation and traveling direction code of each radio tag. In an area formed by a simple network such as a lattice road network, the current position tag ID, the tag ID of the previous time point, and the ID to be advanced to the next on the ID data string of the scheduled route 8 generated in advance. The traveling direction can be easily determined by matching the three points with straight ahead and right / left turn information to be proceeded defined in the radio wave tag adjacency relationship / progress direction code database generated in advance. . For example, the radio tag immediately before ID10002 (adjacent radio tag) is the radio tag of ID10001, the radio tag adjacent in the straight traveling direction is the radio tag of ID10003, and the radio tag adjacent in the right-turn direction is , ID10009.
[0060]
FIG. 4 is a diagram showing the contents of the geographic information database. The geographic information database 52 has point ID data, X coordinate, Y coordinate and Z coordinate data of each point, line ID data, and polygon (plane) ID data. The point ID data is data indicating an arrangement point (place) of a radio tag arranged along a road. The line ID data is data indicating a road or the like on which a plurality of radio tags are linearly arranged. The plane ID data is data indicating a planar area formed by a plurality of lines (roads). The attribute code is data indicating a block (large area) constituted by a plurality of surfaces (small areas). Although not shown, the geographic information database 52 has map data, character information for describing geography, voice information, and the like as geographic information relating to point ID data, line ID data, and polygon ID data. I have.
[0061]
The geographic information database 52 is a database showing the relationship between the point ID data shown in FIG. 4A and the X coordinate, Y coordinate and Z coordinate data of each point, and the line ID shown in FIG. A database showing the relationship between the data and the start point ID data and the end point ID data of the line, a database showing the relationship between the line ID data and the polygon ID data shown in FIG. 4C, and FIG. 4D. And a database showing the relationship between the polygon ID data and the attribute code data shown in FIG.
[0062]
For example, the point 2 is represented by an X coordinate of 34.682891 degrees north latitude, a Y coordinate of 135.551719 degrees east longitude, and a Z coordinate of 0.010 km altitude. Point 2 is the end point of line 1 and the starting point of line 2. Further, the line 2 is included in the polygon (plane) 2, and the polygon (plane) 2 is included in the attribute (block) 5.
[0063]
FIG. 5 is a diagram showing the contents of the destination information database. The destination information database 53 includes data such as destination ID data, ID data of a corresponding radio tag, X-coordinate, Y-coordinate and Z-coordinate data of the destination, facility code data, name data, and address. Here, the facility code is a code given according to the type of facility. In FIG. 5, code 1 is used for the entrance and exit of the station, and code 2 is used for the bus stop.
[0064]
In the destination information database, for example, a place where the ID of the destination is 1 corresponds to the ID 10001 of the radio tag, the X coordinate is 34.682756 degrees north latitude, the Y coordinate is 135.551777 degrees east longitude, and the Z coordinate is 0.010 km altitude. Is represented by Also, the facility code is 1 (station entrance / exit), the first entrance of subway ○ station, and the address is Chuo-ku, Osaka-shi.
[0065]
FIG. 6 is a diagram showing the contents of the mobile terminal attribute database. The mobile terminal attribute database 54 includes data such as ID data of the mobile terminal 3, a password, an address of an owner, a work place, and an occupation. For example, a pedestrian with an ID of 1 has a password of 1234567, an address of Sumiyoshi-ku, Osaka-shi ***, a workplace of Chuo-ku, Osaka-shi ***, and an occupation of a company employee.
[0066]
FIG. 7 is a diagram showing the contents of the shortcut database of the radio tag ID registered in the portable terminal. As shown in FIG. 7, a plurality of data such as the name of a frequently used destination and the ID and address of a radio tag at the place can be registered in the mobile terminal 3 as shortcut data. These data are stored in the storage unit 34 and can be easily called up by inputting the shortcut number (sq). For example, a certain pedestrian has registered his / her business place in shortcut number 2, the radio wave tag ID of the work place is 11005, and the address (installation location) is Kita-ku, Osaka-shi.
[0067]
Next, a data processing method of the portable terminal 3 and the location processing device 4 in the pedestrian guidance system will be described.
[0068]
(1) Self-location identification processing
FIG. 8 is a flowchart for explaining the self-position specifying process. FIG. 9 is a diagram illustrating a display example of the received radio wave tag ID data and a portable terminal. When the power is turned on (s1), the portable terminal 3 enters a state of waiting for reception of ID data transmitted from the radio tag 2 (s2). Upon receiving the ID data transmitted from the radio tag 2, the mobile terminal 3 stores the ID data in the storage unit 34 and transmits the ID data from the communication unit 35 to the location processing device 4 (s3). At this time, if there is a request from the pedestrian to provide self-position data, the request is also transmitted to the location processing device 4. Then, it waits until the position data is received (s4). If there is no request from the pedestrian to provide self-position data, the process ends without executing steps s4 and s5.
[0069]
Here, in the storage unit 34, as shown in FIG. 9 (A), the IDs of the reception radio wave tags 2 are arranged in a time series and stored and managed as reception radio wave tag ID data. Used to find a vector.
[0070]
As illustrated in FIG. 8, in the location processing device 4, when the communication unit 42 receives the ID data of the radio wave tag from the mobile terminal 3 (s 11), the control unit 41 searches the geographic information database 52 in the storage unit 43. Then, they are converted into X coordinates, Y coordinates, and Z coordinates (s12). Then, this data is held by the control unit 41 or stored in the storage unit 43 (s13).
[0071]
The self-position (current position) of the pedestrian carrying the mobile terminal 3 is basically a position corresponding to the latest reception ID data of the radio tag 2. Further, as a method of specifying the own position, for example, a method of setting the position of the radio tag having the highest received electric field strength of the radio wave transmitted by the radio tag as the current position of the self may be used. It is also possible to correct the self-position based on the electric field strengths of a plurality (for example, three) of reception tag IDs. In this case, the current position of the pedestrian carrying the mobile terminal 3 can be provided in more detail.
[0072]
Further, when receiving the ID data of the radio wave tag 2 from the mobile terminal 3 in step s11, if there is a request to provide the own location data (s14), the control unit 41 of the location processing device 4 makes the mobile terminal 3 The position data is transmitted to the mobile terminal 3 (s15), and the process ends. On the other hand, in step s14, if there is no request to provide the self-position data, the process ends.
[0073]
When receiving the self-position data by the communication unit 35 (s4), the control unit 31 of the mobile terminal 3 provides the pedestrian with the self-position data by characters, images, sounds, or the like from the providing unit 33 (s5).
[0074]
Specifically, a nearby map image as shown in FIG. 9B is displayed on the display unit of the providing unit 33 of the mobile terminal 3, and information on the current position, commercial information, Information such as landmarks should be provided to pedestrians. Also, when information on the current position is provided by voice from the voice synthesis unit of the providing unit 33, information such as the address of the current position, commercial information, and nearby landmarks may be provided. By transmitting a simple map image of the vicinity as shown in FIG. 9B from the location processing device 4 to the portable terminal 3, the image can be promptly displayed on the portable terminal 3.
[0075]
(2) Route identification processing to the destination
FIG. 10 is a conceptual diagram showing a method of specifying a traveling direction. FIG. 11 is a diagram illustrating an ID data string of a radio tag arranged on a scheduled route. FIG. 12 is a flowchart for explaining the route specifying process to the destination. As shown in FIG. 12, when the control unit 31 of the mobile terminal 3 detects that the pedestrian has selected and input the destination 7 such as a facility name from the input unit 32 (s21), the control unit 31 stores it in the storage unit 34. Or the ID data of the radio tag 2 indicating the current self-position 6A held by the control unit 31 and the input information of the destination 7 or the ID data of the radio tag of the destination facility registered in the shortcut database. The data is transmitted from the communication unit 35 to the location processing device 4 (s22). Then, the control unit 31 waits until the information of the ID data string of the scheduled route is received (s23).
[0076]
When receiving the information from the mobile terminal 3 by the communication unit 42 (s31), the control unit 41 of the location processing device 4 determines whether the received information is the ID data of the radio tag of the destination 7 or the information of the destination 7. Confirmation (s32). When the received information is the information of the destination 7, the control unit 41 searches for ID data of the corresponding radio tag (s33).
[0077]
If the information received in step s32 is the ID data of the radio tag of the destination 7 and if the process of step s33 is completed, then the shortest path between the ID data of the current position 6A and the ID data of the destination 7 is determined. A search is made and set as the scheduled route 8 as shown in FIG. 10 (s34). Subsequently, as shown in FIG. 11, ID data of a plurality of radio tags 2 arranged sequentially along the scheduled route 8 is generated as scheduled route ID data string information (s35).
[0078]
Further, the control unit 41 generates a radio tag ID data sequence of the planned route as a route on the geographic database corresponding to the geographic information database, and transmits the generated route from the communication unit 42 to the mobile terminal 3 (s36).
[0079]
When receiving the radio tag ID data sequence of the scheduled route from the communication unit 35 (s23), the control unit 31 of the portable terminal device 3 stores it in the storage unit 34 (s24). At this time, if the pedestrian wants to display a map of the planned route, the providing unit 33 provides the planned route information from the current position to the destination.
[0080]
In addition, as a method of inputting a destination, an arbitrary method such as selection input or direct input can be selected as described above. The shortest route search method utilizes an existing technology such as the Dijkstra method. Further, it is also possible to specify a route based on a criterion other than the shortest time criterion according to the user's preference.
[0081]
(3) Specifying the direction of travel
FIG. 13 is a flowchart for explaining the processing for specifying the traveling direction. FIG. 14 is a diagram illustrating a usage example of the pedestrian's mobile terminal and a display example of the mobile terminal.
[0082]
1. Calculation of the last traveling direction (moving direction)
As shown in FIG. 13, when the processing for specifying the route to the destination is completed, the control unit 31 of the mobile terminal 3 subsequently sends a request for providing the traveling direction to the location processing device 4 to the communication unit 35. (S41). At this time, the control unit 31 transmits the latest reception ID data received by the communication unit 35 and the reception ID data one time before stored in the storage unit 34 to the location processing device 4. Then, the control unit 31 waits until the traveling direction information is received (s42).
[0083]
When the control unit 41 of the location processing device 4 receives the traveling direction providing request from the mobile terminal 3 (s51), first, the ID data of the radio wave tag 2 at the current position (for example, the position 6A shown in FIG. 10) is It is determined whether or not the ID data is included in the scheduled route ID data sequence (s52). When the ID data of the radio tag 2 at the current position is included in the scheduled route ID data sequence, the control unit 41 compares the ID data of the radio tag 2 at the current position with the position one time earlier (for example, the position 6A shown in FIG. 10). The position data is extracted from the ID data of the radio wave tag 2 in ') and the current (previous) traveling direction vector 11 is calculated (s53). As shown in FIG. 10, the present (immediately before) traveling direction vector 11 is a reference of the providing traveling direction.
[0084]
Note that the current (immediately before) traveling direction vector 11 can be obtained from the latest reception ID data and the reception ID data immediately before the current time. If it can be obtained from the received ID data received in the previous step, the above-mentioned received ID data received in the past may be used.
[0085]
2. Calculation of direction vector of destination
Subsequently, the control unit 41 of the location processing device 4 extracts each position data from the latest reception ID data of the radio tag 2 and the ID data of the radio tag 2 of the destination 7, and from the current position to the destination position. A straight line is drawn toward, and the direction vector 12 of the destination is calculated (s54).
[0086]
3. Calculation of the traveling direction vector on the planned route
Further, the control unit 41 of the location processing device 4 extracts the latest reception ID data of the radio wave tag 2 and the next tag ID position on the scheduled route 8, draws a straight line, and calculates the traveling direction vector 13 (s55). .
[0087]
4. Proposed direction decision
If the direction vector 12 of the destination and the traveling direction vector 13 on the scheduled route are both within the range of the angle set as the threshold with respect to the immediately preceding traveling direction, the control unit 41 of the location processing device 4 It is assumed that the upper traveling direction vector 13 is the proposed traveling direction vector 14 (s56). If the received ID data is out of the range of the threshold, the received ID data is changed from the latest radio wave tag (for example, the position 6C shown in FIG. 10: corresponding to the current position) to the radio wave tag one time earlier (for example, FIG. It is assumed that the direction of the indicated position 6A) or that the received ID data is the closest tag ID position on the scheduled route 8 from the latest radio wave tag is the proposed traveling direction.
[0088]
Further, in an area formed by a simple network such as a grid-like road network, the current position tag ID, the tag ID before the current time point, and the ID to be advanced to the next on the previously generated scheduled route 8 ID matrix are displayed. By using these three points with the straight ahead / right / left turn information to be advanced defined in the adjacent relation database shown in FIG. 3C, which is generated in advance, it is possible to easily determine the advance method. it can.
[0089]
5. Creating and providing heading information
Based on the proposed traveling direction vector 14, the control unit 41 of the location processing device 4 calculates the angle with respect to the immediately preceding traveling direction as the starting point 0 ° and generates traveling direction information (s57). Then, the control unit 41 transmits the generated information from the communication unit 42 to the mobile terminal 3 (s58).
[0090]
When the communication unit 35 receives the traveling direction information (s42), the control unit 31 of the portable terminal 3 provides the pedestrian with the traveling direction information from the providing unit 33 (s43). Here, in the case of image data, the traveling direction information provided from the providing unit 33 of the mobile terminal 3 is preferably graphic or symbol information (for example, an arrow). In the case of voice, text, signal sound or vibration, voice information, character information, signals or vibration patterns expressed in directions (right, left, etc.) and eight directions (east, west, northwest, etc.) are preferable.
[0091]
In addition, when the pedestrian immediately inputs the destination immediately after the portable terminal 3 is turned on and makes a request for providing the traveling direction, when there is no immediately previous tag ID, the tag ID is set in the tag ID information database. It is a good idea to substitute the direction that you face when you leave. In addition, by providing the traveling direction information such as “Please look straight to store A to the right and go straight.”, The pedestrian can easily grasp the traveling direction.
[0092]
Here, the pedestrian 5 normally uses the portable terminal 3 while holding it as shown in FIG. 14A, so that the upper side of the display unit of the providing unit 33 is in the traveling direction. Displays heading information. Specifically, as shown in FIG. 14B, the direction of the arrow in FIG. 2 is the traveling direction to the destination. In addition, when the mobile terminal 3 is rotated, it is conceivable that it becomes impossible to determine which is the traveling direction. However, as shown in FIG. 14B, by displaying character information together with the arrow indicating the traveling direction, the pedestrian can determine the upper side of the image.
[0093]
In addition, as shown in FIG. 14B, not only an arrow indicating a traveling direction to a destination (a direction to be advanced from now) but also an arrow indicating a direction of the destination or map information is displayed. You may do it. Further, the direction of the destination may be explained by voice. Thereby, the pedestrian can grasp the surrounding information of the current position and the direction of the destination, so that a sense of security can be given to the pedestrian.
[0094]
The mobile terminal 3 and the location processing device 4 repeatedly perform the above-described processing, sequentially provide the pedestrian with the traveling direction information to the destination, and guide the pedestrian to the destination.
[0095]
For example, when the pedestrian is approaching a corner, as shown in FIG. 14C, the display unit of the providing unit 33 of the mobile terminal 3 uses an arrow together with character information instructing to turn the corner of the intersection. Provide a turning direction. The information provided from the providing unit 33 of the mobile terminal 3 includes, in addition to the traveling direction information, the direction information of the destination, the map information, and the surrounding information, distance information to the destination, and information on an approximate required time to the destination. Alternatively, information on the distance from the starting point (point where the destination is set) to the current position, elapsed time information, or the like may be provided. Further, as for the distance information to the destination and the distance information from the starting point to the current position, the length (size) of the arrow displayed on the display unit of the providing unit 33 may be changed according to the distance. .
[0096]
Here, when the pedestrian erroneously proceeds in the direction different from the traveling direction information to the destination, the following processing is executed in the mobile terminal 3 and the location processing device 4. That is, in step s52, it is determined whether or not the ID data of the radio tag 2 at the current position (for example, the current position 6C) is the ID data included in the scheduled route ID data sequence (s52). When the ID data of the radio tag 2 at the current position is not included in the scheduled route ID data sequence, the control unit 41 generates warning information for notifying the pedestrian that the vehicle has deviated from the scheduled route (s61). Subsequently, the processing of steps s53 to s57 is executed to generate traveling direction information for returning to the scheduled route. Then, the control unit 41 transmits the warning information generated in step s61 and the traveling direction information for returning to the scheduled route from the communication unit 42 to the mobile terminal 3 (s58).
[0097]
When the communication unit 35 receives the warning information and the traveling direction information for returning to the scheduled route (s42), the control unit 31 of the mobile terminal 3 provides the information to the pedestrian from the providing unit 33 (s43). .
[0098]
For example, when the pedestrian turns right instead of turning left at the intersection shown in FIG. 14C, the providing unit 33 of the mobile terminal 3 provides information as shown in FIG. Is done. That is, since the traveling direction information is provided so as to make a U-turn from the immediately preceding traveling direction and return to the scheduled route, a downward arrow is displayed on the display unit of the providing unit 33.
[0099]
As described above, in the pedestrian guidance system of the present invention, when the vehicle deviates from the planned route, the traveling direction information for returning to the planned route is provided, so that the pedestrian grasps that the vehicle has deviated from the route to the destination. It is possible to quickly return to the scheduled route according to the traveling direction information for returning to the scheduled route. Further, it is assumed that a distance from the current position to the destination is shorter when a new scheduled route is set than when the route returns to the planned route. In this case, it is preferable to reset the route to the destination so as to provide the traveling direction information to the destination.
[0100]
The operation of the control unit 41 of the location processing device 4 is controlled by a program stored in a storage unit (not shown) of the control unit. A program such as a traveling direction information generation program is read out from the means, and the control operation of each unit is performed.
[0101]
[Second embodiment]
Next, a pedestrian guidance system according to a second embodiment of the present invention will be described. FIG. 15 is a block diagram showing the configuration of the pedestrian guidance system according to the second embodiment of the present invention. The same parts as those of the configuration of the pedestrian guidance system according to the first embodiment of the present invention shown in FIG. 2 are denoted by the same reference numerals, and detailed description will be omitted. As shown in FIG. 15, the pedestrian guidance system 61 according to the second embodiment of the present invention has a configuration in which the location processing device 4 of the pedestrian guidance system 1 shown in FIG. is there. Therefore, the content of the database stored in the database storage unit is configured to be read out by the control unit 31 via the signal line without passing through the communication unit. Such a configuration is suitable for, for example, supporting movement in a closed local area.
[0102]
The pedestrian guidance system 61 includes a plurality of radio tags 2 arranged in a space along a road, and a portable terminal 63 carried by a pedestrian for inputting and acquiring information.
[0103]
The radio tag 2 includes a storage unit 21 and a communication unit 22, and has the same configuration as the pedestrian guidance system 1.
[0104]
The mobile terminal 63 includes a control unit 31, an input unit 32, a providing unit 33, a storage unit 64, and a communication unit 35. The configuration of each unit is the same as that of the pedestrian guidance system 1, and the control unit 31 controls the operation of each unit of the mobile terminal 3. The input unit 32 is for a pedestrian to perform an input operation. The providing unit 33 generates a display unit that displays characters and images, a voice synthesizing unit that outputs audio, a signal generating unit that outputs a signal sound, and generates vibration in order to provide information accompanying input and output of information. A vibration generator is provided to provide pedestrians with various types of information, such as information on traveling directions to destinations and warning information, using at least one of characters, images, sounds, signal sounds, and vibrations. Is possible. The communication unit 35 receives the ID of the radio tag 2. In addition, data communication with the location processing device 4 is performed.
[0105]
The storage unit 64 stores portable terminal attributes such as personal information, destination shortcut data, and the like. The storage unit 64 includes a radio tag attribute database 51 in which position data of radio tags are registered, a geographic information database 52 in which geographic information is registered, a destination information database 53 in which positions and attributes of destinations are registered, and a mobile terminal. The mobile terminal attribute database 54 in which the individual information of the mobile terminal is registered is stored. The configuration of each database is the same as that of the pedestrian guidance system 1.
[0106]
The pedestrian guidance system 61 is configured as described above, and, similarly to the pedestrian guidance system 1, when the destination information is input from the input unit 32 of the portable terminal 63, the latest reception ID data, one time before Each database stored in the storage unit 64 is searched based on the received ID data and the destination information, and the mobile terminal 3 generates and processes the current position information, the route information to the destination, the traveling direction information, and the like. provide.
[0107]
In the pedestrian guidance system according to the embodiment of the present invention, the location processing device 4 independently disposed as a processing center and the storage unit 64 incorporated in the mobile terminal 3 store not only the geographic information but also the destination. A configuration including a database that provides various types of information about facilities and facilities in the middle of the planned route may be provided.
[0108]
In addition, the mobile terminal 3 includes not only the independently disposed location processing device 4 but also a guide information center (independently disposed) that provides various information on destination facilities and facilities in the middle of the planned route. The communication may be configured.
[0109]
In the case of each of the above configurations, the portable terminal 3 is carried by providing various information such as public interest, traffic, shopping, eating and drinking, excursions, entertainment, business, disaster prevention, and evacuation guidance from the location processing device 4 and the guidance information center. Pedestrians can obtain various information. Also, after obtaining the above information, it is also possible to determine the destination and obtain the traveling direction information to the destination.
[0110]
Further, the mobile terminal 3 may have a configuration having an agent function. In this case, when the pedestrian inputs a simple keyword or the like from the input unit 32 of the mobile terminal 3 and performs a predetermined operation, an agent of the information center is called via a wireless telephone line or the like. The agent collects necessary information related to a keyword input from information accumulated in an information center or a homepage on the Internet. Then, the agent transmits the collected information to the mobile terminal 3. Therefore, the pedestrian of the portable terminal 3 can obtain desired information by using the agent function.
[0111]
In the above description, an example has been described in which an ID number is used as ID data transmitted by the radio tag 2, but the present invention is not limited to this. For example, as ID data transmitted by the radio tag 2, data in a standardized coordinate system represented by latitude, longitude, and altitude can be used.
[0112]
In addition, as moving direction information for specifying the current moving direction, ID data received in the past, such as the latest received ID data of the radio tag 2 received by the mobile terminal 3 and the received ID data one time before, is subjected to location processing. The configuration in which the current movement direction (traveling direction) of the pedestrian carrying the mobile terminal 3 is transmitted to the device 4 and described has been described as an example, but the present invention is not limited to this. For example, the configuration is as follows.
[0113]
That is, as described above, the radio tag 2 is set so as to transmit data in a coordinate system standardized as ID data. In addition, the control unit 31 of the mobile terminal 3 calculates the latest reception ID data of the radio wave tag 2 received by the communication unit 35 and the ID data received in the past such as the reception ID data of one time before stored in the storage unit 34. The current moving direction (traveling direction) of the pedestrian carrying the mobile terminal 3 is specified. In this case, since the ID data of the radio tag 2 is data of a coordinate system, vector data can be easily calculated. The control unit 31 of the mobile terminal 3 transmits the current moving direction (traveling direction) information, the latest reception ID data, and the destination information input from the input unit 32 from the communication unit 35 to the location processing device 4.
[0114]
The control unit 31 of the location processing device 4 searches the database of the storage unit 43 based on each information received by the communication unit 42, and generates traveling direction information to the destination. Then, the traveling direction information is transmitted from the communication unit 42 to the mobile terminal 3.
[0115]
The control unit 31 of the mobile terminal 3 provides the traveling direction information received by the communication unit 35 from the providing unit 33 to the pedestrian.
[0116]
By configuring the pedestrian guidance system in this way, the processing load on the location processing device 4 can be reduced.
[0117]
【The invention's effect】
According to the present invention, the following effects can be obtained.
[0118]
(1) Pedestrians can obtain information on the direction of travel to the destination simply by inputting the destination to the mobile terminal. You can reach your destination without worry.
[0119]
(2) Providing the traveling direction information to the destination to the pedestrian carrying the portable terminal by generating the traveling direction information to the destination so that the ID data string information matches the latest received ID data. Therefore, it can be surely guided to the destination.
[0120]
(3) Even if the pedestrian carrying the portable terminal accidentally deviates from the route to the destination, the pedestrian follows the warning information that provides the fact that the pedestrian has deviated from the route to the destination and the traveling direction to return to the route to the destination. You can reach your destination.
[0121]
(4) Since the traveling direction to the destination and the warning information are provided from the providing means of the portable terminal, for example, by a signal sound or vibration, the attention of the pedestrian can be obtained, and the information can be reliably transmitted to the pedestrian. Can be provided. Further, by providing information by signal sound or vibration in addition to information by characters, figures, and voices, it is possible to prompt the user to confirm the information provided from the providing means of the portable terminal. As a result, even a pedestrian who cannot read the map or a pedestrian who is not familiar with the site can easily recognize the information.
[0122]
(5) Since the computer can generate traveling direction information from the current position to the destination, by providing this information to the pedestrian from the portable terminal, the pedestrian who cannot read the map and does not know the locality well. Even pedestrians can reach their destination without fail.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a pedestrian guidance system.
FIG. 2 is a block diagram showing a configuration of the pedestrian guidance system according to the first embodiment of the present invention.
FIG. 3 is a diagram showing the contents of a radio wave tag attribute database.
FIG. 4 is a diagram showing contents of a geographic information database.
FIG. 5 is a diagram showing the contents of a destination information database.
FIG. 6 is a diagram showing contents of a mobile terminal attribute database.
FIG. 7 is a diagram illustrating the contents of a shortcut database of radio wave tag IDs registered in a mobile terminal.
FIG. 8 is a flowchart for explaining a self-position specifying process.
FIG. 9 is a diagram showing received ID data of a radio tag.
FIG. 10 is a conceptual diagram showing a method of specifying a traveling direction.
FIG. 11 is a diagram showing an ID data string of a radio tag arranged on a scheduled route.
FIG. 12 is a flowchart illustrating a route specifying process to a destination.
FIG. 13 is a flowchart illustrating a process of specifying a traveling direction.
FIG. 14 is a diagram illustrating a usage example of a pedestrian's mobile terminal and a display example of the mobile terminal.
FIG. 15 is a block diagram showing a configuration of a pedestrian guidance system according to a second embodiment of the present invention.
[Explanation of symbols]
1, 61-Pedestrian guidance system 2-Radio wave tag 3-Portable terminal
4- Location processing device 5- Pedestrian 6 Current location
7-Destination 8-Scheduled route
11-Heading direction vector 12-Destination direction vector
13-traveling direction vector on the planned route 14-proposed traveling direction vector

Claims (7)

A plurality of wireless communication means, each provided with a transmission means for transmitting a unique ID data indicating the installation position, installed at an appropriate position on the road;
ID receiving means for receiving ID data transmitted from the wireless communication means, destination information obtaining means for obtaining destination information, latest received ID data received by the ID receiving means, current moving direction A mobile terminal comprising: moving direction information for specifying the information, and information transmitting means for transmitting the destination information acquired by the destination information acquiring means,
Receiving means for receiving the information transmitted by the mobile terminal, database storage means for storing a database of position information and destination information of each of the plurality of wireless communication means, based on the information received by the receiving means A location processing apparatus comprising: an information processing unit that searches a database and generates traveling direction information to a destination; and a transmission unit that transmits traveling direction information to the destination.
The mobile terminal further includes information receiving means for receiving the traveling direction information to the destination transmitted by the location processing device, and providing means for providing the traveling direction information to the destination received by the information receiving means. And a pedestrian guidance system comprising: A plurality of wireless communication means, each provided with a transmission means for transmitting a unique ID data indicating the installation position, installed at an appropriate position on the road;
ID receiving means for receiving ID data transmitted from the wireless communication means, destination information obtaining means for obtaining destination information, and a database of position information and destination information of each of the plurality of wireless communication means From the latest receiving ID data received by the ID receiving means, moving direction information for specifying the current moving direction, and the destination information acquired by the destination information acquiring means. A pedestrian guidance system comprising: a mobile terminal including information processing means for generating travel direction information to a destination and provision means for providing travel direction information to the destination. The information processing means generates a route to a destination based on the latest reception ID data and the destination information, searches a database stored in the database storage means, and determines a route to the destination. The pedestrian guidance system according to claim 1, wherein ID data string information of the wireless communication means arranged in order along the line is generated. The pedestrian guidance system according to claim 3, wherein the mobile terminal, when detecting that the mobile terminal has deviated from the route to the destination, provides warning information from the providing unit. The pedestrian guidance system according to claim 4, wherein the providing unit provides the traveling direction information to the destination and the warning information by at least one of a character, a graphic, a voice, a signal sound, and a vibration. A plurality of wireless communication means are installed at appropriate positions on the road and each transmit unique ID data representing the installation position,
The latest reception ID data of the wireless communication means received by the ID receiving means, the moving direction information for specifying the current moving direction, and the destination information obtained by the destination information obtaining means for obtaining the destination information Based on, based on the database of position information and destination information of each of the plurality of wireless communication means, to generate traveling direction information from the current position to the destination,
A method for guiding a pedestrian, comprising: providing information on a traveling direction from the providing unit to the destination. The portable terminal receives ID data of a plurality of wireless communication means installed at appropriate positions on the road and each transmitting unique ID data representing the installation position, and based on the information output from the portable terminal, the progress of the pedestrian. A traveling direction information generating program for generating direction information,
Based on the latest reception ID data of the wireless communication means output from the portable terminal, the moving direction information for specifying the current moving direction, and the destination information, the computer determines the position of each of the plurality of wireless communication means. Procedures for searching information and destination information databases,
A traveling direction information generating program for executing a procedure for generating traveling direction information from a current position to a destination based on a search result of the database.

Images