JP3746704B2 - Location search system - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a general-purpose mobile phone having a GPS reception function that can be used to acquire a current position, and a position search system using the mobile phone.
[0002]
[Prior art]
Conventionally, a system that provides a location search service using a dedicated mobile terminal equipped with a GPS function has been put into practical use. The dedicated mobile terminal is set so that the position search application is always operable, unless the user does not want to receive the position search service. When receiving a command from the search center, the dedicated portable terminal automatically acquires the current position and transmits it to the search center. The search center has confirmed the position of the mobile terminal based on the received position information.
Therefore, in principle, the position search system using a dedicated mobile terminal does not need to confirm the intention of the owner when performing a position search.
There is also a position search system that provides a position search service using a general-purpose mobile phone equipped with a GPS function. In a conventional position search system using a general-purpose mobile phone, position search software that is application software for a position search service is stored in advance in the mobile phone. Then, the user selects and activates the position search software from the menu screen of the mobile phone. While the position search software is operating, other applications cannot operate. When a general-purpose mobile phone receives a command from the search center while the position search software is operating, it automatically acquires the current position and transmits it to the search center. At the search center, the current location was confirmed based on location information received from a general-purpose mobile phone.
[0003]
[Problems to be solved by the invention]
However, in the conventional location search service using a dedicated mobile terminal, the user needs to have both a mobile phone and a dedicated mobile terminal, which is physically inconvenient. In particular, in recent years, cellular phones having a GPS function are becoming more popular and increasing inconvenience.
In addition, the dedicated mobile terminal for the location search service uses a mobile phone network for communication with the search center. For this reason, registration as a mobile phone communication terminal is required for both the dedicated mobile terminal and the mobile phone, and the economic burden on the user is large.
On the other hand, a conventional location search system using a general-purpose mobile phone can receive a location search service only by carrying the general-purpose mobile phone. However, in a general-purpose mobile phone, when a call or another application is activated, the location search service application ends. This is because the mobile phone is based on a call, and therefore, when a call operation or a call end operation is performed, all applications are forcibly terminated, and thus the position search application is also terminated.
For this reason, the conventional location search service using a general-purpose mobile phone can be used only when the location search software is operating, that is, when the user performs the startup operation of the location search software and does not start a call or other application. Only. Therefore, the location search service using a general-purpose mobile phone is a service limited to the time when the user recognizes that he / she is actively operating and receiving the service, that is, the user himself / herself is a general-purpose mobile phone. It was limited to the provision of services based on the assumption that the phone could be operated.
However, the location search service needs to search for people who cannot operate general-purpose mobile phones such as elderly people, children, and sudden illness from a remote location. Such a location search service has a problem that it is difficult to realize it using a general-purpose mobile phone on which a user's operation and recognition are premised.
Accordingly, an object of the present invention is to be able to search the position of a general-purpose mobile phone from a search center even when the user cannot operate the general-purpose mobile phone using a general-purpose mobile phone.
[0004]
[Means for Solving the Problems]
[0005]
Or To solve these problems Book The present invention is a position search system that tracks and monitors the position of a mobile phone, and when tracking a mobile phone, a tracking command is issued at each first time interval. Via the mobile phone network While sending to the mobile phone, location information from the mobile phone Via the mobile phone network A position management device that performs tracking monitoring by receiving, a GPS receiving unit that receives a GPS signal from a GPS satellite, It is determined in advance at a second time interval shorter than the first time interval that a GPS signal is received by the GPS receiving unit to acquire the position information and transmit the position information to the position management device via the mobile phone network. A storage unit that stores a plurality of application software including position search software for repeating the specified number of times, and a control unit that forcibly terminates the active application during a call and starts the position search software when a tracking command is received And a mobile phone having A position search system is provided. According to this configuration, when tracking a general-purpose mobile phone, the position search software for the general-purpose mobile phone is forcibly activated at a first time interval that is a relatively long time. Even if a speech operation or the like is mistakenly performed, the position search software is restarted at the first time interval. As a result, even if a general-purpose mobile phone is used, it is possible to reliably trace. In addition, since the transmission of the position information from the general-purpose mobile phone is transmitted at the second time interval shorter than the first time interval, the number of times the tracking command is transmitted from the position management device can be reduced. The second time interval and the number of transmissions may be set in advance in the position search software or may be included in the tracking command.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments to which the present invention is applied will be described in detail with reference to the drawings.
FIG. 1 is an overall system configuration diagram of a position search system to which a mobile phone and a position search system according to the present invention are applied. The position search system includes a mobile phone 1, a location provider company facility 2, a mobile phone company facility 3, a personal computer 6, a GPS satellite 7, a mobile phone network 8, and the Internet 9.
The mobile phone network 8 is provided with a base station 81 that performs transmission / reception of radio signals, converts radio / wired signals, and transmits / receives to / from an exchange network.
The mobile phone company facility 3 is provided with at least an official server 31, a positioning server 32, an SMS server 33, and a content server 34. The mobile phone company equipment 3 is connected to the mobile phone network 8 and is gatewayed to the Internet 9, the location providing company equipment 2, and each server by a gateway server (not shown).
The official server 31 is a server that downloads JAVA application software of various contents used in the mobile phone 1 to the mobile phone 1.
The positioning server 32 calculates the current position of the mobile phone 1 as latitude / longitude position information based on the base station position information of the base station 81 that received the signal of the mobile phone 1 and the GPS signal received by the mobile phone 1. , A server that transmits to the mobile phone 1.
The SMS server 33 is a server that transmits a short message to the mobile phone 1 upon receiving a short message transmission request that is a position search command, a tracking command, or a buzzer command from the location provider company equipment 2. It should be noted that a service identification code for identifying a location search service message is added to the short message used for the location search service. Each command will be described later.
The content server 34 has a function as a Web server for connecting the mobile phone 1 to the Internet 9 and is in charge of displaying menus of contents that can be used on the mobile phone 1 in advance.
Next, the location providing company facility 2 includes a location information management server 21 and a location information provision server 22.
The location information management server 21 has a function of registering the mobile phone 1 that can use the location search service, management such as storing and updating of registered contract information, ID code for identifying the mobile phone 1, and billing management of service usage fee It is a server that performs etc.
The location information providing server 22 is a Web server connected to the Internet 9. When a search request or the like is received from the personal computer 6 via the Internet 9, the location information providing server 22 requests the SMS server 33 to transmit a short message and searches from the SMS server 33. A short message including a command is transmitted to the corresponding mobile phone 1. The location information providing server 22 provides location information to the personal computer 6 via the Internet 9 when receiving location information from the cellular phone 1 via the cellular phone company facility 3. It should be noted that the authentication as to whether or not the access from the personal computer 6 is qualified to receive the location search service is realized by collating the ID or the like with a link with the location information management server 21. The position information providing server 22 is connected with a display and an operation keyboard (not shown) used by a monitor who provides a position search service. When receiving a position search request from the contractor by telephone, the monitor operates the keyboard. The position information of the mobile phone 1 is displayed on the display by the same processing as that performed by the personal computer 6 described above. The monitoring person answers the contractor by telephone with the location information of the mobile phone 1 displayed on the display.
A general content server 5 is connected to the Internet 9. The mobile phone 1 is connected to the Internet 9 via the content server 34 and can access the general content server 5 to receive various paid / free services.
[0007]
Next, the configuration of the mobile phone 1 will be described with reference to FIGS. FIG. 2 is a diagram showing conceptual blocks of the mobile phone 1. The mobile phone 1 receives the GPS signal transmitted from the GPS satellite 7 via the RF unit 101 and the RF unit 101 connected to the antenna that receives radio signals such as GPS signals and various signals with the base station 81. A GPS receiving unit 102, a transmitting / receiving unit 103 that transmits and receives radio signals to and from the base station 81 of the mobile phone network 8 via the RF unit 101, and an operation unit 104 that allows the user of the mobile phone 1 to input various operations. A storage unit 105 including ROM / RAM for storing various applications for controlling the operation of the mobile phone 1, an operation system, user registration data, and the like, and a liquid crystal display for displaying the state of the mobile phone 1 and operation guidance, etc. A display unit 106, a speaker 107 that generates voice call sounds, emergency sounds, and the like, a microphone 108 that collects voice, and power to each unit are provided. And a control unit 100 is a CPU for controlling the battery 109, and they are.
[0008]
FIG. 3 is a diagram schematically illustrating a storage area of the storage unit 105. The storage unit 105 mainly includes an application area A, a user data area B, a system area C, and a work area D.
The application area A stores at least position search software, and also stores content software and application software registered by the user.
The user data area B includes SMS data such as a short message received by the short message service, contact data such as a telephone number of the other party that the user frequently calls in advance, URL information of contents registered by the user, and the like. Stored.
The system area C stores an operating system of the mobile phone 1, a native application that realizes a basic function as a mobile phone, and various setting data such as a telephone number / model number.
In addition, the work area D is an area used when operating various applications and the like.
[0009]
Next, the operation of the mobile phone 1 will be described with reference to FIGS.
First, referring to FIG. 4, the operation of the mobile phone 1 when a call is received will be described. The process in FIG. 4 is a native application process prepared in advance in the system area of the mobile phone 1 as a standard, and is executed by the control unit 100.
When the mobile phone 1 receives a call calling signal from the base station 81 of the mobile phone network 8 via the RF unit 101 at the transmission / reception unit 103, the mobile phone 1 executes the following processing. First, in S401, it is determined whether or not an application is being activated on the mobile phone 1. That is, it is determined whether various applications stored in the application area A shown in FIG. 3 are activated. Here, if it is active, the active application is forcibly terminated (S402), and if it is not active, a ringing tone is emitted from the speaker 107 as it is (S403). Here, the application includes position search software, and the incoming call processing which is the basic function of the mobile phone 1 is given the highest priority. In S404, the user waits for a receiving operation on the operation unit 104, and if there is a receiving operation, a call process is performed (S405). When the call is finished and the user operates the operation unit 104, it is determined again whether or not the application is running (S407). If the application is running, the running application is terminated (S408) and the incoming call process is performed. finish. Here, if there is an end call operation, the application is forcibly ended because the end call operation is defined as an operation to end all processing in the mobile phone 1.
Note that FIG. 4 illustrates an example of an incoming call operation, but the operation of the application is also terminated once in the case of an outgoing call. Also in the case of call transmission, since it is adopted in a general mobile phone 1, description thereof is omitted here.
[0010]
Next, processing of the position search software will be described with reference to FIGS. The position search software is stored in the application area A in the storage unit 105 of the mobile phone 1. The starting conditions for the position search software are that a command to the position search software transmitted from the SMS server 33 has been received, and that the user has performed an emergency operation using the operation unit 104. Note that the processing in FIGS. 5 and 6 is executed by the control unit 100 of the mobile phone 1.
FIG. 5 is a processing flow when the mobile phone 1 receives a short message from the SMS server 33 at the transmitting / receiving unit 103 from the RF unit 101.
In the figure, when receiving a short message, the mobile phone 1 determines whether it is a message for position search software (S501). Since the service identification code is included in the short message, it is determined whether or not the service identification code matches the location search service. If it is a message to the position search software, the position search software is activated (S502). On the other hand, if it is not a message for position search software, the message is recorded as SMS data in the user data area B of the storage unit 105, and a message indicating that the message has been received is displayed on the display unit 106 (S530). Therefore, the position search software starts up the mobile phone 1 without any operation.
When the location search software is activated, the received short message is analyzed. In the present embodiment, there are three types of messages from the SMS server 33 to the position search software: a tracking command, a search command, and a buzzer command.
The tracking command is a command for continuously monitoring the position of the mobile phone 1 by the position information providing server 22. That is, it is used when the location information providing server 22 needs to periodically acquire the location of the cellular phone 1 such as when receiving an emergency signal from the cellular phone 1 or protecting a moving elderly person.
The search command is a command for transmitting the current position of the mobile phone 1 once, such as when the current position of the mobile phone 1 is provided to the user of the personal computer 6.
The buzzer command is a command for causing a buzzer sound from the speaker 107 of the mobile phone 1. That is, it is transmitted when the user is desired to be identified when protecting the user of the mobile phone 1 such as an elderly person.
If it is analyzed in S503 that the tracking command has been received, the counter A that counts the number of transmissions of the position information is set to 0 (S504). Thereafter, the position acquisition process S505 is executed. The position acquisition process 505 receives a GPS signal that the GPS satellite 7 constantly transmits from the GPS receiver 102. The received GPS signal is transmitted from the transmission / reception unit 103 to the positioning server 32 via the mobile phone network 8, and the positional information calculated by performing various corrections by the positioning server 32 is received from the transmission / reception unit 103. . The position acquisition method is not limited to this, and the mobile phone 1 may directly calculate from the GPS signal, or the location information of the base station 81 of the mobile phone network 8 may be obtained from the mobile phone 1 by the positioning server. You may acquire by any methods, such as transmitting to 32.
The acquired location information is transmitted from the transmitting / receiving unit 103 to the location information providing server 22 via the mobile phone network 8 and the mobile phone company facility 3 (S505). Then, the counter A is incremented by 1 (S507). After the 60-second interval (S508), it is determined whether or not the counter A exceeds “9” (S509). When the counter A is “9”, it is determined whether or not the transmission of the position information has been performed nine times after receiving the tracking command. That is, when 9 transmissions are completed, the position search software activated by receiving the tracking command is terminated (S540), and the short message processing is terminated. In the present embodiment, in S509, it is set in advance in the position search software that the transmission is terminated by “9” transmissions. However, the position information providing server 22 adds the number of times to be set to the short message. It may be arbitrarily settable. The tracking command is transmitted from the SMS server 33 once every 10 minutes from the location information providing server 22. As a result, even if the position search software forcibly terminates due to the incoming call processing (S402, S408 in FIG. 4) during the operation of receiving the tracking command, that is, during the processing of S504 to S509, the tracking command is Since the position search software is activated after being transmitted, it is possible to trace what is caused by a slight time delay. Further, by using the counter A, the number of short messages transmitted from the SMS server 33 can be reduced, so that communication traffic can be reduced.
If the search command is analyzed in S503, a position acquisition process (S510) is performed as in S505, and the position information is transmitted to the position information providing server 22 (S511). In step S504, the position search software is terminated and the search command processing is terminated.
If the buzzer command is analyzed in S503, a buzzer sounding process is performed in S520. That is, control is performed such that a buzzer sound is emitted from the speaker 107 for 60 seconds (S521). Thereafter, the process proceeds to S540, where the position search software is terminated, and the process for the buzzer command is terminated.
[0011]
Next, a case where the user of the mobile phone 1 performs an emergency operation will be described. FIG. 6 shows an operation flow when a predetermined emergency operation is performed on the operation unit 104 of the mobile phone 1. The predetermined emergency operation is performed using the limited operation unit 104 of the mobile phone 1, and is performed by pressing a specific button for about 2 seconds and then pressing the same button again.
When an emergency operation is performed, the position search software is activated (S601), and the buzzer is sounded by performing control so as to maximize the volume (S602). By controlling the volume to the maximum, it is possible to inform the surrounding people that an emergency has occurred and to seek some kind of rescue. Next, the position acquisition process is executed (S603) in the same manner as the position acquisition process (S505, 510) in FIG. Then, the emergency signal and the position information are transmitted to the position information providing server 22 (S604). Then, after the buzzer continues to sound for 60 seconds (S605), the position search software is terminated (S606), and the process for the emergency operation is terminated.
[0012]
Next, an operation of accessing general contents provided on the Internet 9 from the mobile phone 1 via the Internet 9 will be described with reference to FIG. FIG. 10 shows a chart up to the access to the general content between the mobile phone 1, the mobile phone company facility 3, and the general content server 5.
In the figure, first, the user operates the operation unit 104 while viewing the display unit 106 of the mobile phone 1 to access the content server 34. At this time, the content server 34 requests an ID for identifying the person in order to confirm whether the access is made by a person who is qualified to receive the Internet service. In the mobile phone 1 that has received the ID request, an ID input screen is displayed on the display unit 104. When the user inputs an ID from the operation unit 104 in accordance with the request screen, the content server 34 authenticates with registered data registered in advance, and displays an authentication result on the mobile phone 1. At this time, if it can be confirmed that the user is a valid user, a menu of available contents is displayed on the display unit 106. Then, the user selects content to be used by the operation unit 104 of the mobile phone 1 and is connected to the general content server 5 from the Internet 9 via the content server 34. Thus, a desired service at the general content server is received. When an application for content to be used is necessary, the content software stored in the application area A in the storage unit 105 of the mobile phone 1 is activated.
On the other hand, if the result is that the user is not a legitimate user, the fact is displayed and the user is prompted to input the ID again.
[0013]
Next, the overall operation of the position search system will be described with reference to FIGS. First, with reference to FIG. 7, the operation of the search requester searching for the current position of the mobile phone 1 from the personal computer 6 will be described.
A contractor of the location search service operates the personal computer 6 and accesses the HP provided by the location information providing server 22 via the Internet 9. Then, in order to authenticate whether the user has the qualification to use the location search service, the location information providing server 22 requests ID input. The contractor inputs the ID according to the display on the personal computer 6. The location information providing server 22 refers to the contractor data registered in the location information management server 21 and performs authentication processing of the input ID. Then, the authentication result is sent to the personal computer 6. If authentication cannot be performed correctly, a display such as requesting an ID again is performed. If the authentication is successful, the contractor inputs a search request from the personal computer. When the search request is received by the location information providing server 22, a search command transmission command is transmitted to the SMS server 33, which is the mobile phone company equipment 3, via the location information management server 21. Here, the search command transmission command is a transmission command to the mobile phone 1 specified at the time of ID authentication for transmitting the search command. The SMS server 33 that has received the command transmits a short message including the search command to the mobile phone 1 that has made a search request from the mobile phone network 8.
The mobile phone 1 that has received the search command executes the short message reception process described with reference to FIG. Specifically, each process of S501, S502, S503, S510, S511, and S540 is executed. When the location information management server 21 receives the location information, the location information management server 21 performs an accounting process or the like. Further, when receiving the position information, the position information providing server 22 provides the position information to the personal computer 6 via the Internet 9. Thereby, the contractor can know the current position of the mobile phone 1, that is, the current position of the owner of the mobile phone 1 at any time using the personal computer 6 that can be connected to the Internet. In this location search, a telephone is used without using the personal computer 6, a telephone contact is made with a supervisor of the location information provider, and if it is confirmed that the user is a contractor, a keyboard input is made to the location information provider server 22. It is also possible to transmit a search command and transmit the position information to be returned on the display.
[0014]
Next, a case where an emergency signal is transmitted from the mobile phone 1 will be described with reference to FIG. When an emergency operation is performed as described with reference to FIG. 6, an emergency signal and position information are transmitted from the mobile phone 1 to the position information management server 21 and the position information providing server 22. When these are received, the location information providing server 21 displays the occurrence of the emergency situation and the location information on the display that the observer is constantly viewing. When the monitor sees this display, he / she takes an emergency response. That is, first, a telephone call for confirming the situation is made to the corresponding mobile phone 1. The monitor responds to the displayed location for ambulance arrangements, etc., according to the situation confirmed by telephone contact. Even if the telephone contact cannot be made, a coordinator is urgently dispatched to the location of the mobile phone 1. At this time, if the monitor determines that a tracking case has occurred, the processing shown in FIG. 8 is performed in parallel.
[0015]
Referring to FIG. 8, in the tracking process, the monitoring person sends a tracking command transmission request to the location information providing server 22. A short message is transmitted from the location information providing server 22 via the location information management server 21. The SMS server 33 transmits a short message including a tracking command to the mobile phone 1.
When the mobile phone 1 receives such a short message, the mobile phone 1 executes the short message reception process described with reference to FIG. That is, each process of S501, S502, S503, S504, S505, S506, S507, S508, S509, and S540 is executed. The tracking command transmission request is transmitted every 10 minutes. By transmitting every 10 minutes, tracking is possible even when the mobile phone 1 is operated to end the call or when there is an incoming call and the position search software is forcibly terminated. The location information management server 21 executes billing processing or the like when receiving an emergency signal or the like.
[0016]
【The invention's effect】
As described above in detail, according to the present invention, the position of the general-purpose mobile phone can be searched from the search center even when the user cannot operate the general-purpose mobile phone using the general-purpose mobile phone.
[Brief description of the drawings]
FIG. 1 is a diagram showing an overall system configuration according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration block of the mobile phone 1 according to the embodiment of the present invention.
FIG. 3 is a diagram showing details of a storage unit 105 of the mobile phone 1 according to the embodiment of the present invention.
FIG. 4 is a diagram showing an operation flow when a call is received by the mobile phone 1 according to the embodiment of the present invention.
FIG. 5 is a diagram showing an operation flow when a short message is received by the mobile phone 1 according to the embodiment of the present invention;
FIG. 6 is a diagram showing an operation flow at the time of an emergency operation of the mobile phone 1 according to the embodiment of the present invention.
FIG. 7 is a diagram showing a search operation chart from a personal computer of the position search system according to the exemplary embodiment of the present invention.
FIG. 8 is a diagram showing an operation chart of the tracking process of the position search system according to the embodiment of the present invention.
FIG. 9 is a diagram illustrating an operation chart during an emergency operation of the position search system according to the embodiment of the present invention.
FIG. 10 is a diagram illustrating a chart of processing for accessing general content using a mobile phone.
[Explanation of symbols]
1 ... mobile phone, 2 ... location provider equipment, 3 ... mobile phone company equipment, 5 ... general content server, 6 ... PC, 7 ... GPS satellite, 8 ... mobile phone network, 9 ... Internet

Claims (1)

A position search system that tracks and monitors the position of a mobile phone,
  When tracking a mobile phone, send a tracking command to the mobile phone via the mobile phone network at the first time interval, and receive location information from the mobile phone via the mobile phone network. A location management device for tracking and monitoring with
  A GPS receiver that receives a GPS signal from a GPS satellite; and the GPS receiver receives the GPS signal to acquire position information, and transmits the position information to the position management device via a mobile phone network. Storing a plurality of application software including position search software for repeating a predetermined number of times at a second time interval shorter than the first time interval, and the application being activated during a call A mobile phone having a control unit that forcibly terminates and activates the position search software upon receiving the tracking command;
  A position search system characterized by comprising

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