JP4183894B2 - Seat guidance system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a seat guidance system, and more particularly to a seat guidance system for guiding passengers to a designated seat such as a train.
[0002]
[Prior art]
The procedure when a passenger purchases a reserved seat ticket for a train at a station counter and goes to a reserved seat for a specified train is described as follows.
(1) Check the train number of the designated train by looking at the ticket of the reserved seat you have purchased.
(2) At the station (platform), check the position of the train number of the designated train on the display board and determine the direction.
(3) Get on the train with the specified train number.
(4) Check the seat number by looking at the reserved seat ticket.
(5) Look at the seat number at the top of the seat in the train and analogize the specified seat number position.
(6) Reach the designated seat.
In this way, until now, until the passenger arrives at the designated seat of the train, the passenger has to check the train number and the seat number by himself / herself and perform his / her own judgment. The system did not exist.
[0003]
[Problems to be solved by the invention]
Thus, conventionally, since there was no special seat guidance system, the passenger first needs to determine whether the position of the train number on which he / she rides is ahead or behind.
Therefore, it is necessary to check the display board by yourself or ask the staff at the station, and it is difficult to judge whether the seat is in front of or behind the train even after getting on the train. It was necessary to get to the seat by looking at the seat number attached and estimating the position where you were.
[0004]
Therefore, it takes time and trouble to get to the designated seat.
Further, since it is difficult for elderly people or passengers with weak vision to check the train position display board, it takes a longer time to reach the designated seat.
The present invention has been made to solve the above-described problems, and an object thereof is to provide a seat guidance system capable of automatically guiding and guiding passengers to a designated seat of a designated train.
[0005]
[Means for Solving the Problems]
Detecting that the communication partner has entered the communication area between the mobile portable receiving terminal that is a master device and carried by a moving passenger and the vehicle transmitter and platform transmitter that are slave devices. A seat guidance system using low-power short-distance two-way wireless communication that transmits and receives data after connecting to them,
Each of the connected vehicles is installed at a plurality of positions including a position close to the entrance inside, and each transmits an identification signal corresponding to an individual identification number, and each radio wave arrival range is between two adjacent ones. A plurality of the vehicle transmitters set to slightly overlap;
It is installed on the platform where the vehicle stops and in the vicinity of the door of the vehicle, and each transmits an identification signal corresponding to an individual identification number, and each radio wave reachable range is adjacent to the connecting portion of the vehicle A plurality of said platform transmitters set to slightly overlap between the two;
When the vehicle number and the seat number of the vehicle with the designated seat are designated and entered, the identification number of the platform transmitter closest to the vehicle with the designated seat and the number of the designated seat are the highest. A mobile portable receiving terminal that stores an identification number of the vehicle transmitter in a close position,
The mobile portable receiving terminal detects that it is carried by a moving passenger and enters the communication area of the installed platform transmitter or vehicle transmitter, and connects to them to transmit and receive data. Confirming the position where you are, using these data, determining the direction of movement to the target seat, and using the image display guidance or voice guidance to guide the direction of movement to the seat on the platform, vehicles close to the seat Including guidance for the entrance of the vehicle, guidance for a place close to the seat in the vehicle, and guidance means for guiding and guiding the moving passenger to the designated seat ,
When the mobile portable receiving terminal moves from one platform transmitter toward the platform transmitter located far from the seat and receives the signal, it is opposite to the display unit of the mobile portable receiving terminal. You ’ll see a sign that you ’re heading in the direction,
When the mobile portable receiving terminal moves from one platform transmitter to the platform transmitter located near the seat and receives the signal, the mobile portable receiving terminal further displays on the display unit of the mobile portable receiving terminal. You will be prompted to move forward, or it will be emitted by voice guidance,
When the mobile portable receiving terminal continues to move in the direction of the seat and receives a signal from the platform transmitter closest to the vehicle where the seat is located, an indication is made that this is the entrance closest to the designated seat. Or it is emitted by voice guidance,
When the mobile portable receiving terminal enters the vehicle, it receives the signal of the vehicle transmitter closest to the entrance, and on the display unit, toward the vehicle transmitter located closest to the designated seat, You will be prompted to go further, or it will be emitted by voice guidance,
If the mobile portable receiving terminal continues to move and receives a signal from the vehicle transmitter closest to the seat, it is displayed that it is the closest location to the designated seat, or is displayed by voice guidance. It is issued, and a seat guidance system.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
In the present invention, a seat guidance system is configured by adopting a low-power short-distance two-way wireless communication system called Bluetooth.
Prior to describing embodiments of the present invention, a low-power short-range wireless communication system will be described.
Bluetooth is a system that performs short-distance two-way wireless communication between a master (server) and a slave (client). The frequency band uses an ISM (2.4 GHz band) that does not require a special license and can be used in common throughout the world.
[0008]
In this wireless communication system, identification numbers (ID numbers) are individually assigned so that specific terminals can be identified.
The ID number is stored in a nonvolatile memory so that it cannot be rewritten.
It also has a function of detecting that a communication partner has entered the communication area before performing data communication. Then, after detecting the communication partner, it is determined whether the connection partner is selected or suitable as the connection partner, and connection processing (calling) for performing data communication is performed.
[0009]
Next, a connection method between the master and the slave will be described.
In the seat guidance system of the present invention, the mobile portable receiving terminal is a master, and the vehicle transmitter and the platform transmitter are slaves.
FIG. 2 shows a flowchart in the case where the user decides until an unspecified terminal having the same function is detected and connected.
If the mobile mobile receiving terminal on the detection side is the master, the master side has detection and connection buttons. When the connection process starts (step 201) and the detection button is pressed (step 202), the master side transmits a detection signal (step 203) and waits for reception of a response signal from the slave side.
[0010]
The detected side (slave: transmitter for vehicle and platform) performs a receiving operation periodically in order to receive the detection signal, and when receiving the detection signal, it uses its own ID number and unique function as a response signal as a master signal. Send back to the side.
When the master side has successfully received the response signal (step 204), the master function is compared with the slave function (step 205). If the comparison results match, the ID number of the terminal having the same function is displayed on the display (step 206).
Thereafter, when the user desires connection, the connection partner is selected and the connection button is pressed, so that the master enters the connection operation and starts data communication (steps 207 to 210).
[0011]
FIG. 3 is a diagram showing the configuration of the piconet.
By configuring a link centered on a master called a piconet, point-multipoint communication is possible. When the communication connection is started, the master assigns a temporary address to the slave.
The slave determines whether it is addressed to itself from the received address, fetches data if it is addressed to itself, and discards it if it is not addressed to itself. Even during data communication between the master and the slave, the slave can be added at any time by executing the terminal detection and the connection procedure in the communication area.
Also, the temporary address assigned to the slave can be abandoned at the end of data communication.
[0012]
In this way, communication with many terminals becomes possible by repeating the addition and release of slaves in a time-sharing manner. A security function is added to the communication between the master and the slave.
Therefore, the master and the slave have an input device for inputting a password and a display for displaying the input character.
The terminal has a security function that permits connection only when the same password is input when starting communication connection.
[0013]
After detecting that the communication partner has entered the communication area and making a connection, the communication partner is normally in a communication state and periodically exchanges data. When data is exchanged, if the state in which data sent from the other party cannot be received continues for a certain period of time, it is possible to detect out-of-area at both terminals by judging that the other party has left the area. .
[0014]
FIG. 1 is a diagram showing a configuration of a seat guidance system according to an embodiment of the present invention. In the present invention, a plurality of vehicle transmitters A to D and platform transmitters 1a to 3b are installed in a connected vehicle 10 and a station (platform) 20, respectively. The platform transmitters 1a to 3b are installed on the platform and in the vicinity of the door of each train vehicle.
[0015]
Each of the transmitters 1a to 3b has an individual identification number, and transmits an identification signal corresponding to the individual identification number. The radio wave arrival ranges of the transmitters 1a to 3b are set so as to slightly overlap between two adjacent ones in the connecting portion of the vehicle 10 connected as the transmitters 1b and 2a and the transmitters 2b and 3a. Further, transmitters A to D are installed in each vehicle of the train 10.
These transmitters A to D have individual identification numbers different from the platform transmitters 1a to 3b, and transmit identification signals corresponding thereto.
[0016]
The radio wave arrival ranges of the transmitters A to D are set so that the adjacent ones slightly overlap each other, and the radio waves just reach the width direction of the train.
Thus, if the vehicle is long, five or more transmitters may be required, and if the vehicle is short, there may be three or fewer transmitters.
[0017]
A mobile portable receiving terminal carried by a passenger is shown as a receiver R on the platform 20, and this receiver R is provided with guidance means for guiding guidance to a designated seat during movement. .
Furthermore, when the vehicle number and seat number of the designated vehicle are designated and input using the input means of the receiver R, the identification numbers of the platform transmitters 1a to 3b located closest to the designated vehicle are stored. At the same time, the identification number of the transmitter closest to the designated seat is also stored.
In the case of the embodiment shown in FIG. 1, the identification numbers of the platform transmitter 1b and the vehicle transmitter B are stored in the receiver R. The receiver R is provided with a display unit that can display characters and arrows or a voice synthesis function.
[0018]
Next, using the seat guidance system shown in FIG. 1, the operation until the passenger reaches the target designated seat will be described.
It is assumed that there is a receiver R at the point marked X on the platform 20 and the target designated seat is in the vicinity of the transmitter B with train number 1. When the reserved seat number is input to the receiver R, the receiver R stores the identification number of the transmitter 1b at the entrance of the vehicle closest to the receiver R and the identification number of the transmitter B closest to the reserved seat.
[0019]
If the receiver R moves in the direction of the transmitter 3b and receives the signal of the transmitter 3b, a message indicating that the receiver R is moving in the opposite direction is displayed on the display unit of the receiver R, or audio It is emitted by guidance.
If the receiver R moves in the direction of the transmitter 3a and receives the signal of the transmitter 3a, the display unit of the receiver R is instructed to move forward further, or it is indicated by voice guidance. Is emitted.
When the receiver R continues to move and receives a signal from the transmitter 1b, it is displayed that it is the entrance closest to the reserved seat, or is issued by voice guidance.
When the receiver R enters the vehicle, the signal of the transmitter D is received, and a display for further advancement is displayed on the display unit of the receiver R, or it is emitted by voice guidance.
When the receiver R continues to move and receives a signal from the transmitter B, it is displayed that it is the place closest to the reserved seat, or is issued by voice guidance. Therefore, the passenger can confirm his / her seat number at that position and can sit in the designated seat.
[0020]
As described above, seat guidance is performed while performing communication using the above-described Bluetooth with the vehicle transmitter and the platform transmitter as slaves and the receiver as a mobile portable reception terminal as a master.
In the case of the above-described embodiment, it is necessary to designate and input the vehicle number and the seat number to the receiver R. However, the receiver in which the vehicle number and the seat number are input in advance at the sales place of the designated seat. If it is lent out, it will be more convenient for elderly people and the like because it saves the time and effort for passengers to input.
[0021]
【The invention's effect】
As described above, in the present invention, the guidance to the entrance to the designated vehicle is automatically made on the platform just by inputting the vehicle number and the seat number to the mobile portable receiving terminal, and after entering the vehicle, the vicinity of the designated seat Because the guidance is automatically made, you can quickly reach the target seat.
Therefore, even an elderly person or a passenger with weak eyesight can definitely reach the designated seat.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a configuration of a seat guidance system according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating a connection method using Bluetooth.
FIG. 3 is a diagram illustrating a configuration of a piconet based on Bluetooth.
[Explanation of symbols]
1a to 3b Platform transmitters A to D Vehicle transmitter R Receiver 10 Vehicle 20 Platform

Claims (1)

Detecting that the communication partner has entered the communication area between the mobile portable receiving terminal that is a master device and carried by a moving passenger and the vehicle transmitter and platform transmitter that are slave devices. A seat guidance system using low-power short-distance two-way wireless communication that transmits and receives data after connecting to them,
Each of the connected vehicles is installed at a plurality of positions including a position close to the entrance inside, and each transmits an identification signal corresponding to an individual identification number, and each radio wave arrival range is between two adjacent ones. A plurality of the vehicle transmitters set to slightly overlap;
It is installed on the platform where the vehicle stops and in the vicinity of the door of the vehicle, and each transmits an identification signal corresponding to an individual identification number, and each radio wave reachable range is adjacent to the connecting portion of the vehicle A plurality of said platform transmitters set to slightly overlap between the two;
When the vehicle number and the seat number of the vehicle with the designated seat are designated and entered, the identification number of the platform transmitter closest to the vehicle with the designated seat and the number of the designated seat are the highest. A mobile portable receiving terminal that stores an identification number of the vehicle transmitter in a close position,
The mobile portable receiving terminal detects that it is carried by a moving passenger and enters the communication area of the installed platform transmitter or vehicle transmitter, and connects to them to transmit and receive data. Confirming the position where you are, using these data, determining the direction of movement to the target seat, and using the image display guidance or voice guidance to guide the direction of movement to the seat on the platform, vehicles close to the seat Including guidance for the entrance of the vehicle, guidance for a place close to the seat in the vehicle, and guidance means for guiding and guiding the moving passenger to the designated seat ,
When the mobile portable receiving terminal moves from one platform transmitter toward the platform transmitter located far from the seat and receives the signal, it is opposite to the display unit of the mobile portable receiving terminal. You ’ll see a sign that you ’re heading in the direction,
When the mobile portable receiving terminal moves from one platform transmitter to the platform transmitter located near the seat and receives the signal, the mobile portable receiving terminal further displays on the display unit of the mobile portable receiving terminal. You will be prompted to move forward, or it will be emitted by voice guidance,
When the mobile portable receiving terminal continues to move in the direction of the seat and receives a signal from the platform transmitter closest to the vehicle where the seat is located, an indication is made that this is the entrance closest to the designated seat. Or it is emitted by voice guidance,
When the mobile portable receiving terminal enters the vehicle, it receives the signal of the vehicle transmitter closest to the entrance, and on the display unit, toward the vehicle transmitter located closest to the designated seat, You will be prompted to go further, or it will be emitted by voice guidance,
If the mobile portable receiving terminal continues to move and receives a signal from the vehicle transmitter closest to the seat, it is displayed that it is the closest location to the designated seat, or is displayed by voice guidance. A seat guidance system characterized by that

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