JP2005094125A - Program and mobile terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve identification of a position of a railway user with high accuracy by a simple method. <P>SOLUTION: A mobile phone 300 possessed (carried) by the railway user inquires of a train operation management system 200 to acquire a train on a line at a present position when a communicatable base station 120 changes. Then the mobile phone 300 estimates a train in common to the acquired train on the line and a train estimated as a boarding train just before for a boarding train at a present point of time. Repeating the estimation every time the communicatable base station 120 changes allows the mobile phone 300 to confirm (that is, identify) a final train for an boarding train of the user. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a program and a portable terminal device.

  Conventionally, there are methods for estimating the position of a person based on information from a base station such as a mobile phone or PHS held by the person, or a method using communication with a GPS satellite. And as a technique using such a position estimation method, the following technique is known in the railway field.

  For example, in Patent Document 1, the position of a mobile phone held by a user is detected to determine the nearest station, and the route from the nearest station to the target station input by the user and the departure time are searched. A train guidance method and the like transmitted and displayed on a mobile phone are disclosed.

  In Patent Document 2, the position of the mobile phone is registered in advance with respect to the mobile communication network, and when the destination station is input by the user, the timetable of the route toward the destination station is searched, A mobile communication system provided for a telephone is disclosed.

Further, in Patent Document 3, a mobile phone terminal is mounted on a train, and a radio base station of a mobile phone service network is arranged along a track along which the train travels to generate train position information at a radio zone level. A train position information generating device is disclosed.
JP 2002-293241 A JP 2001-022216 A JP 2000-071985

  However, in the conventional estimation method based on information from the base station, the position is estimated by using the communication area of the base station as a unit, so that the accuracy can be obtained only from several hundred m to several km. Therefore, it is difficult to estimate, that is, identify a pinpoint position. On the other hand, the identification method using GPS can identify with higher accuracy than the method of identifying the position by the base station, but there is a problem that it cannot be detected in the underground or tunnel where communication with the GPS satellite is impossible. For this reason, it cannot be said that it is suitable as a method for identifying the position of a railway user in the railway field.

  For example, since the technique described in Patent Document 1 detects the position of a user using a base station of a mobile phone, an area with a short distance between stations or a station with multiple routes are provided close to each other. In some areas, it was difficult to reliably determine the nearest station.

  In addition, since the technique described in Patent Document 2 uses a base station of a mobile phone to estimate the corresponding route, that is, does not identify the train on which the user is on board, for example, In an area where a plurality of routes such as the city center are parallel, there is a possibility that the timetable desired by the user cannot be provided reliably.

  By the way, identification of a user's position in the railway field is desired in order to provide a more appropriate service to each user. As a service in the railway field, there is provision of information related to a boarding train (such as real-time transfer guidance and notification of delay information). For this reason, it is desirable to identify the train on board (or the train to be boarded) with higher accuracy than the position of the user itself.

  In view of the above problems, an object of the present invention is to realize the identification of the position of a railroad user with high accuracy and a simple method.

In order to solve the above problem, the invention according to claim 1
The computer in the portable terminal device having a computer and wireless communication means for performing wireless communication using a predetermined wireless communication network,
A first external system (for example, the wireless communication server 110 of FIG. 1 or a train) having presence estimation area estimation means for estimating the position of the terminal device as an existence estimation area from the communication status in the wireless communication network by the wireless communication means. The presence estimation area information reception control function (for example, the control device included in the mobile phone 300 of FIG. 1) that is connected to the operation management system 200) and controls to receive information on the current presence estimation area of the terminal device; 7 step S13),
The wireless communication means is connected to a second external system (for example, the train operation management system 200 in FIG. 1) having train operation information management means for managing train operation information, and controlled to receive train operation information. Train operation information reception control function (for example, the control device of the mobile phone 300 of FIG. 1; step S14 of FIG. 7);
Based on the information on the existence estimation area received by the reception control of the existence estimation area information reception control function and the train operation information received by the reception control of the train operation information reception control function, the owner of the terminal device Boarding train identification function (for example, the control device included in the mobile phone 300 of FIG. 1; Steps S15 to S16 of FIG. 7),
It is a program for realizing.

The invention according to claim 4
Wireless communication means for performing wireless communication using a predetermined wireless communication network;
A first external system (for example, the wireless communication server 110 in FIG. 1 or a train) having presence estimation area estimation means for estimating the position of the terminal device from the communication status in the wireless communication network as the existence estimation area by the wireless communication means. Presence estimation area information reception control means (for example, a control device included in the mobile phone 300 in FIG. 1) that is connected to the operation management system 200) and controls to receive information on the current presence estimation area of the terminal device; ,
The wireless communication means is connected to communicate with a second external system (for example, the train operation management system 200 in FIG. 1) having train operation information management means for managing train operation information, and is controlled to receive train operation information. Train operation information reception control means (for example, a control device included in the mobile phone 300 of FIG. 1),
Based on the information of the existence estimation area received by the reception control of the existence estimation area information reception control means and the train operation information received by the reception control of the train operation information reception control means, the owner of the terminal device Boarding train identifying means for identifying the boarding train (for example, the control device included in the mobile phone 300 of FIG. 1);
It is a portable terminal device characterized by comprising.

  According to the first or fourth aspect of the present invention, in the portable terminal device, the information on the existence estimation area of the portable terminal is received from the first external system, and the train operation information is received from the second external system. And the boarding train of the owner of the terminal device can be identified based on the received information. Here, the train operation information includes, for example, a train number, a station number (home number), on-line information (train position information such as a block circuit between stations), Departure / departure time, standing time (passing time) in the closed section, and the like are included.

  Therefore, it is assumed that the railway user carries the terminal device, and the information that estimates the position of the terminal device as a wide existence estimation area and the information on the train that is in the presence estimation area are combined as train operation information. Thus, the owner of the terminal device, that is, the railway user's boarding train can be identified accurately and easily.

  The first external system estimates the position of the terminal device using the communication area of the base station in a known mobile telephone system such as a mobile phone or PHS as the existence estimation area, and the second external system is a known railway system. Since it is possible to use existing information, it is possible to more easily identify the boarding train. Note that the first external system and the second external system may be the same system.

The invention described in claim 2
The computer in the portable terminal device having a computer and wireless communication means for performing wireless communication using a predetermined wireless communication network,
A presence estimation area estimation function (e.g., a control device included in the mobile phone 300 of FIG. 1) that estimates the current position of the terminal device as a presence estimation area from the communication status in the wireless communication network by the wireless communication unit;
Train operation connected to an external system (for example, the train operation management system 200 in FIG. 1) having train operation information management means for managing train operation information and controlled to receive train operation information by the wireless communication means. An information reception control function (for example, a control device included in the mobile phone 300 of FIG. 1);
Based on the existence estimation area estimated by the existence estimation area estimation function and the train operation information received by the reception control of the train operation information reception control function, the boarding train of the owner of the terminal device is identified Boarding train identification function (for example, the control device of the mobile phone 300 of FIG. 1);
It is a program for realizing.

The invention according to claim 5
Wireless communication means for performing wireless communication using a predetermined wireless communication network;
Presence estimation area estimation means (for example, a control device included in the mobile phone 300 of FIG. 1) that estimates the current position of the terminal device as an existence estimation area from the communication status in the wireless communication network by the wireless communication means;
Train operation connected to an external system (for example, the train operation management system 200 in FIG. 1) having train operation information management means for managing train operation information and controlled to receive train operation information by the wireless communication means. Information reception control means (for example, a control device included in the mobile phone 300 of FIG. 1),
Based on the presence estimation area estimated by the presence estimation area estimation means and the train operation information received by the reception control of the train operation information reception control means, the boarding train of the owner of the terminal device is identified Boarding train identification means (for example, a control device included in the mobile phone 300 of FIG. 1);
It is a portable terminal device characterized by having.

  According to the second or fifth aspect of the invention, the portable terminal device can estimate the position of the portable terminal as the presence estimation area from the communication status in the wireless communication network. Moreover, train operation information can be received from an external system, and the boarding train of the owner of the said terminal device can be identified based on these information.

  Therefore, it is assumed that the railway user carries the terminal device, and the information that estimates the position of the terminal device as a wide existence estimation area and the information on the train that is in the presence estimation area are combined as train operation information. Thus, the owner of the terminal device, that is, the railway user's boarding train can be identified accurately and easily.

Further, as in the invention according to claim 3, the program according to claim 1 or 2,
The boarding train identification function may be a program including a checking function for identifying the boarding train of the owner of the terminal device by repeatedly checking the presence estimation area and the operation information.

  According to the third aspect of the present invention, the same effect as that of the first or second aspect of the invention can be obtained, and the terminal device owner can be obtained by repeatedly executing the existence estimation area and the operation information. Can be identified more accurately.

  According to the present invention, in the portable terminal device, the information on the existence estimation area of the portable terminal is received from the first external system, the train operation information is received from the second external system, and the received information Based on the information, the boarding train of the user of the terminal device can be identified. Here, the train operation information includes, for example, a train number, a station number (home number), on-line information (train position information such as a block circuit between stations), Departure / departure time, standing time (passing time) in the closed section, and the like are included.

  Therefore, it is assumed that the railway user carries the terminal device, and the information that estimates the position of the terminal device as a wide existence estimation area and the information on the train that is in the presence estimation area are combined as train operation information. Thus, the user of the terminal device, that is, the railroad user can be identified accurately and easily.

  The first external system estimates the position of the terminal device using the communication area of the base station in a known mobile telephone system such as a mobile phone or PHS as the existence estimation area, and the second external system is a known railway system. Since it is possible to use existing information, it is possible to more easily identify the boarding train.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, the present invention will be described with respect to a case where the present invention is applied to a boarding train identification system for identifying a train on which a railway user is currently boarding. However, the application of the present invention is not limited to this. Absent.

[Constitution]
FIG. 1 is a diagram showing a schematic configuration of a boarding train identification system in the present embodiment. According to the figure, the boarding train identification system includes a radio communication system 100, a train operation management system 200, and a mobile phone 300 owned (carried) by a railway user (hereinafter simply referred to as "user"). It is equipped with.

  The wireless communication system 100 is realized by, for example, a known mobile phone system operated by a mobile phone operator, and includes a wireless communication server 110 and a plurality of wireless base stations (hereinafter referred to as “wireless communication stations”) connected to the wireless communication server 110. 120).

  The base station 120 is installed in various places in order to form a wireless communication network, and is also arranged along the track along which the train runs within the station premises and between stations. The mobile phone 300 performs wireless communication with an external system such as the wireless communication server 110 and the train operation management system 200 using a wireless communication network formed by the communication area of the base station 120. Each base station 120 is assigned a unique base station number so that each base station 120 can be identified.

  The wireless communication server 110 is a control device such as a CPU, a storage device such as a hard disk, a storage medium reading device that can read information stored in an external storage medium such as a CD or MO, a communication device for connecting to the communication line N, and the like. Is realized by a known general-purpose server device or the like connected via a system bus.

  Here, the communication line N is a communication path through which data can be transmitted and received between devices. In addition to a dedicated line (dedicated cable) for direct connection, a LAN such as Ethernet (registered trademark), a telephone communication network or A communication network such as a cable network or the Internet. The communication method may be wired / wireless.

  In addition, the location registration information 112 is stored in the storage device included in the wireless communication server 110.

  The location registration information 112 is information relating to location registration of the mobile phone 300, and FIG.

  FIG. 2 is a diagram illustrating an example of a data configuration of the location registration information 112. According to the figure, the location registration information 112 corresponds to the base station number (112b) of the base station 120 to which the mobile phone 300 can currently communicate for each phone number (112a) that is the identification number of the mobile phone 300. It is stored with. This location registration information 112 is updated to the latest information as needed according to location registration by the mobile phone 300.

  In FIG. 1, a train operation management system 200 is a system included in, for example, a well-known railway system operated by a railway operator, and manages operation schedules, train tracking, route control, operation display, operation arrangement, and the like. Centralized control by

  The train operation management system 200 manages train operation information and base station installation position information 220, which are information related to train operations. Train operation information includes the train number, station number (home number), on-line information (train position information in units of track circuits such as closed sections between stations), and arrival and departure times at each train station. And operation time information composed of the standing time (passing time) in the closed section and the like. An example of the data structure of this operation time information is shown in FIG.

  FIG. 3 is a diagram illustrating a data configuration example of the operation time information 210. According to the figure, the operation time information 210 stores the actual operation time (210a) in association with each train (210b). Here, the operation time (210a) includes the arrival and departure times at each station and the passage times (entry and departure times) in each section between the stations. This train operation time information 210 is updated to the latest data as needed according to the train operation status.

  The base station installation position information 220 is information relating to the installation position of the base station 120 in which a railway facility such as a station or a railway line is within the communication area, and an example of the data configuration is shown in FIG.

  FIG. 4 is a diagram illustrating a data configuration example of the base station installation position information 220. According to the figure, the base station installation position information 220 includes, for each installation section (220a) indicating a station yard or a section between stations, the base station 120 that can communicate with the mobile phone 300 in the installation section (220a). A base station number (220b) is stored in association with each other. The base station installation position information 220 is fixed information set in advance based on the installation position of the base station 120.

  In addition, the train operation management system 200 is connected to the wireless communication server 110 via the communication line N, and data communication with the mobile phone 300 connected to the wireless communication network is possible. When the train operation management system 200 receives an inquiry about a train on the line from the mobile phone 300, the train operation management system 200 refers to the base station installation position information 220 and associates it with the base station number of the base station 120 that can communicate with the mobile phone 300. Determine the installed section (s). Then, with reference to the operation time information 210, the train (existing train) existing in the determined installation section is determined, and it is returned (response) to the mobile phone 300. When an inquiry about a future operation schedule is received, a future operation schedule of the train in consideration of a train delay or the like is returned (answered) to a predetermined operation schedule.

  In FIG. 1, a cellular phone 300 performs wireless communication with a control device (computer) including a CPU and IC memory, a display device such as a small LCD, an input device such as direction keys and numeric keys, and a base station 120. A communication device for realizing the communication device is a known mobile phone connected via a system bus.

  The mobile phone 300 has a data communication function for exchanging data with an external device in addition to the wireless telephone function. That is, by connecting to a wireless communication network formed by the base station 120, it can be used as a so-called wireless telephone, and data communication with an external system such as the train operation management system 200 connected to the wireless communication server 110 can be performed. It becomes possible.

  In addition, the mobile phone 300 always knows the base station 120 that can communicate by receiving a control radio wave transmitted from the base station 120. Each time the base station 120 that can communicate with the user's movement is switched (changes), a control radio wave for notifying the wireless communication server 110 of the newly communicable base station 120 is transmitted. Perform location registration. By this location registration, the wireless communication server 110 can grasp the location of the mobile phone 300 with the communication area of the base station 120 as a unit.

  The storage device included in the mobile phone 300 includes a boarding train identification program 310 for realizing a boarding train identification process (see FIG. 7) described later, identification number information 320, registration position information 330, and movement history information 340. , Estimation result information 350 is stored.

  The identification number information 320 is information on the identification number of the mobile phone 300, and specifically stores the telephone number of the mobile phone 300.

  The registered location information 330 is information on the current location of the mobile phone 300, and specifically holds the base station number of the base station 120 that can communicate.

  The movement history information 340 is information related to the movement (change in position) of the mobile phone 300, and FIG. 5 shows an example of the data configuration.

  FIG. 5 is a diagram illustrating a data configuration example of the movement history information 340. According to the figure, the movement history information 340 stores the time (340a) and the base station number (340b) in association with each other. Here, the time (340a) stores the time when the base station 120 capable of communicating with the mobile phone 300 changes. Further, the base station number (340b) stores the base station number of the base station 120 that is newly communicable at the corresponding time (340a). That is, the movement history information 340 is updated by adding new data every time the base station 120 capable of communicating with the mobile phone 300 changes.

  The estimation result information 350 is information related to the estimation of the boarding train, and FIG. 6 shows an example of the data configuration.

  FIG. 6 is a diagram illustrating a data configuration example of the estimation result information 350. According to the figure, in the estimation result information 350, the in-line train (350b) and the estimated boarding train (350c) are stored in association with each other at each estimation time (350a).

  Here, the on-line train (350b) is a train that exists at the current position of the mobile phone 300, and more specifically, a train that exists in the installation section of the base station 120 that can communicate with the mobile phone 300. In addition, the estimated train (350c) is a train that is estimated that the owner (user) of the mobile phone 300 will be on the basis of the train on line (350b) up to that point. This estimation is performed each time the base station 120 that can communicate with the mobile phone 300 changes after the user enters the station. That is, the time (350a) stores a time corresponding to the time (340a) of the above-described movement history information 340. Further, this estimation result information 350 is updated by adding new data every time a boarding train is estimated.

  The cellular phone 300 realizes a boarding train identification process (see FIG. 7) described later by executing a boarding train identification program 310 by a built-in computer. Specifically, every time the communicable base station 120 changes, the movement history information 340 is updated, and after entering the station is detected, the train operation management system 200 is inquired about the train in line, and the inquiry The user's boarding train is estimated according to the result, and the estimation result information 350 is updated.

[Process flow]
FIG. 7 is a flowchart for explaining the operation of the mobile phone 300 related to the boarding train identification process.

  According to the figure, when a user enters the station, the mobile phone 300 owned by the user can communicate with the base station 120 having the station as a communication area. The mobile phone 300 detects the movement of the user from the change of the communicable base station 120. Specifically, every time the communicable base station 120 changes, the mobile phone 300 transmits the base station number of the base station 120 that is newly communicable to the train operation management system 200. Queries the position. The train operation management system 200 that has received the inquiry about the current position refers to the base station installation position information 220 and returns (replies) the mobile phone 300 with the installation section associated with the received base station number as the current position. To do. And if a user's entrance into a station yard is detected (step S11: YES), a user's boarding train is identified by repeating the following process, whenever the communicable base station 120 changes.

  That is, if the communicable base station 120 changes due to the departure of the train on which the user has boarded (step S12: YES), the mobile phone 300 can communicate with the train operation management system 200. The base station number is sent to make an inquiry about trains in line. The train operation management system 200 that has received the inquiry about the train in line refers to the base station installation position information 220 to determine the installation section corresponding to the received base station number. Then, with reference to the operation time information 210, the train on line corresponding to the determined installation section is extracted and returned (response) to the mobile phone 300. Upon receiving (acquiring) the train on line corresponding to the current position from the train operation management system 200, the mobile phone 300 adds the acquired train on line to the estimation result information 350 in association with the current time t. (Step S13).

  Subsequently, the cellular phone 300 refers to the estimation result information 350 and estimates the current train ride. Specifically, a common train between the current train (acquired) and the train estimated as the boarding train immediately before is estimated to be the current boarding train (step S14).

  When the boarding train is estimated, it is subsequently determined whether or not the estimated train is confirmed as the boarding train. Specifically, when the estimated number of trains is one and only the relevant train is estimated as a boarding train continuously for a predetermined number N (for example, three times) or more, it is determined as a boarding train. As a result of the determination, if it cannot be determined as a boarding train (step S15: NO), the process returns to step S12 and the same processing is repeated.

  The processing of steps S14 to S15 will be specifically described.

  FIG. 8 is a schematic diagram showing a state transition when the user enters the B station and gets on the train X. In the figure, a circle indicated by a broken line or a thick line represents a communication area of the base stations 120-11 to 18 installed from the B station to the C station, and the number “11” assigned to the communication area. "To" 18 "represents the base station numbers of the corresponding base stations 120-11 to 18-18.

  FIG. 8A is a diagram illustrating a state at time t1 immediately after the user enters B station. At this time, the mobile phone 300 detects that communication with the base station 120-11 is possible. Then, “B station premises” is acquired from the train operation management system 200 as the current position.

  FIG. 8B is a diagram illustrating a state at time t2 immediately after the train X on which the user has boarded departs from the B station. At this time, the mobile phone 300 detects that the communicable base station 120 has changed from the base station 120-11 to the base station 120-12. Then, “Section BC1” is determined as the current position by the train operation management system 200, and “Train X, Y” is acquired from the train operation management system 200 as a train on line.

  Since it is the first estimation at this time, the mobile phone 300 estimates two trains X and Y as acquired trains as they are as boarding trains. Since two trains are estimated, it is determined that the boarding train cannot be determined yet, and after the communicable base station 120 changes, the same processing is repeated.

  Similarly, at the time t3 when the communicable base station 120 changes from the base station 120-12 to the base station 120-13, the mobile phone 300 similarly acquires two trains “trains X and Y” as in-line trains. Then, two trains X and Y that are common to these trains (train X and train Y) and the train (train X and train Y) estimated immediately before (time t2) are estimated as boarding trains. . That is, it is determined that the boarding train has not yet been determined, and after the base station 120 capable of communication again changes, the same processing is repeated.

  FIG. 8C shows a state at time t4 when the communicable base station 120 changes from the base station 120-13 to the base station 120-14. At this time, “train BC2” is determined as the current position by the train operation management system 200, and “train X” is acquired from the train operation management system 200 as a train on line.

  Therefore, the mobile phone 300 estimates the train X, which is a common train between the acquired in-line train (train X) and the train (train X and train Y) estimated immediately before (time t3), as a boarding train. That is, only the train X is estimated, but since the number of continuous estimations of only the train X has not reached 3, it is determined that the boarding train has not yet been determined, and the base station 120 that can communicate again has changed. Thereafter, the same processing is repeated.

  Similarly, at the time t5 when the base station 120 capable of communication changes from the base station 120-14 to the base station 120-15 and at the time t6 when the base station 120-15 changes to the base station 120-16, the mobile station The telephone 300 estimates only the train X as a boarding train. That is, since only the train X is estimated as the boarding train three times continuously from the time t4 to the time t6, the mobile phone 300 determines the train X as the boarding train at the time t6. Note that the movement history information 340 and the estimation result information 350 at this time are stored as shown in FIGS. 5 and 6, respectively.

  As described above, when the estimation of the boarding train is repeated and confirmed (that is, identified) (step S15: YES), the mobile phone 300 continues to the train operation management system 200 for the future operation schedule of the identified boarding train. Inquire. The train operation management system 200 generates a future operation schedule of the train that has received the inquiry based on the train operation information, and returns (replies) to the mobile phone 300.

  When a future operation schedule is acquired from the train operation management system 200 (step S16), the mobile phone 300 subsequently provides various services corresponding to the identified boarding train (step S17). Details of this service will be described later.

  In addition, after identifying the boarding train, the mobile phone 300 makes an inquiry about the current position to the train operation management system 200 whenever the communicable base station 120 changes. Then, the user's participation from the station premises is determined by comparing the acquired current position with the identified future scheduled operation of the boarding train. Here, participation from the station premises may be determined by the fact that the base station 120 changed after arrival at a certain station does not correspond to any base station 120 corresponding to the section adjacent to the station. In addition, the base station 120 capable of communication does not change even though the departure is confirmed by predicting the scheduled departure time from the acquired operation schedule and inquiring the actual operation status to the train operation management system 200. You may judge by.

  Then, when it is detected that the user has entered the station (step S18: YES), the mobile phone 300 ends the process.

[Various services using identification results]
Here, the specific example of the service (step S17 of FIG. 7) performed based on the identified boarding train is demonstrated.

(1) Train operation e-mail service When a disturbance (delay, change of driving section, etc.) occurs in the operation of a boarding train, the user is notified of the occurrence of the operation disturbance by e-mail. In this case, the mobile phone 300 has an e-mail receiving function for receiving an e-mail, and the train operation management system 200 has an e-mail transmission function for transmitting an e-mail and stores the e-mail address of the mobile phone 300. Suppose you are. Then, the mobile phone 300 inquires of the train operation management system 200 about the delay state of the identified boarding train in response to an operation instruction from the user. The train operation management system 200 transmits a reply mail to the inquiry to the mail address of the mobile phone 300. The contents of this e-mail include guidance on the homepage where the operation status of other lines is posted in addition to the contents of the disruption of the operation and the schedule of the future operation, and the user can view the details by browsing the homepage You can know the information.

(2) Location information service Notifying other persons other than the user of the identified boarding train and the current travel position (section) of the boarding train. Specifically, (1) in response to an inquiry from a related party of the user registered in advance, or (2) other desired by the user in response to a user operation instruction The mobile phone 300 notifies the person by, for example, sending an e-mail.

(3) Get-off call Notifies that the station where the user wants to get off is approaching. Specifically, the mobile phone 300 notifies the getting-off call based on the operation schedule information, a predetermined time before it arrives at the getting-off station registered in advance by the user. As a notification method, for example, a notification sound is output (alarm), the name of the getting-off station, the time until getting off, etc. are displayed on the display screen.

(4) Transfer guidance Transfer guidance based on the boarding train or current station is performed. In this case, if the mobile phone 300 receives the latest train operation information from the train operation management system 200 and searches for a route or the like based on the latest information, the mobile phone 300 is in a case where the train operation is disturbed. Even if it exists, more accurate transfer guidance can be performed. In addition, for a user, even if the current position is not well known, such as an unfamiliar land, the user can easily know the route to the destination by inputting only the destination.

[Modification]
The application of the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the spirit of the present invention.

(1) Estimated timing In the embodiment described above, after the entrance to the station premises is detected, an on-line train is acquired from the train operation management system 200 every time the base station 120 that can communicate with the mobile phone 300 changes. However, it is also possible to execute this estimation every predetermined time (for example, 1 minute).

(2) Estimating the current position The base station installation position information 220 managed by the train operation management system 200 may be managed by an apparatus or system (external system) other than the mobile phone 300 such as the wireless communication server 100. However, the mobile phone 300 may be managed (stored).

  For example, when the wireless communication server 110 stores the information, the mobile phone 300 transmits a communicable base station number to the wireless communication server 110 every time the communicable base station 120 changes, and The wireless communication server 110 makes an inquiry, refers to the base station installation position information 220, and replies (replies) to the mobile phone 300 with the installation section corresponding to the received base station number as the current position. Then, the mobile phone 300 transmits the received installation section to the train operation management system 200 and inquires about the train in line.

  When the mobile phone 300 stores the mobile phone 300, the mobile phone 300 refers to the base station installation position information 220 and determines that the installation section corresponding to the currently communicable base station 120 is the current position. Then, the current position (installation section) is transmitted to the train operation management system 200 to inquire about the train on the line.

(3) N predetermined times
In the above-described embodiment, the predetermined number N, which is a reference for determining the estimated train as a boarding train, has been described as “3” (see step S15 in FIG. 7). It doesn't matter. That is, as the predetermined number of times N is increased, the train can be identified with higher accuracy. For example, when “I want to identify the position early”, the predetermined number of times N = 1, or when “I want to definitely identify” Can be set as appropriate according to the desired accuracy of identification, such as increasing the predetermined number N to a large number.

(4) Terminal Device Substituting for Mobile Phone 300 In the above-described embodiment, the case where the mobile phone 300 is applied as a mobile terminal device has been described. However, the present invention is not limited to this. For example, the present invention can of course be applied to a portable computer such as a PHS or a PDA having a wireless communication function.

(5) System Substituting for Railway System Further, the train operation management system 200 included in the railway system has been described. However, the operation route of the vehicle is determined in advance, and the position of the vehicle is managed (operation information The same applies to a transportation system (for example, a transportation system related to a bus).

The schematic block diagram of the boarding train identification system in this Embodiment. The figure which shows the data structural example of position registration information. The figure which shows the data structural example of service time information. The figure which shows the data structural example of base station installation position information. The figure which shows the data structural example of movement history information. The figure which shows the data structural example of estimation result information. The flowchart explaining operation | movement of the mobile telephone concerning a boarding train identification process. The state transition figure explaining the identification of a boarding train concretely.

Explanation of symbols

100 wireless communication system 110 wireless communication server 112 location registration information 120 wireless base station (base station)
200 Train Operation Management System 210 Operation Time Information 220 Base Station Installation Position Information 300 Mobile Phone 310 Ride Train Identification Program 320 Identification Information 330 Registration Position Information 340 Movement History Information 350 Estimation Result Information N Communication Line

Claims (5)

The computer in the portable terminal device having a computer and wireless communication means for performing wireless communication using a predetermined wireless communication network,
The wireless communication means is communicatively connected to a first external system having presence estimation area estimation means for estimating the position of the terminal apparatus as a presence estimation area from the communication status in the wireless communication network, and the current presence of the terminal apparatus Presence estimation area information reception control function for controlling to receive information of the estimation area,
A train operation information reception control function for controlling to receive train operation information by connecting to the second external system having train operation information management means for managing train operation information by the wireless communication means;
Based on the information on the existence estimation area received by the reception control of the existence estimation area information reception control function and the train operation information received by the reception control of the train operation information reception control function, the owner of the terminal device Boarding train identification function to identify the boarding train of
A program to realize The computer in the portable terminal device having a computer and wireless communication means for performing wireless communication using a predetermined wireless communication network,
From a communication situation in the wireless communication network by the wireless communication means, a presence estimation area estimation function for estimating the current position of the terminal device as a presence estimation area;
A train operation information reception control function for controlling to receive train operation information by connecting to an external system having train operation information management means for managing train operation information by the wireless communication means;
Based on the presence estimation area estimated by the presence estimation area estimation function and the train operation information received by the reception control of the train operation information reception control function, the boarding train of the owner of the terminal device is identified Boarding train identification function,
A program to realize   The said boarding train identification function includes the verification function which identifies the boarding train of the holder of the said terminal device by repeatedly performing the verification with an existence estimation area and operation information, The said 1 or 2 characterized by the above-mentioned. The program described in. Wireless communication means for performing wireless communication using a predetermined wireless communication network;
The wireless communication means is communicatively connected to a first external system having presence estimation area estimation means for estimating the position of the terminal apparatus as a presence estimation area from the communication status in the wireless communication network, and the current presence of the terminal apparatus Presence estimation area information reception control means for controlling to receive information of the estimation area;
By means of the wireless communication means, a train operation information reception control means for connecting to a second external system having a train operation information management means for managing train operation information and controlling the train operation information to be received;
Based on the information of the existence estimation area received by the reception control of the existence estimation area information reception control means and the train operation information received by the reception control of the train operation information reception control means, the owner of the terminal device Boarding train identification means for identifying the boarding train of
A portable terminal device characterized by comprising: Wireless communication means for performing wireless communication using a predetermined wireless communication network;
From the communication status in the wireless communication network by the wireless communication means, presence estimation area estimation means for estimating the current position of the terminal device as an existence estimation area;
By means of the wireless communication means, the train operation information reception control means for connecting to an external system having train operation information management means for managing train operation information and controlling the train operation information to be received;
Based on the presence estimation area estimated by the presence estimation area estimation means and the train operation information received by the reception control of the train operation information reception control means, the boarding train of the owner of the terminal device is identified Boarding train identification means,
A portable terminal device characterized by comprising:

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