JP4377533B2 - User guidance system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a user guidance system that sequentially provides guidance information according to user behavior.
[0002]
[Prior art]
Conventionally, a navigation system is known as a system for providing traffic guidance information and the like to a user.
The navigation system provides traffic guidance information to the user by reading out information corresponding to the user's position from map information stored in advance and displaying the map on the display device.
[0003]
In addition, the navigation system displays the display items (convenience store, gas station, etc.) set by the user on the map displayed on the display device, and provides the information as guidance information to the user.
[0004]
On the other hand, a reservation system in which a user reserves a seat or the like in advance in a transportation facility such as a railway is known.
In this reservation system, the user reserves seats and the like necessary for the journey from the departure point to the destination for each transportation means and route based on his / her travel plan.
Then, in actual movement, the user executes movement based on the movement plan while making his own judgment and execution according to the reserved contents.
[0005]
[Problems to be solved by the invention]
However, the conventional navigation system has the following problems.
Conventional navigation systems cannot provide guidance information continuously and seamlessly from the starting point to the destination. For example, in an automobile navigation system that is currently most actively used, it is possible to provide traffic guidance between a departure point and a destination in a section where the automobile is used. However, when the user uses other transportation facilities, the information terminal is installed in the car. Therefore, the travel guidance cannot be provided in the travel process by transportation other than the car (including walking). Through this, traffic information could not be provided continuously and seamlessly.
[0006]
A portable navigation system in which a user carries an information terminal can receive traffic guidance information from a departure point to a destination. However, portable navigation systems generally use GPS (Global Positioning System) to grasp a user's position and provide guidance information. Therefore, in the basement where identification signals from GPS orbiting satellites cannot be received, in principle, guidance information cannot be provided properly, and traffic guidance information can be provided continuously and seamlessly throughout the entire travel process. could not.
[0007]
In addition, the conventional navigation system provides traffic guidance information to the user based on the information stored in the storage medium. For example, the latest navigation system is used in the case where a new road or a new landmark is constructed. It was difficult to provide information.
[0008]
Furthermore, in the conventional navigation system, the display items displayed on the map are fixed to the display items set by the user unless the setting is changed, so the display items according to the user's request or movement situation Could not be displayed with flexible switching.
[0009]
In addition, in a conventional reservation system, when a user reserves a seat or the like, the user must make a judgment and execute according to the reservation details when actually moving, and guidance according to the reservation details is provided. It wasn't.
[0010]
An object of the present invention is to provide a user guidance system that can provide guidance information continuously from a starting point to a destination, and can provide appropriate guidance information according to the user's behavior, including the execution of reservation contents. Is to realize.
[0011]
[Means for Solving the Problems]
The invention described in claim 1 is a control management apparatus (for example, the control management apparatus 2 in FIG. 1) that manages and provides guidance information for users, including information related to travel and travel, and a user who uses the control management apparatus and information. Communicate Along with sending the position information to the control management device (For example, the portable information terminal 4 in FIG. 1) and a plurality of base stations (for example, the base stations 3-1 to 3 in FIG. 1) installed in various places that relay information communication between the portable information terminal and the control management device. 3-n), including a user guidance system, The control management device creates a travel plan that conforms to the information of a travel creation request that includes at least information of a departure / arrival place transmitted from the portable information terminal or an information terminal connected to the Internet, and the travel plan From the travel management function block for receiving the location information and managing the travel process of the user, and the operation management system of the transportation facility. An operation prediction function block that predicts the subsequent operation status based on the acquired operation status information and information including the time required for recovery in the past operation disturbance. The management function block acquires the operation information from the operation prediction function block, and when the operation is disturbed, the process creation function block Means for requesting re-creation of a travel plan, and the travel function block, when requested to re-create the travel plan, The operation information and the operation prediction information which is the prediction information of the future operation status, a means for determining a travel plan based on the operation information and the operation prediction information, and the recreated travel process Means for transmitting a plan to the portable information terminal and presenting it to the user It is characterized by that.
[0012]
Here, the guidance information related to the journey is, for example, information related directly to the journey such as introduction of station lunches or geographical guidance, in addition to information directly related to the journey such as transfer guidance for transportation facilities and guidance guidance in the station premises. Is meant to include.
[0013]
According to the first aspect of the present invention, since the base station that communicates with the portable information terminal by the carrier wave determined according to the installation location is installed in each place, the user continuously receives the guidance information during the process. It is possible to receive the provision and to realize a highly convenient user guidance system.
[0014]
The invention according to claim 2 is the user guidance system according to claim 1, The process management function block acquires the current position of the user based on position information transmitted from the portable information terminal, and follows the travel process plan created by the process creation function block and selected by the user. A means for determining whether the planned arrival point and the current position match, and if it is determined that the current position does not match the planned arrival point, the travel creation function block is re-examined in the travel creation function block. Means for requesting creation It is characterized by that.
[0016]
The invention described in claim 3 is the user guidance system according to claim 1, The control management device includes a data storage function block for recording user profile information including preference information of a user who owns the portable information terminal, transmitted from the portable information terminal or an information terminal connected to the Internet. The user profile includes preference information indicating whether the user wants to arrive early or wants to sit down, and the process creation function block receives the user profile information from the data storage function block and Create the travel plan so as to satisfy preference information included in the profile information indicating whether you want to arrive early or want to sit down It is characterized by that.
[0020]
Preferably, The control management device needs to be arranged from the travel information (for example, information on departure place, destination, travel route, current position, travel conditions, etc.) transmitted from the portable information terminal or an information terminal connected to the Internet. A unit of a long journey (for example, a railway route, an air mail, etc.) is extracted, and a reservation request is transmitted to a reservation system (for example, the seat reservation system of FIG. 1) You may do .
[0021]
By configuring in this way, Since the control management device transmits the necessary reservation request according to the travel process requested by the user, the user can simply reserve the travel information related to the requested process, and the necessary transportation facilities can be reserved during the process. Yes.
[0022]
Also preferably, When the control management device has previously obtained the travel information, the control management device transmits guidance information based on the travel information to the portable information terminal via the base station. You may do .
[0023]
By configuring in this way, Since the control management device obtains the user's process information in advance, it can reliably provide accurate guidance information to the user even before the user starts moving or while moving. Can be provided. Specifically, for example, it is possible to reliably and accurately provide guidance information such as guidance when a new route is generated due to a schedule revision or event guidance at a destination.
[0024]
Also preferably, The base station includes a base station that uses a weak radio wave as a carrier wave that does not affect medical devices (for example, a cardiac pacemaker) around the installation site. You may do .
[0025]
By configuring in this way, Even in crowded places such as trains, the base station can send guidance information to the portable information terminal, so the user can provide guidance information continuously within the communication area of each base station during the journey. Can receive.
[0026]
Also preferably, When the portable information terminal can communicate with both a base station that uses the weak radio wave as a carrier and a base station that uses the non-weak radio wave as a carrier, it communicates with the base station that uses the non-weak radio wave as a carrier. Limit and communicate preferentially with base stations that use the weak radio wave as a carrier wave You may do .
[0027]
By configuring in this way, Since the portable information terminal preferentially performs communication using weak radio waves, the safety of surrounding medical devices such as cardiac pacemakers is further improved.
[0030]
Also preferably, The control management device transmits a warning signal (for example, a reminder signal or defect information in the embodiment) to the portable information terminal via the base station in accordance with a predetermined matter that occurs during a user's travel. And the said portable information terminal will alert | report the content which the said alert signal shows, or the fact of the said alert signal, when the said alert signal is received You may do .
[0031]
By configuring in this way, The user can be alerted and notified of various matters that occur in the travel process of the user, so that the user can reliably perform the actions (transfer, etc.) required in the travel process. be able to.
[0032]
Also preferably, The predetermined matter is a defect related to movement that occurred during the movement process of the user. You may do .
[0033]
Here, the troubles related to movement are troubles caused by inappropriate behavior on the part of the user such as late arrival, overtaking, and wrong ride in addition to trouble related to traffic when the user moves such as discontinuity or delay of transportation. Is meant to include. By configuring as above, The user can quickly cope with various matters (disconnection, delay, etc.) that occur accidentally during the travel process.
[0034]
Also preferably, The control management device, for each user who owns the portable information terminal or the portable information terminal, the trajectory information related to the journey (passage station, boarded train, seated seat, actual movement including a store visited) Route) You may do .
[0035]
By configuring in this way, Since the trajectory information that has been moved can be recorded for each user or portable information terminal, detailed features relating to the movement of the user or the like can be grasped.
[0036]
Also preferably, The control management device accumulates related information related to the process as history information (trajectory information, purpose of movement, etc.) for each portable information terminal or each user who owns the portable information terminal. You may do .
[0037]
By configuring in this way, It is possible to grasp a wider range of characteristics regarding the movement of users and the like.
[0038]
Also preferably, The control management device analyzes the history information and estimates a user's preference. You may do .
[0039]
By configuring in this way, It is possible to grasp each user's preference.
[0040]
Also preferably, The control management device transmits content according to the preference of the user who owns the portable information terminal to the portable information terminal via the base station based on the history information and / or the process information. Can send Also good configuration .
[0041]
By configuring in this way, Since it is possible to provide advertisement information and related information according to each user's preference, more appropriate information can be effectively provided to each user.
[0042]
Also preferably, The content includes content transmitted from another information source via the control management device. You may do .
[0043]
By configuring in this way, Since information acquired from various information sources other than the user guidance system is provided, a variety of information can be provided.
[0044]
Also preferably, The control management device provides information according to an information request signal received from the portable information terminal via the base station You may do .
[0045]
By configuring in this way, Various information can be provided according to the user's request.
[0050]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a user guidance system according to the present invention will be described below in detail with reference to the drawings.
[0051]
FIG. 1 is a system configuration diagram of a user guidance system 1 to which the present invention is applied.
In FIG. 1, a user guidance system 1 includes a control management device 2, base stations 3-1 to 3-n (n: total number of base stations, hereinafter collectively referred to as base station 3), portable information terminal 4, The anti-train radio communication devices 5a and 5b and the information terminal 6 are included.
[0052]
In FIG. 1, the control management device 2 is connected to the communication network of the user guidance system 1 and the Internet, and is connected to an external system such as a seat reservation system, an operation management system, and a usage fee billing system. The communication network may be a dedicated network or an internetwork. A ground station 5a of a base station and an anti-train radio communication device is connected to the communication network. This anti-train wireless communication device is capable of wireless communication between the ground device 5a and the on-board device 5b installed in the train, and the on-board device 5b includes a plurality of trains in which the inside of each vehicle is a communication area. A base station is connected. Therefore, the user can receive guidance information by using the portable information terminal 4 in the train and communicating with the control management device 2.
[0053]
In addition, when a request for guidance or reservation of various information is transmitted from the portable information terminal 4 or the information terminal 6 connected via the Internet, the control management device 2 acquires it from the stored information or an external system. Based on the information, the predetermined information is transmitted to the portable information terminal 4 or the information terminal 6. This process will be described in detail later with reference to FIGS.
[0054]
Next, the configuration of the base station 3 will be described.
Each base station 3 is provided for a general mobile communication network base station (hereinafter referred to as “base station A”) or a user guidance system 1 such as a mobile phone, PHS (Personal Handy-phone System), or the like. A dedicated base station (hereinafter referred to as “base station B”), which is installed so as to cover as a communication area a place expected to be within the user's range of action, such as in a traffic facility, underground or in a city. . Then, the base station 3 receives various signals transmitted from the portable information terminal 4 in the communication area of the base station, and transmits it to the control management device 2. The base station 3 also transmits various signals transmitted from the control management device 2 to the portable information terminal 4 in the communication area of the base station. That is, the base station 3 relays information communication between the portable information terminal 4 and the control management device 2 in the communication area of the base station.
[0055]
Of the base stations 3, the dedicated base station (base station B) is installed in a crowded place such as in a train or a place where the position of the user needs to be grasped more accurately, and uses weak radio waves. Wireless communication is performed with the portable information terminal 4 by a communication method. The weak radio wave power is such power that does not affect medical devices such as cardiac pacemakers. In addition, the communication method used in the dedicated base station may be based on other communication methods such as infrared communication in addition to the method using weak radio waves.
[0056]
FIG. 2 is a diagram showing a functional block configuration of the entire user guidance system 1.
In FIG. 2, the user guidance system 1 includes a journey creation function block 2a, a travel prediction function block 2b, a journey management function block 2c, a guidance guidance function block 2d, a position detection function block 2e, an information individualization function block 2f, and data storage. -Consists of analysis function block 2g.
[0057]
Further, among these function blocks, the function of the process creation function block 2a, the operation prediction function block 2b, the process management function block 2c, the information individualization function block 2f, and the data storage / analysis function block 2g is the control management device 2 The function of the guidance guidance function block 2d is realized by the portable information terminal 4, and the function of the position detection function block 2e is realized by the base station 3.
[0058]
Next, each functional block will be described with reference to the drawing showing the operation flow of each functional block. In addition, each flowchart shown in FIGS. 5-12 expresses the trigger (for example, reception of a signal) of operation | movement as a starting step of the said operation | movement as it is for the sake of simplicity.
[0059]
First, the process creation function block 2a, the operation prediction function block 2b, the process management function block 2c, the information individualization function block 2f, and the data storage / analysis function block 2g, which are function blocks realized by the control management device 2, will be described. .
[0060]
The process creation function block 2a is a function block that mainly performs the process creation process shown in FIG.
FIG. 5 is a flowchart showing a process data creation process performed when the process creation function block 2a creates process data (see FIG. 16).
In FIG. 5, when the process creation function block 2a receives a process creation request transmitted from the portable information terminal 4 or the information terminal 6 (referred to as the portable information terminal 4 or the like) by the user (step S101), data accumulation / analysis is performed. A “user profile” is received by transmitting a transmission request for the “user profile” for the user to the functional block 2g (step S102).
[0061]
Next, the process creation function block 2a searches for one or more travel process plans that meet the conditions specified in the process creation request, and transmits the travel plan proposed to the portable information terminal 4 or the like (step S103). At this time, from the operation prediction function block 2b, the operation information which is the latest operation status of the transportation system and the operation prediction information which is the prediction information of the future operation status are acquired and comprehensively considered. Above, determine the travel plan. In addition, when there is a travel unit that needs to be reserved in the travel plan, a seat reservation is made by taking an interface with the reservation system.
[0062]
Next, when the selection result for the travel plan proposed by the user transmitted from the portable information terminal 4 or the like is received (step S104), the travel creation function block 2a selects the travel plan that satisfies the user's request in the selection result. It is determined whether it is included (step S105).
[0063]
If it is determined in step S105 that the selection result includes a selection of a travel plan that satisfies the user's request, the process creation function block 2a selects “process data based on the travel process plan selected by the user. And “process data” is transmitted to the process management function block 2c (step S106). In step S103, if a temporary reservation has been made to the reservation system, the temporary reservation is set as the main reservation. Then, the process creation function block 2a ends the process data creation process.
[0064]
If it is determined in step S105 that the selection result does not include the selection of a travel plan that satisfies the user's request, the process creation function block 2a proceeds to step S103 to search for a new travel plan. To do. At this time, if a temporary reservation is made for the reservation system, the temporary reservation is canceled.
[0065]
When the process creation function block 2a receives a process re-creation request from the process management function block 2c (step S107), the process proceeds to step S103, and thereafter the same processing as described above is performed.
[0066]
The process creation request transmitted from the portable information terminal 4 or the like includes a “user ID” that identifies the user who transmitted the process creation request. In the data storage / analysis function block 2g, “user profile” is stored in association with “user ID” for each user. Then, the process creation function block 2a requests the data storage / analysis function block 2g to transmit a "user profile" that matches this "user ID", so that " User profile "is received.
[0067]
The operation prediction function block 2b is a functional block that mainly performs the operation prediction process shown in FIG.
FIG. 6 is a flowchart showing an operation prediction process executed when the operation prediction function block 2b performs operation prediction of each transportation facility.
In FIG. 6, the operation prediction function block 2b acquires the latest operation status information from the operation management system of each transportation facility (step S201).
[0068]
Next, the operation prediction function block 2b predicts the subsequent operation status including the estimation of the recovery time based on the acquired operation status information and the time required for recovery in the past operation disturbance ( Step S202). And operation information and operation prediction information are transmitted to the process creation function block 2a and the process management function block 2c (step S203). Next, the operation prediction function block 2b ends the operation prediction process.
[0069]
The process management function block 2c is a function block that mainly performs a travel process management process related to transmission of defect information and a reminder signal that are alert signals.
[0070]
FIG. 7 is a flowchart showing travel process management processing performed when the travel management function block 2c manages the travel process of the user.
In FIG. 7, when the process management function block 2c receives the process data transmitted from the process creation function block 2a (step S301), the process management function block 2c transmits the process data to the information individualization function block 2f (step S302), and detects the position. The user location information transmitted from the function block 2e is received (step S303).
[0071]
Then, the process management function block 2c sets the current position in the travel process (ascertains the current position in the travel process) based on the process data and the position information, and uses the current position information as the user's trajectory information. The process data is accumulated and stored as needed (step S304).
Next, the process management function block 2c determines whether or not the current position is a position where a reminder signal needs to be transmitted (step S305).
[0072]
In step S305, when it is determined that the current position is a position where a reminder signal needs to be transmitted, the process management function block 2c transmits a reminder signal to the guide guidance function block 2d (step S306).
[0073]
When it is determined in step S305 that the current position is a position that does not require transmission of a reminder signal and after step S306, the process management function block 2c determines whether or not the current position matches the target position, that is, use It is determined whether the person has reached the target position (step S307).
[0074]
If it is determined in step S307 that the current position matches the target position, the process management function block 2c transmits process data to the usage fee billing system and the data storage / analysis function block 2g, and the travel process management process ends.
If it is determined in step S307 that the current position does not match the target position, the process management function block 2c determines whether or not the current position matches the scheduled arrival point in the travel process (step S307). S309).
[0075]
In step S309, when it is determined that the current position matches the planned arrival point, the journey management function block 2c acquires transportation operation information related to the user's travel process from the operation prediction function block 2b (step S309). S310), it is determined whether or not the operation of the transportation facility is disturbed (delay, occurrence of a non-communication section, etc.) (step S311).
[0076]
If it is determined in step S311 that there is no disturbance in the operation of the transportation facility, the process management function block 2c proceeds to step S303.
When it is determined in step S311 that the transportation operation is disturbed and in step S309 it is determined that the current position does not match the planned arrival point, the process management function block 2c The disturbance of the engine or the mismatch between the current position and the planned arrival point is transmitted as “failure information” to the guidance and guidance function block 2d (step S312).
[0077]
Next, the process management function block 2c transmits a process re-creation request to the process creation function block 2a (step S313), and the re-created new process data is stored in the information individualization function block 2f and the data storage / analysis function block 2g. (Step S314). Then, the process management function block 2c proceeds to step S303.
[0078]
The information individualization functional block 2f is a functional block that mainly performs information retrieval processing shown in FIG.
FIG. 8 is a flowchart showing information search processing executed when the information individualization function block 2f searches for various information from various information sources.
In FIG. 8, when the information individualization function block 2f receives an inquiry request from the guidance and guidance function block 2d (step S501), it creates a search request for necessary information related to the inquiry request (step S502). The search request is transmitted to various information sources (step S503).
[0079]
Next, when a search result is received from various information sources such as the Internet (step S504), the information individualization function block 2f edits the received search result in response to an individual inquiry request (step S505), and the edited search. The result is transmitted to the guide guidance function block 2d (step S506), and the information search process is terminated.
[0080]
Even when the information individualization function block 2f receives the search request interrupt signal (step S507), the processing after step S503 is executed. This search request interruption signal is a signal generated internally by the information individualization function block 2f based on the process data acquired from the process management function block (for example, generated at a constant time interval by an internal timer). That is, the search request interrupt signal constitutes a mechanism for automatically searching for and providing information that the user is likely to be interested in without issuing an explicit request.
[0081]
The data storage / analysis functional block 2g is a functional block that mainly performs data storage / analysis processing shown in FIG.
FIG. 9 is a flowchart showing a data accumulation / analysis process executed when the data accumulation / analysis function block 2g receives process data.
In FIG. 9, when the data storage / analysis function block 2g receives the process data from the process management function block 2c (step S601), the data storage / analysis function block 2g stores and stores the received process data as history information in the movement history database (step S602).
[0082]
Next, the data accumulation / analysis function block 2g analyzes the accumulated history information of the user and estimates the user's preference (step S603). Then, the estimation result is reflected in the user profile of the user, and the contents of the user profile are updated (step S604).
Then, the data storage / analysis function block 2g ends the data storage / analysis process.
[0083]
Here, the “user profile” is a “user ID” for identifying a user, a “standard walking speed” indicating a normal walking speed of the user, a restriction specific to the user (disturbance such as vision, can be understood) (Movement restriction condition) indicating the language, literacy level, etc.) and “device ID” identifying the portable information terminal 4 (see FIG. 15).
[0084]
Although not shown, the data storage / analysis function block 2g displays the “user profile” of the user identified by the “user ID” when the “user ID” is transmitted from the process creation function block 2a. It transmits to the process creation function block 2a.
[0085]
Next, the guidance guidance function block 2d that is a function block realized by the portable information terminal 4 will be described.
The guidance guide function block 2d is a functional block that mainly performs the communication system switching process shown in FIG. 10, the inquiry request process shown in FIG. 11, and the reminder signal reception process shown in FIG.
[0086]
FIG. 10 is a flowchart showing a communication system switching process executed when the guidance guide function block 2d (mobile information terminal 4) switches communication with the weak radio wave system and another communication system.
In FIG. 10, when the portable information terminal 4 is turned on (step S701), the guidance guide function block 2d determines whether or not communication with the base station B (weak radio wave system) is possible. (Step S702).
[0087]
If it is determined that communication with the base station B is not possible, an operation as a terminal of another communication system (such as a mobile phone system) is performed (step S703). When it is determined that communication with the base station B is possible, the guidance guidance function block 2d establishes a communication link (line) with the base station B (step S704).
[0088]
Next, the guidance guidance function block 2d suppresses communication by a communication system other than the weak radio wave system (step S705), and performs bidirectional communication with the base station B (step S706).
[0089]
Subsequently, the guidance guidance function block 2d determines whether or not communication with the base station B is still possible (step S707). If it is determined that communication with the base station B is still possible, the guidance guidance function block 2d repeats step S706. When it is determined that communication with the base station B is no longer possible, the guidance and guidance function block 2d cancels suppression of communication by a communication system other than the weak radio wave system (step S708), and performs bidirectional communication with the base station B. Communication is stopped (step S709).
[0090]
Next, the guidance guide function block 2d determines whether or not the end of the communication system switching process has been instructed (step S710). If it is determined that the end of the communication system switching process is not instructed, the process proceeds to step S702. If it is determined that the end of the communication system switching process is instructed, the communication system switching process is ended.
[0091]
FIG. 11 is a flowchart showing inquiry request processing executed when the guidance request function block 2d (mobile information terminal 4) makes an inquiry request from the user.
In FIG. 11, when the guidance guide function block 2d receives an inquiry request from the user via the portable information terminal 4 (step S801), the guidance request function block 2d transmits the received inquiry request to the information individualization function block 2f (step S802).
[0092]
When the guidance information function block 2d receives various types of guidance information in response to the inquiry request from the information individualization block 2f (step S803), the guidance guidance function block 2d notifies the user of the content of the received guidance information (such as a guidance message) (step S804). The inquiry request process is terminated.
[0093]
FIG. 12 is a flowchart showing a reminder signal reception process executed when the guidance guide function block 2d (mobile information terminal 4) receives a reminder signal.
In FIG. 12, when the guidance information function block 2d receives a reminder signal from the process management function block 2c (step S901), the guidance information function block 2d displays a message indicating the content of the reminder signal (contents of transfer guidance, etc.) (step S902).
[0094]
Next, the guidance guide function block 2d generates a warning sound or vibrates the portable information terminal 4 to alert the user (step S903).
Then, the guidance guide function block 2d determines whether or not a confirmation operation has been performed by the user (step S904). If it is determined that the confirmation operation has not been performed, the process proceeds to step S903, where the confirmation operation is performed. If it is determined that it has been broken, the reminder signal reception process is terminated.
[0095]
Next, the position detection function block 2e realized by the base station 3 will be described.
The position detection function block 2e is a functional block that mainly performs the position detection process shown in FIG. 13 and the position information transmission process shown in FIG.
FIG. 13 is a flowchart showing a position detection process executed when the position detection function block 2 e (base station 3) detects the position of the portable information terminal 4.
In FIG. 13, the position detection function block 2e determines whether or not the mobile information terminal 4 capable of communication exists in the communication area of the base station 3 when the power of the base station 3 is turned on (step P101). (Step P102).
[0096]
And when it determines with the portable information terminal 4 which can communicate within the communication area of the said base station, a communication link (line | wire) between the said portable information terminals 4 (henceforth "the portable information terminal X"). Is established (step P103), and the position information of the portable information terminal X is transmitted to the process management function block 2c (control management apparatus 2) (step P104).
[0097]
When it is determined in step P102 that there is no portable information terminal 4 capable of communication in the communication area of the base station and after step P104, the position detection function block 2e It is determined whether X has left (step P105).
[0098]
If it is determined that the mobile information terminal X has not left the communication area of the base station, the position detection function block 2e proceeds to Step P102, and the mobile information terminal X is transferred from the communication area of the base station. If it is determined that the user has left, the position detection function block 2e transmits to the process management function block 2c that the mobile information terminal X has left the communication area of the base station (step P106).
[0099]
Next, the position detection function block 2e determines whether or not the end of the position detection process has been instructed (step P107). If it is determined that the end of the position detection process has not been instructed, the process proceeds to step P102. If it is determined that the end of the position detection process has been instructed, the position detection process ends.
[0100]
FIG. 14 is a flowchart showing a position information transmission process executed when the position detection function block 2e transmits the position information of the portable information terminal 4 in response to a request from the process management function block 2c.
In FIG. 14, the position detection function block 2e acquires information on the position of the mobile information terminal 4 from all available information sources (PHS system, mobile phone system, weak radio wave system, GPS, etc.) (step P201). Position information relating to the portable information terminal 4 is created (step P202).
[0101]
Next, the position detection function block 2e determines whether it is necessary to transmit position information from the process management function block 2c (step P203).
And when it determines with the transmission of a positional information required, the positional information on the said portable information terminal 4 is transmitted to the process management function block 2c (step P204).
[0102]
When it is determined in step P203 that transmission of position information is not necessary from the process management function block 2c and after step P204, the position detection function block 2e is a signal instructing suppression of communication from a weak radio wave system to a mobile phone system or the like. (Hereinafter referred to as “suppression signal”) is determined (step P205).
[0103]
If it is determined in step P205 that the suppression signal is transmitted from the weak radio wave system, the position detection function block 2e instructs the mobile phone system or the like to restrict communication in the mobile phone system or the like of the mobile information terminal 4 ( (Offline instruction) is transmitted (step P206).
[0104]
Here, the suppression signal and the offline instruction will be specifically described.
The suppression signal is a signal transmitted to the position detection function block 2e transmitted from the weak radio wave system, and the signal transmitted from the position detection function block 2e (base station B) to the portable information terminal 4 is an offline instruction. It is. Therefore, when the mobile information terminal 4 enters the communication area of a base station (base station B) that performs communication using weak radio waves, the base station B instructs the mobile information terminal 4 to restrict communication using a mobile phone system or the like. A signal (offline instruction) is transmitted.
[0105]
In Step P205, when it is determined that the suppression signal is not transmitted and after Step P206, the position detection function block 2e determines whether or not the end of the position information transmission process is instructed (Step P207). .
When it is determined that the end of the position information transmission process is not instructed, the position detection function block 2e proceeds to Step P201, and when it is determined that the end of the position information transmission process is instructed, the position detection function block 2e. Ends the position information transmission process.
[0106]
In addition, although each function of the functional block realized by the control management device 2 has been described as having a plurality of functional blocks combined in a single processing device, each function is dedicated to a dedicated processing device (such as a server). ).
[0107]
Next, the internal configurations of the base station 3 and the portable information terminal 4 that implement the present invention will be described.
FIG. 3 is a schematic diagram showing the internal configuration of the base station 3.
In FIG. 3, the control unit 3a performs predetermined processing on various types of information such as position information, process creation request, and inquiry request received from the portable information terminal 4 via the communication unit 3b (for example, protocol conversion). Etc.) and transmitted to the control management device 2 connected by a predetermined communication line via the communication unit 3b. In addition, the control unit 3a performs predetermined processing on various information such as a travel plan, various guidance information, a reminder signal, and defect information received from the control management device 2 through the communication unit 3b, and is carried through the communication unit 3b. It transmits to the information terminal 4.
[0108]
The communication unit 3b is configured to be able to communicate with the portable information terminal 4 through a wireless communication line, and to be able to communicate with the control management device 2 via the communication network of the user guidance system 1. And the communication part 3b receives various information, such as a positional infomation, the process creation request | requirement, and an inquiry request | requirement transmitted from the portable information terminal 4 via the wireless communication line, and outputs it to the control part 3a. In addition, the communication unit 3b transmits various information such as a travel plan, various guidance information, a reminder signal, and defect information input from the control unit 3a to the portable information terminal 4 through a wireless communication line.
Furthermore, the communication unit 3b transmits various information such as position information, a process creation request, and an inquiry request input from the control unit 3a to the control management device 2 via the communication network. Moreover, the communication part 3b receives various information, such as a travel plan proposal, various guidance information, a reminder signal, and defect information transmitted from the control management apparatus 2 via the communication network, and makes the main part to the control part 3a.
[0109]
The portable information terminal 4 is carried by the user and transmits various information such as a guidance request and a process creation request input by the user to the base station 3 having the current position of the portable information terminal 4 as a communication area. In addition, the portable information terminal 4 periodically transmits information (position information) related to its own location to the control management device 2 via a predetermined base station 3. However, when the base station 3 constantly monitors and grasps the position of the portable information terminal 4, it goes without saying that the portable information terminal 4 does not need to transmit position information spontaneously.
[0110]
In addition, when the portable information terminal 4 is located in an area where the communication areas of the base station A (base station of a general mobile communication network) and the base station B (dedicated base station) overlap, the portable information terminal 4 Communication with the base station B is preferentially performed according to an instruction from the management apparatus 2. Specifically, priority is given to the base station B by stopping transmission of radio waves used for communication with the base station A or by reducing the transmission power to such an extent that it does not affect a medical device such as a cardiac pacemaker. Real communication.
[0111]
Further, the portable information terminal 4 receives various information such as guidance information and a schedule plan transmitted from the control management device 2 via the base station 3 and displays them on the display unit 4b. Further, when a reminder signal or defect information is received from the control management device 2 via the base station 3, the portable information terminal 4 displays the content indicated by the reminder signal or defect information on the display unit 4b, and also generates a warning sound or vibration. Alerts the user by generating
[0112]
Here, the internal configuration of the portable information terminal 4 will be described with reference to FIG.
The portable information terminal 4 is realized as a device such as a PDA (Personal Digital Assistant) or a mobile phone.
FIG. 4 is a block diagram showing the internal configuration of the portable information terminal 4.
[0113]
In FIG. 4, the control unit 4a realizes various functions of the portable information terminal 4 by reading and executing various control programs of the portable information terminal 4 stored in the storage unit 4e. In addition, when the communication unit 4d receives a weak radio wave and other radio waves, the control unit 4a stops transmission of radio waves other than the weak radio waves according to a suppression instruction transmitted from the base station B of the weak radio wave system, Reduce transmission power below a certain level and give priority to communications using weak radio waves.
[0114]
When the control unit 4a receives a reminder signal via the communication unit 4d, the control unit 4a displays a message on the display unit 4b and outputs a warning sound from the audio output unit 4f based on the content of the reminder signal, or The portable information terminal 4 is vibrated by a vibration generating unit (not shown) to alert the user.
[0115]
The display unit 4b displays necessary information when the control unit 4a executes various control programs. In addition to various information transmitted from the control management device 2 such as guidance information, a schedule plan, and defect information, Various information provided in the user guidance system 1 is displayed. Further, the display unit 4b displays the contents (contents of alerting) indicated by the reminder signal transmitted from the control management device 2.
[0116]
The input unit 4c includes character keys, numeric keys, and the like, and outputs an operation signal corresponding to the operated key to the control unit 4a.
[0117]
The communication unit 4d includes both radio waves used for base stations (base station A) such as general mobile phone systems and weak radio waves used for communication with the dedicated base station (base station B) of the user guidance system 1. Transmission / reception is possible. Further, when the communication unit 4d can communicate with both radio waves, the control unit 4a is instructed to preferentially perform communication with weak radio waves. At this time, as described above, the communication unit 4d stops the transmission of the radio wave of the mobile phone system or reduces the radio wave transmission power of the mobile phone system to a certain level or less, thereby realizing the communication by the weak radio wave. .
[0118]
The storage unit 4e stores various control programs executed by the control unit 4a and various data related to these programs.
[0119]
The audio output unit 4f functions as a speaker for a call when the portable information terminal 4 is used as a mobile phone or the like. When the portable information terminal 4 receives various types of guidance information from the control management device 2, the voice output unit 4f appropriately outputs voice guidance corresponding to the guidance information and the like, and the portable information terminal 4 When the reminder signal is received, the sound output unit 4f appropriately outputs a warning sound or the like.
[0120]
The voice input unit 4g functions as a microphone for a call when the portable information terminal 4 is used as a mobile phone or the like.
[0121]
As described above, the user guidance system 1 according to the present embodiment combines guidance information and the like with the portable information terminal 4 carried by the user by combining a general mobile phone system and the weak radio wave system dedicated to the user guidance system 1. Provide various information.
[0122]
Therefore, it is possible to provide guidance information continuously from the departure point to the destination without being restricted by the means of transportation used, the place where the user is moving, and the like.
[0123]
In addition, the user guidance system 1 in the present embodiment accumulates and stores information related to user movement. Therefore, user's preference etc. can be analyzed and information tailored to each user can be provided, so that convenience for the user is improved. Further, by transmitting advertisement information that matches each user's preference, it is possible to effectively promote and advertise.
[0124]
Furthermore, the user guidance system 1 in this Embodiment provides guidance information sequentially so that the content of the said reservation may be performed, when the user's process includes the reservation of a transportation system. Therefore, the user does not have to judge and execute the reservation content by himself / herself, and can easily execute the reservation content.
[0125]
In the present embodiment, when the portable information terminal 4 becomes communicable by a weak radio wave and a radio wave other than the weak radio wave, the portable information terminal 4 communicates other than the weak radio wave system according to an instruction from the position detection function block 2e. Although described as suppressing communication by the system, the portable information terminal 4 may automatically preferentially perform communication by the weak radio wave system when communication is possible by radio waves other than weak radio waves and weak radio waves. .
[0126]
Specifically, as described with reference to FIG. 10, it is determined whether or not the portable information terminal 4 can communicate with the base station B, and if possible, communication by the weak radio wave system is preferentially performed. In other words, as described with reference to FIG. 14, the portable information terminal 4 preferentially performs communication using the weak radio wave system based on the offline signal transmitted from the position detection function block 2e (base station B). It can be realized by such a method.
[0127]
Moreover, in this Embodiment, when a user moves a process and passes a ticket gate, such as a station, the user guidance system 1 detects that the user who carried the portable information terminal 4 passed the ticket gate. The usage fee may be charged based on the detected information. In this case, if the user guidance system 1 and the ticket gate system are connected and a passenger who does not carry the portable information terminal 4 of the user guidance system 1 tries to pass the ticket gate, the gate of the ticket gate is It may be closed.
[0128]
In addition, the portable information terminal 4 according to the present embodiment is provided with a vibration unit that indicates a traveling direction, and guides a user with visual impairment or the like by moving in the direction of the vibration unit that vibrates when a predetermined position is held It is good also as a structure which can be guided.
[0129]
【The invention's effect】
According to the present invention, since base stations that communicate with portable information terminals by carrier waves determined according to installation locations are installed in various places, it is possible to continuously provide seamless guidance information during a user's process. It can be carried out. In addition, it is possible to provide appropriate guidance information according to the user's process and profile.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a user guidance system 1. FIG.
FIG. 2 is a diagram showing a functional block configuration of the entire user guidance system 1;
3 is a schematic diagram showing an internal configuration of a base station 3. FIG.
4 is a block diagram showing an internal configuration of a portable information terminal 4. FIG.
FIG. 5 is a flowchart showing a process data creation process performed when the process creation function block 2a creates process data.
FIG. 6 is a flowchart showing operation prediction processing executed when the operation prediction function block 2b performs operation prediction of each transportation facility.
FIG. 7 is a flowchart showing travel process management processing performed when the travel management function block 2c manages a travel process of a user.
FIG. 8 is a flowchart showing an information search process executed when the information individualization function block 2f searches for various information from various information sources.
FIG. 9 is a flowchart showing a data storage / analysis process executed when the data storage / analysis function block 2g receives process data.
FIG. 10 is a flowchart showing a communication system switching process executed when the guidance guide function block 2d (portable information terminal 4) switches communication with the weak radio wave system and another communication system.
FIG. 11 is a flowchart showing an inquiry request process executed when an inquiry request is made from a user by the guidance guide function block 2d (portable information terminal 4).
FIG. 12 is a flowchart showing a reminder signal reception process executed when the guidance guide function block 2d (mobile information terminal 4) receives a reminder signal.
13 is a flowchart showing a position detection process executed when the position detection function block 2e (base station 3) detects the position of the portable information terminal 4. FIG.
FIG. 14 is a flowchart showing a position information transmission process executed when the position detection function block 2e transmits the position information of the portable information terminal 4 in response to a request from the process management function block 2c.
FIG. 15 is a diagram showing the contents of a user profile.
FIG. 16 is a diagram showing the contents of process data.
[Explanation of symbols]
1 User guidance system
2 Control management device
3 base stations
3a Control unit
3b Communication Department
4 Mobile information terminals
4a Control unit
4b Display section
4c input section
4d communication section
4e storage unit
4f Audio output part
4g voice input part
5. Train-to-train wireless communication device
5a Ground equipment
5b On-vehicle equipment
6 Information terminals

Claims (3)

A control management device that manages and provides guidance information for users, including information on travel and travel;
A portable information terminal that the user transmits the positional information performs the control management device and the information communicated to the control management unit,
A user guidance system including a plurality of base stations installed in various locations that relay information communication between the portable information terminal and the control management device,
The control management device includes:
Creating a travel plan that matches the information of the travel creation request that includes at least the information of the arrival / departure location transmitted from the portable information terminal or the information terminal connected to the Internet, and sending the travel plan to the portable information terminal A process creation function block that is transmitted and presented to the user;
A process management function block for receiving the position information and managing a user's travel process;
Operation prediction that obtains the latest operation status information from the transportation operation management system and predicts the subsequent operation status based on the acquired operation status information and information including the time required for recovery in the past operation disturbance Functional blocks,
With
The process management function block is:
When the operation information is obtained from the operation prediction function block and there is a disturbance in operation, the operation creation function block has means for requesting the recreation of the travel process plan,
The process creation function block
When a request for re-creating the travel plan is made, obtain operation information that is the latest operation status of the transportation facility from the operation prediction function block, and operation prediction information that is prediction information of the future operation status, Means for determining a travel plan based on these operation information and operation prediction information;
Means for transmitting the recreated travel plan to the portable information terminal and presenting it to the user;
The user guidance system which is characterized in that it has a. The process management function block is:
The current location of the user is acquired based on the location information transmitted from the portable information terminal, the planned arrival point according to the travel plan proposed by the travel creation function block and selected by the user, and the current Means for determining whether the position matches,
Means for requesting the travel creation function block to recreate a travel plan when it is determined that the current position does not match the planned arrival point;
The user guidance system according to claim 1, further comprising: The control management device includes:
A data storage function block for recording user profile information including preference information of a user who owns the portable information terminal, transmitted from the portable information terminal or an information terminal connected to the Internet,
The user profile includes preference information indicating whether you want to arrive early or want to sit down,
The travel creation function block receives the user profile information from the data storage function block, and satisfies the preference information indicating whether the user profile information is intended to arrive early or want to sit. The user guidance system according to claim 1, wherein a plan is created.

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