JP2021100226A - Location information integrating system - Google Patents

Abstract

To provide a location information integrating system capable of location information notification with a little consumption of a terminal battery by reducing an amount of transmission communication.SOLUTION: The location information integrating system communicates by a data communication exclusive SIM, and includes: location information acquisition means for acquiring, from the outside, source information related to a location where the location information integrating system is located; location calculation means for calculating a current location where the location information integrating system is located from the source information acquired by the location information acquisition means; and location notification means for notifying a location information receiver of the current location calculated by the location calculation means.SELECTED DRAWING: Figure 3

Description

The present invention relates to a small mobile communication terminal, which is a location information integrated system that notifies other terminals of the position where the mobile communication terminal exists.

In the conventional location information notification system, the original information about the location where the mobile communication terminal exists is transmitted to the server (generally managed by the carrier), the server calculates the location information, and notifies the location information receiving device. It was. (See Patent Document 1)

Japanese Unexamined Patent Publication No. 2008-125087

In general, the battery consumption of a mobile communication terminal largely depends on the amount of communication to be transmitted. Then, when the original information regarding the position of the mobile communication terminal is communicated, the amount of communication is increased, and therefore the consumption of the terminal battery is also increased. In addition, a terminal having a voice call SIM (Subscriber Identity Module), in principle, always maintains a communication connection state with a base station, and the terminal battery is also consumed significantly. Furthermore, there are various methods for detecting the position of the mobile communication terminal, and when the original information of each is communicated, the amount of communication increases many times, and therefore the consumption of the terminal battery also increases.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a position information integrated system capable of reducing the amount of transmitted communication and reducing the consumption of the terminal battery.

The location information integration system of the present invention is a location information integration system that communicates by a SIM dedicated to data communication, and is a location information acquisition means that acquires original information about the location where the location information integration system exists from the outside, and the location information. The position calculation means for calculating the current position where the position information integrated system exists from the original information acquired by the acquisition means, and the position notification means for notifying the position information receiving device of the current position calculated by the position calculation means. It is characterized by being prepared.

Further, since the current position is in a carrier-independent format, it is possible to notify the position information by carrier-independent communication, that is, communication that is not restricted by the carrier.
Further, since the carrier-independent format is an e-mail, simple and highly reliable location information notification can be performed.

It is possible to provide a location information integrated system capable of transmitting location information notification by reducing the amount of transmission communication and reducing the consumption of the terminal battery.

It is a block diagram which shows the structure of the position information integrated system which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the location information integrated system which has a network address in Embodiment 1. FIG. It is a block diagram explaining the function of the location information integration system 102 which has a network address in Embodiment 1. FIG. It is a sequence diagram explaining the method of notifying the position information assuming indoor use in Embodiment 2 of this invention. It is a sequence diagram explaining the method of notifying the position information assuming outdoor use in Embodiment 3 of this invention. It is a sequence diagram explaining the method of notifying the position information assuming the direct connection between the position information integrated system and the position information receiving device in Embodiment 4 of this invention.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings. 1 to 6 are diagrams illustrating embodiments of the present invention, in which the parts with the same reference numerals represent the same objects, and the basic configuration and operation are the same. ..

Embodiment 1

FIG. 1 is a block diagram showing a configuration of a location information integrated system according to a first embodiment of the present invention. In FIG. 1, the position information integration system 102 communicates with GPS satellite 103, mobile base station 104, and short-range communication access point 105, acquires original information about the position from each device, and communicates with the common server 101 by network communication. It is a device that notifies the current position to.
As the short-range communication access point, for example, W-LAN or an access point such as BLE, Zigbee, or 920 MHz can be used.

When the common server 101 receives the location information from the location information integration system 102, the common server 101 notifies the location information receiving device 106 of the received location information.
The position information receiving device 106 can use, for example, a smartphone, a tablet, a PC, or the like.
That is, by using the position information integrated system 102, the acquired position information can be notified to the position information receiving device 106.

The position information integration system 102 is a device that can automatically calculate in the position information integration system 102 based on the position information from the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105.
Further, it is not impossible to calculate unless all the position information of the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105 are prepared.

That is, it can be calculated with the position information from one or more devices. (GPS satellite 103, mobile base station 104, and short-range communication access point 105 can be freely combined.)

In the conventional system, the location information is calculated on the common server 101. However, in this system, it is not necessary to limit the common server 101 to a specific server (generally managed by a carrier) that can calculate the location information by calculating in the location information integration system 102. For example, location information can be notified via a general server such as an e-mail server or a short message server.

The location information integration system 102 and the common server 101 can be connected via mobile communication, a router, or the like.
FIG. 2 is a block diagram showing a configuration of a location information integrated system 102 having a network address in the first embodiment.

In the position information integrated system 102 shown in FIG. 2, the wireless network control unit 203 is a circuit connected to GPS satellite 103, mobile base station 104, and short-range communication access point 105, and transmits / receives data and the like according to various protocols. The wireless control unit 212 is a circuit capable of connecting to the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105 by the communication control unit 213, and establishing a communication path by the communication procedure corresponding to each. is there.

Further, the wireless network control unit 203 and the wireless control unit 212 are preferably a circuit that includes a SIM dedicated to data communication and transmits / receives data or the like according to various protocols via mobile communication or a router. The wireless control unit 212 is a circuit that can be connected to a mobile communication or a router and can establish a communication path by a communication procedure corresponding to each.

Further, the CPU 211 is a circuit that executes an operation system (not shown) or a control program 202 stored in a hard disk drive device (hereinafter, referred to as “HDD”) 201, and performs various processes and controls of each part according to those programs. is there.

Further, the HDD 201 is a device that stores a control program 202 that describes various processes in the position information integrated system 102 and control of each part. The functions described in the control program 202 will be described later.
The ROM 208 is a non-volatile memory circuit that stores data and programs required at startup.

Further, the RAM 209 is a memory circuit that temporarily stores the programs and data when the CPU 211 executes various programs. In the RAM 209, after the position information integration system 102 is activated, the positions from one or more GPS satellites 103, the mobile base station 104, and the short-range communication access point 105 acquired last time by the position information integration system 102. The location information management 210 in which the information is registered is stored. However, the location information management 210 may be stored not only in the RAM 209 but also in the HDD 201 or other storage medium.

The database 207 is a device that stores the authentication numbers and authentication codes of the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105 that can be connected to the location information integration system 102.

Further, it is a device that stores an authentication number and an authentication code for connecting the location information integration system 102 and the common server 101 via mobile communication or a router.
By executing the control program 202 by the CPU 211, a control unit having various functions is realized.

FIG. 3 is a block diagram illustrating the function of the location information integration system 102 having a network address in the first embodiment. The position information integration system 102 includes a network communication unit 301, a position information acquisition unit 302, a position information calculation unit 303, and a result output unit 304. The network communication unit 301 transmits / receives data related to the connection and the like. When the position information acquisition unit 302 is supplied with the original information regarding the position of the position information integration system 102 via the network communication unit 301, the position information acquisition unit 302 stores it in the position information management 210. The position information calculation unit 303 calculates the current position of the position information integrated system 102 from the original information regarding the position acquired from the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105 in the position information management 210. The result output unit 304 notifies the position information receiving device of the information regarding the current position calculated by the position information calculation unit 303 via the network communication unit 301.

Next, the operation of each device in the above system will be described. That is, one embodiment of the communication path establishment method of the present invention will be described. The processing after the activation of the network communication unit 301 and the processing when the short-range communication access point 105 is connected to the network communication unit 301 will be described.

Embodiment 2

FIG. 4 shows, as an example assuming indoor use in the second embodiment of the present invention, between a location information integrated system 102 having a network address, a short-range communication access point 105, a common server 101, and a location information receiving device 106. It is a sequence diagram explaining the method of establishing a communication path and notifying the acquired position information according to the procedure of conforming with an international standard.

First, when the position information integration system 102 is activated, it waits for connection with the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105. After activation, a communication route is established from the short-range communication access point 105, the mobile base station 104, and the GPS satellite 103 with one or more according to the connection procedure.

First, the location information receiving device 106 transmits the location information request S401 to the common server 101. The location information request S401 describes the request in a text such as an e-mail or a short message by using the e-mail address of the location information integration system 102 having a network address or a telephone number used for a short message or the like. It can be carried out. When the common server 101 receives the location information request S401, it transmits the location information request S402 to the location information integration system 102. When the location information integration system 102 receives the location information request S402, it establishes a communication route with the short-range communication access point 105 according to a procedure conforming to international standards.

First, the process of connecting the location information integration system 102 to the short-range communication access point 105, acquiring the location information, and notifying the location information receiving device 106 via the common server 101 will be described. The short-range communication access point 105 can be connected to a W-LAN or an access point such as BLE, Zigbee, or 920 MHz, and can acquire location information from any one or more devices.

First, the process when the location information integration system 102 is connected to the short-range communication access point 105 will be described. When the location information integration system 102 receives the location information request S402 transmitted from the common server 101, the short-range communication control unit 206 transmits the location information request S403 to the short-range communication access point 105. Upon receiving the location information request S403, the short-range communication access point 105 transmits the location information data S404 to the location information integration system 102. The position information data S404 refers to information such as latitude / longitude, time information, and access point information that can specify the position. The position information integration system 102 receives the position information data S404 transmitted from the short-range communication access point 105 from the short-range communication control unit 206. When the position information integration system 102 receives the position information data S404, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210, and based on the received position information data, the current position information integration system 102 The position is calculated (position information calculation process S405). If it can be calculated from the position information data S404, it is determined that the position information is indoors. At that time, the CPU 211 that executes the control program 202 registers the acquired position information in the position information management 210 and the information information acquired in the position information data S404 in the database 207. Then, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212, and the location information notification S406 is transmitted to the common server 101. The location information notification S406 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message, etc., to describe the request in the text of the e-mail, the short message, or the like. It can be carried out. When the common server 101 receives the location information notification S406, it transmits the location information notification S407 to the location information receiving device 106.

Further, when the position information request S401 from the position information receiving device 106 conveys the continuous position information request, the position information continuous notification S450 is performed.
Even if the location information integration system 102 does not receive the location information request S401 from the location information receiving device 106 via the common server 101, the location information continuous notification S450 is performed by starting from the location information integration system 102. Can be done.

Next, when the position information continuous notification S450 is stopped, the position information request stop S409 is transmitted from the position information receiving device 106 to the common server 101. The location information request stop S409 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message to describe the request in the text of the e-mail or short message. Can be done. When the common server 101 receives the location information request stop S409, it transmits the location information request stop S410 to the location information integration system 102. When the location information integration system 102 receives the location information request stop S410, the CPU 211 that executes the control program 202 refers to the database 207 and the location information management 210, and positions from all the devices that can be acquired from the short-range communication access point 105. Stop getting information. In the position information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212 to stop the transmission of the position information notification S406 to the common server 101.

Next, the operation of each device in the above system will be described. That is, one embodiment of the communication path establishment method of the present invention will be described. The processing after the activation of the network communication unit 301 and the processing when the GPS satellite 103 and the mobile base station 104 are connected to the network communication unit 301 when receiving the position information will be described.

Embodiment 3

FIG. 5 shows, as an example assuming outdoor use in the third embodiment of the present invention, a position information integrated system 102 having a network address, a GPS satellite 103, a mobile base station 104, a common server 101, and a position information receiving device 106. It is a sequence diagram explaining the method of establishing a communication path and notifying the acquired position information according to the procedure of conforming with the international standard.

First, when the position information integration system 102 is activated, it waits for connection with the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105. After activation, a communication route is established from the short-range communication access point 105, the mobile base station 104, and the GPS satellite 103 with one or more according to the connection procedure.

First, the location information receiving device 106 transmits the location information request S501 to the common server 101. The location information request S501 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message, etc., to describe the request in the text of the e-mail, the short message, or the like. It can be carried out. When the common server 101 receives the location information request S501, it transmits the location information request S502 to the location information integration system 102. When the location information integration system 102 receives the location information request S502, it establishes a communication route with the short-range communication access point 105 according to a procedure conforming to international standards.

First, the location information integration system 102 cannot connect to the short-range communication access point 105, connects to either the GPS satellite 103 or the mobile base station 104, acquires the location information, and performs the location information via the common server 101. The process up to notifying the receiving device 106 will be described. The short-range communication access point 105 can use an access point such as W-LAN or BLE, Zigbee, or 920 MHz, and can acquire location information from any one or more devices. It is not possible in this embodiment.
Further, it is possible to connect to either the GPS satellite 103 or the mobile base station 104, and to acquire the position information from any one or more devices.

First, a process when the location information integration system 102 attempts to connect to the short-range communication access point 105 will be described. When the position information integration system 102 receives the position information request S502 transmitted from the common server 101, the short-range communication control unit 206 transmits the position information request S503 to the short-range communication access point 105. Further, the CPU 211 that executes the control program 202 when transmitting to the position information receiving device 106 sets the connection timer T550 with reference to the database 207 and the position information management 210.

Next, if the location information integration system 102 cannot receive the location information data from the short-range communication access point 105 for a certain period of time, the location information integration system 102 considers it to be out of service from the short-range communication access point 105. That is, it is determined that it is outdoors.

When the CPU 211 that executes the control program 202 detects the short-range cycle timeout S510, the position information integration system 102 refers to the database 207 and the position information management 210, and the mobile communication control unit 204 requests the position information S504. It is transmitted to the mobile base station 104. Upon receiving the position information request S504, the mobile base station 104 transmits the position information data S505 to the position information integration system 102. The position information integration system 102 receives the position information data S505 transmitted from the mobile base station 104 from the mobile communication control unit 204.

Next, in the position information integration system 102, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210, and the GPS communication control unit 205 receives the position information data S506 from the GPS satellite 103. .. The position information data S505 and the position information data S506 refer to information such as latitude / longitude, time information, and access point information that can specify the position.

When the position information integration system 102 receives the position information data S505 and the position information data S506, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210 and integrates the position information from the received position information data. The current position of the system 102 is calculated (position information calculation process S507). At that time, the CPU 211 that executes the control program 202 registers the acquired position information in the position information management 210, the position information request S504, and the position information data S505 in the database 207. Then, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212, and the location information notification S508 is transmitted to the common server 101. The location information notification S508 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message, etc., to describe the request in the text of the e-mail, the short message, or the like. It can be carried out. When the common server 101 receives the location information notification S508, it transmits the location information notification S509 to the location information receiving device 106.

Further, when the position information request S501 from the position information receiving device 106 conveys the continuous position information request, the position information continuous notification S513 is performed. Even if the location information integration system 102 does not receive the location information request S501 from the location information receiving device 106 via the common server 101, the location information continuous notification S513 is performed by starting from the location information integration system 102. Can be done.
Next, when the position information continuous notification S513 is stopped, the position information request stop S514 is transmitted from the position information receiving device 106 to the common server 101.

The location information request stop S514 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message to describe the request in the text of the e-mail or short message. Can be done. When the common server 101 receives the location information request stop S514, it transmits the location information request stop S515 to the location information integration system 102. When the position information integration system 102 receives the position information request stop S515, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210, and the short-range communication control unit 206 uses the short-range communication access point 105. The acquisition of position information is stopped from all the devices that can be acquired from, and the acquisition of position information is stopped from all the devices that can acquire the position information by the mobile communication control unit 204 and the GPS communication control unit 205. Further, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212 to stop the transmission of the location information notification S508 to the common server 101.

Next, the operation of each device in the above system will be described. That is, one embodiment of the communication path establishment method of the present invention will be described. The GPS satellite 103, the mobile base station 104, the short-range communication access point 105, and the position information receiving device 106 are connected to the network communication unit 301 when the network communication unit 301 is started and the position information is received. The processing when there is is described.

Embodiment 4

FIG. 6 shows a position information integrated system 102 having a network address, a GPS satellite 103, and a mobile base station as an example assuming a direct connection between the position information integrated system 102 and the position information receiving device 106 in the fourth embodiment of the present invention. FIG. 5 is a sequence diagram illustrating a method of establishing a communication path and notifying the acquired location information between 104, a common server 101, a short-range communication access point 105, and a location information receiving device 106 according to a procedure conforming to an international standard.

First, when the position information integration system 102 is activated, it waits for connection with the GPS satellite 103, the mobile base station 104, and the short-range communication access point 105. After activation, a communication route is established from the short-range communication access point 105, the mobile base station 104, and the GPS satellite 103 with one or more according to the connection procedure.

First, the process when the position information integration system 102 is connected to the position information receiving device 106 will be described. In the position information integration system 102, the CPU 211 that executes the control program 202 transmits the connection request S601 to the position information receiving device 106 by the short-range communication control unit 206 with reference to the database 207 and the position information management 210. When the position information receiving device 106 receives the connection request S601, the position information receiving device 106 transmits the connection response S602 to the position information integrated system 102. The connection response S602 refers to information that can specify the position such as latitude / longitude, time information, and access point information. The position information integration system 102 receives the connection response S602 transmitted from the position information receiving device 106 from the short-range communication control unit 206. That is, by continuously performing the receiving device connection cycle S612, it is determined that the position information integrated system 102 and the position information receiving device 106 are in a continuous connectable state.
Next, processing when the position information integration system 102 cannot connect to the position information receiving device 106 will be described.

First, the process when the position information integration system 102 attempts to connect to the position information receiving device 106 will be described. The position information integration system 102 transmits the connection request S603 to the position information receiving device 106 by the short-range communication control unit 206. Further, the CPU 211 that executes the control program 202 when transmitting to the position information receiving device 106 sets the connection timer T650 with reference to the database 207 and the position information management 210.

Next, if the position information data from the position information receiving device 106 cannot be received for a certain period of time, the position information integrated system 102 considers that it is out of the communication range with the position information receiving device 106.

First, the process of connecting the location information integration system 102 to the short-range communication access point 105, acquiring the location information, and notifying the location information receiving device 106 via the common server 101 will be described. The short-range communication access point 105 can be connected to a W-LAN or an access point such as BLE, Zigbee, or 920 MHz, and can acquire location information from any one or more devices.
Next, processing when the location information integration system 102 is connected to the short-range communication access point 105 will be described.

When the CPU 211 that executes the control program 202 detects the receiving device connection timeout T613, the position information integration system 102 refers to the database 207 and the position information management 210, and the short-range communication control unit 206 requests the position information S604. It transmits to the short-range communication access point 105. Upon receiving the location information request S604, the short-range communication access point 105 transmits the location information data S605 to the location information integration system 102. The position information integrated system 102 receives the position information data S605 transmitted from the short-range communication access point 105 from the short-range communication control unit 206.

Next, in the location information integration system 102, the CPU 211 that executes the control program 202 refers to the database 207 and the location information management 210, and the mobile communication control unit 204 sends the location information request S606 to the mobile base station 104. Send. Upon receiving the position information request S606, the mobile base station 104 transmits the position information data S607 to the position information integration system 102.

Next, in the position information integration system 102, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210, and the GPS communication control unit 205 receives the position information data S608 from the GPS satellite 103. .. The position information data S607 and the position information data S608 refer to information such as latitude / longitude, time information, and access point information that can specify the position.

When the position information integration system 102 receives any one or more of the position information data S605, the position information data S607, and the position information data S608, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210. Then, the current position of the position information integration system 102 is calculated from the received position information data (position information calculation process S609). At that time, the CPU 211 that executes the control program 202 registers the acquired position information in the position information management 210, the position information data S605, the position information data S607, and the information information acquired in the position information data S608 in the database 207. Then, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212, and the location information notification S610 is transmitted to the common server 101.

The location information notification S508 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message, etc., to describe the request in the text of the e-mail, the short message, or the like. It can be carried out. When the common server 101 receives the location information notification S610, it transmits the location information notification S611 to the location information receiving device 106.
Further, when the position information notification from the position information receiving device 106 is continuously performed, the position information continuous notification S617 is performed.

Next, when the position information continuous notification S617 is stopped, when the position information integration system 102 and the position information receiving device 106 can be connected, the CPU 211 that executes the control program 202 manages the database 207 and the position information. With reference to 210, from all the devices that can be acquired from the short-range communication access point 105 by the short-range communication control unit 206, the acquisition of position information is stopped and moved except for the position information acquisition process from the position information receiving device 106. The body communication control unit 204 and the GPS communication control unit 205 stop the acquisition of position information from all the devices that can acquire the position information. Further, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212 to stop the location information notification S610 transmission to the common server 101.

Further, the location information receiving device 106 transmits the location information request stop S618 to the common server 101. The location information request stop S618 uses the e-mail address of the location information integration system 102 having a network address and the telephone number used for the short message, etc., to describe the request in the text of the e-mail, the short message, or the like. Can be done. When the common server 101 receives the location information request stop S618, it transmits the location information request stop S619 to the location information integration system 102. When the position information integration system 102 receives the position information request stop S619, the CPU 211 that executes the control program 202 refers to the database 207 and the position information management 210, and the short-range communication control unit 206 uses the short-range communication access point 105. From all the devices that can be acquired from, except for the position information acquisition process from the position information receiving device 106, the acquisition of position information is stopped, and all the devices that can acquire the position information by the mobile communication control unit 204 and the GPS communication control unit 205. Stops the acquisition of location information from the device. Further, in the location information integration system 102, the CPU 211 that executes the control program 202 controls the wireless control unit 212 to stop the transmission of the location information notification S610 to the common server 101.

101 Common server 102 Location information integrated system 103 GPS satellite 104 Mobile base station 105 Short-range communication access point 106 Location information receiver 201 Hard disk drive (HDD)
202 Control program 203 Wireless network control unit 204 Mobile communication control unit 205 GPS communication control unit 206 Short-range communication control unit 207 Database 208 ROM
209 RAM
210 Location information management 211 CPU
212 Wireless control unit 213 Wireless control unit 301 Network communication unit 302 Location information acquisition unit (location information acquisition means)
303 Position information calculation unit (position calculation means)
304 Result output unit (position notification means)

Claims (3)

It is a location information integrated system that communicates by SIM dedicated to data communication.
A location information acquisition means that acquires original information about the location where the location information integration system exists from the outside, and
A position calculation means for calculating the current position where the position information integrated system exists from the original information acquired by the position information acquisition means, and a position calculation means.
A position information integrated system including a position notification means for notifying the position information receiving device of the current position calculated by the position calculation means. The location information integration system according to claim 1, wherein the current position is in a carrier-independent format. The location information integration system according to claim 2, wherein the carrier-independent format is an e-mail.

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