JP2011170769A - Location information collection system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To track in real time the location information of a ship or the like that is out of the service area of a mobile network, in a sailing competition. <P>SOLUTION: Tracking terminals 100a-100d whose location information are captured periodically acquire longitude and latitude information by the use of a GPS function to broadcast them. One tracking terminal broadcasts terminal ID and time information on the location information of the other tracking terminal held in the one terminal, and transmits requested location information in response to a request signal for the location information which has been transmitted from the other tracking terminal or relay terminals 120a-120c in accordance with the broadcast. The tracking terminal uses short-range wireless communication for transmission and reception. The relay terminal transmits the received location information of the tracking terminal to a tracking management server 140 via long-range wireless communication. The transmitted information is displayed on a viewer terminal 160. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a technique for capturing a location of a terminal, and more particularly to tracking a location of a ship used in a sailing competition or the like.

As a method for capturing the location of a mobile object, for example, a GPS (Global Positioning System) receiver is mounted on a mobile phone, and the position information is obtained from another device (for example, another mobile phone) with respect to the mobile phone. There is a method in which the mobile phone performs positioning by GPS in response to the request, acquires position information, and transmits the position information to the requested apparatus.
Patent Document 1 discloses an example of such a mobile phone. Patent Document 1 discloses that a mobile phone equipped with a GPS receiver obtains location information of a call partner from a call partner even during a call and displays a map of the location.

JP-A-9-26968

  By the way, as a method for capturing the position of a moving body, for example, in order to capture the position of a sailing yacht in a sailing competition, the position information is transmitted using a mobile phone held by a user who is on the yacht as described above. It is possible. However, the mobile phone service network may be out of the communication range at sea, and in this case, a problem that location information cannot be transmitted occurs. In addition, even if the sea is within the communication range of the mobile phone, in sailing competitions and the like, it would be more enjoyable for spectators watching the race to capture the position of each yacht in real time. However, if the mobile phone network is used at this time, there is a problem that communication costs are incurred.

  Therefore, the present invention provides a location information collection system that can suppress the communication cost compared to the case of using a mobile phone while capturing in real time the location of a terminal where the mobile phone is outside the communication range such as at sea. The purpose is to provide.

  In order to solve the above problems, the present invention is a location information collection system that includes a plurality of mobile terminals, a relay device, and a server device, and collects location information of the plurality of mobile terminals, the mobile device The body terminal identifies the own terminal by positioning means for successively measuring the position of the own terminal to generate position information, the position information generated by the positioning means, the time at which the position indicated by the position information is measured, and Acquired by the first transmitting means for sequentially transmitting the terminal identification information by short-range wireless, the first acquiring means for acquiring the position information of the other terminal not held by the own terminal from the other terminal, and the first acquiring means Second storage means for storing the position information of the other terminal in association with the time when the position indicated by the position information is measured and the other terminal identification information for identifying the other terminal; and the second storage means Is remembered Second terminal means for sequentially transmitting other terminal information including other terminal identification information and a time associated therewith by short-range radio, wherein the relay device is connected to the mobile terminal from the mobile terminal. Or the 2nd acquisition means which acquires the position information of the other mobile terminal different from the said mobile terminal, and the time when the position shown by the said position information was measured, The position information which the said 2nd acquisition means acquired And transmitting means for transmitting the mobile terminal corresponding to the time and the identification information of the mobile terminal to the server apparatus by long-distance radio, wherein the server apparatus transmits position information, time and identification information transmitted by the relay apparatus. Receiving means, recording means for recording the positional information, time and identification information received by the receiving means in association with each other, and outputting positional information, time and identification information recorded in the recording means Do It is characterized in that it comprises a power means.

  Here, the short-range wireless means that the antenna power is 0.01 W or less and the communicable range is at most 600 m, and the long-range wireless means that the communication range is 1 km or more.

  With the configuration as described above, each mobile terminal communicates by short-range wireless, has position information for each time of its own terminal and other terminals, picked up by a relay device capable of long-distance communication, Because it is transferred to the server device, it is possible to collect location information of mobile terminals that are out of reach of service networks such as mobile phone networks, and short-range wireless communication that does not require special permission for wireless communication between mobile terminals By using a mobile terminal using a service network such as a cellular phone network, the communication cost can be reduced.

It is a system diagram showing a system configuration of a tracking system. It is a functional block diagram which shows the function structure of the terminal for tracking. It is a functional block diagram which shows the function structure of the terminal for relay. It is a functional block diagram which shows the function structure of a tracking information management server. It is a functional block diagram which shows the function structure of a viewer terminal. It is a data conceptual diagram which shows the data structural example of the tracking information of the own terminal hold | maintained at the terminal for tracking. It is a data conceptual diagram which shows the data structural example of the tracking information of the other terminal hold | maintained at the terminal for tracking. It is a data conceptual diagram which shows the data structural example of the communication setting information of the own terminal hold | maintained at the terminal for tracking. It is a data conceptual diagram which shows the structural example of the transmission data in case the terminal for tracking transmits the positional information on an own terminal. It is a data conceptual diagram which shows the data structural example of the Hello message which the terminal for tracking transmits. It is a data conceptual diagram which shows the data structural example of the transmission request response message which the terminal for tracking transmits. It is a data conceptual diagram which shows the structural example of the transmission data in the case of transmitting the positional information on the other terminal which a tracking terminal transmits. It is a data conceptual diagram which shows the data structural example of the relay tracking information which the terminal for relay hold | maintains. It is a data conceptual diagram which shows the data structural example of the integrated tracking information which a tracking information management server hold | maintains. It is a data conceptual diagram which shows the data structural example of the time setting information which prescribed | regulated the display method for displaying the tracking information which a viewer terminal hold | maintains. It is a sequence diagram which shows an example of communication between the terminal for tracking and the terminal for relay. It is a flowchart which shows the transmission process of the tracking information of the terminal for tracking. It is a flowchart which shows the reception process of the tracking information from the other terminal of the terminal for tracking. It is a flowchart which shows the transmission process of the Hello message of the terminal for tracking. It is a flowchart which shows the process at the time of the Hello message reception of the terminal for tracking. It is a flowchart which shows a process when the transmission request response message of the terminal for tracking is received. It is a flowchart which shows the transmission process of the tracking information of the terminal for relay. It is a flowchart which shows the reception process of the tracking information of a tracking information management server. It is a flowchart which shows the display process of the tracking information of a viewer terminal. It is a figure which shows the example of a display screen displayed on a viewer terminal.

Hereinafter, a tracking system which is an embodiment of a position information collection system of the present invention will be described with reference to the drawings.
<Configuration>
FIG. 1 is a system diagram showing a system configuration of the tracking system. This tracking system assumes that each yacht is tracked in order to capture the location of the yacht in a sailing competition in real time, and will be described along with this example.

  The tracking system includes tracking terminals 100a to 100d mounted on yachts and buoys, relay terminals 120a to 120c mounted on operation ships such as a referee ship, a tracking information management server 140, and a watchingground for sailing competitions. And a viewer terminal 160 installed in the network. The number of tracking terminals and relay terminals shown in FIG. 1 is not limited to the number shown in FIG. 1 and may be other numbers.

  As shown in FIG. 1, between the tracking terminals (100a to 100d) and between the tracking terminals (100a to 100d) and the relay terminals (120a to 120c), short-range wireless communication is performed. Transmit / receive location information of the terminal and other terminals. It is assumed that the short-range radio uses a 429 MHz band and the maximum communication distance is about 600 m. In communication between tracking terminals and between tracking terminals and relay terminals, communication is performed using a communication protocol in accordance with a communication standard used in a so-called mobile ad hoc network (MANET).

  In addition, communication between the relay terminals (120a to 120c) and between the relay terminals (120a to 120c) and the tracking information management server 140 is performed by long-distance wireless communication using the ad hoc mode of the wireless LAN. Send information. The 2.4 GHz band is used for the long-distance radio. The relay terminals 120a to 120c also transmit location information to the tracking information management server 140 via the mobile phone network and the Internet network 180. The relay terminal is installed so as to be within a range connectable to a mobile phone network or within a communication range (approximately 200 m) in a wireless LAN ad hoc mode. In wireless LAN communication between the relay terminal and the tracking information management server, for example, communication conforming to the IEEE802.11b communication standard is executed.

The tracking information management server 140 is connected to the viewer terminal 160, and the viewer terminal 160 displays the position of the yacht participating in the race on a map.
FIG. 2 is a functional block diagram showing a functional configuration of the tracking terminal 100a. Since each tracking terminal has the same configuration, only the functional configuration of the tracking terminal 100a is described here, and the description of the functional configuration of the other tracking terminals is omitted.

As shown in FIG. 2, the tracking terminal 100 a includes a GPS receiving unit 101, a sensor unit 102, a low-power radio unit 103, an information storage unit 104, and a terminal control unit 106.
The GPS receiving unit 101 receives a signal from a GPS satellite, calculates longitude / latitude information, generates position information that is information on the longitude and latitude of the tracking terminal 100a, and transmits the position information to the terminal control unit 106. Have The GPS receiving unit 101 performs positioning every predetermined period (for example, every 5 seconds), and uses the latitude / longitude information obtained by positioning the time information of the timing when the longitude / latitude information is measured as a terminal. The data is transmitted to the control unit 106. Since the GPS receiving unit 101 operates in synchronization with UTC (Coordinated Universal Time) with high accuracy, the terminal control unit 106 uses the operation clock of the GPS receiving unit 101 to perform synchronization processing of various processing timings. To do. In addition, since the time information output from the GPS receiving unit 101 is based on UTC, time alignment in the entire tracking system can be accurately taken and plays a role in improving the reliability of the time information. A general GPS receiver (for example, a GPS logger) may be used for the GPS receiving unit 101.

  The sensor unit 102 includes, for example, sensors such as an acceleration sensor (not shown), acquires information such as the inclination of the yacht, acceleration direction, wind speed, and wind direction, and controls the acquired sensing data by terminal control. A function of transmitting to the unit 106. In addition, about the said sensing method, the method currently performed conventionally shall be used and the detailed method is omitted. The sensor unit 102 outputs sensing data in synchronization with the timing at which the GPS receiving unit 101 outputs time information and position information.

  The low-power radio unit 103 has a function of performing short-range wireless communication using the 429 MHz band, modulates a signal transmitted from the terminal control unit 106 and wirelessly transmits the demodulated signal, and demodulates the received signal And a function of transmitting to the terminal control unit 106. The communication is the communication channel set by the terminal control unit 106, the own terminal ID for other terminals to identify that it is a signal from the tracking terminal 100a, and the destination tracking terminal or relay terminal. This is performed in accordance with the transmission destination terminal ID. Further, the low-power wireless unit 103 stores information in which a message ID and a message type are associated with each other to identify which type of message the message is likely to receive, The type of the received message can be analyzed based on the information. Specifically, regarding the message ID, the message “01” is the own terminal tracking information message, the message “02” is a Hello message, the message “03” is a transmission request response message, “04” is the other terminal tracking information message. Details of each message will be described later.

The information storage unit 104 has a function of writing information to be instructed by the terminal control unit 106 to the external memory 105 and a function of reading information stored in the external memory 105 and transmitting the information to the terminal control unit 106.
The external memory 105 is a portable nonvolatile memory typified by a USB flash memory that is detachable from the tracking terminal 100a. The external memory 105 includes communication setting information 600 that defines communication parameters of the tracking terminal 100a, and own terminal tracking information 700 that associates the position information of the tracking terminal 100a with the time information at which the position information is measured (FIG. 7). Reference), and the other terminal tracking information 800 (see FIG. 8) associated with the position information of the other terminal acquired from the tracking terminal other than the tracking terminal 100a and the time information at which the position information was measured. .

The terminal control unit 106 has a function of controlling each unit of the tracking terminal 100a, and specifically has the following functions (a) to (d).
(A) When receiving position information and time information from the GPS receiving unit 101 and sensing data from the sensor unit 102, the information accumulating unit 104 gives an instruction to associate these pieces of information with each other and add them to the own terminal tracking information 700 And the low-power radio unit 103 is instructed to broadcast its own terminal tracking information message in which the position information, time information, and sensing data are associated with each other.

  (B) Requests the information storage unit 104 to read the other terminal tracking information 800 held in the external memory 105 at predetermined time intervals (for example, every 5 seconds), and from the other terminal tracking information 800, the past is constant from the present. Other terminal tracking information having time information within the time (for example, within 1 minute) is extracted, a list in which the time information of the extracted other terminal tracking information is associated with the terminal ID is created, and the created list is The broadcast instruction included in the Hello message is output to the low power radio unit 103.

And the terminal control part 106 extracts the other terminal tracking information designated with the transmission request response message transmitted according to the said Hello message from the other terminal tracking information 800, and makes the low power radio | wireless part 103 transmit.
Although not described in detail in this specification, the Hello message is also used as a Hello message defined by MANET communication.

  (C) Other terminal tracking information 800 recorded in the external memory 105 when the own terminal tracking information or other terminal tracking information of another tracking terminal is received from the low-power radio unit 103 If it is not registered, the own terminal tracking information or other terminal tracking information of the other tracking terminal received from the low-power radio unit 103 is added to the other terminal tracking information 800. To the information storage unit 104. If registered, the other terminal tracking information received from the low-power radio unit 103 is discarded as it is. The detection of whether or not the other terminal tracking information received from the low power radio unit 103 is registered in the other terminal tracking information 800 is performed by detecting the other terminal tracking information in which both the terminal ID indicated by the other terminal tracking information and the time information match. Is performed based on whether or not the other terminal tracking information 800 is present.

  (D) When a Hello message from another terminal is received from the low-power radio unit 103, a list of other terminal tracking information included in the Hello message is extracted, and all terminal IDs and time information included in the list are extracted. Is detected in the other terminal tracking information 800. The detection is also performed by matching both the terminal ID and the time information. Then, when there is a terminal ID and time information that are not registered, the terminal control unit 106 instructs the low-power radio unit 103 to transmit a transmission request response message for requesting tracking information corresponding to the terminal ID and time information. . The transmission request response message is not broadcast, but is transmitted to the tracking terminal that transmitted the received Hello message. And the other terminal tracking information transmitted according to the said transmission request response message is received from the low power radio | wireless part 103, and registration to the other terminal tracking information 800 is instruct | indicated to the information storage part 104. FIG.

FIG. 3 is a functional block diagram showing a functional configuration of the relay terminal 120a. Since each relay terminal has the same configuration, only the functional configuration of the relay terminal 120a will be described here, and the description of the functional configuration of the other relay terminals 120b and 120c will be omitted.
As shown in FIG. 3, the relay terminal 120 a includes a wireless LAN network unit 121, a mobile phone network unit 122, a low-power wireless unit 123, an information storage unit 124, and a relay control unit 126. .

The wireless LAN network unit 121 has a function of transmitting the tracking information received from the relay control unit 126 to the tracking information management server 140 in a wireless LAN ad hoc mode using the 2.4 GHz band.
The mobile phone network unit 122 has a function of transmitting the tracking information received by the relay control unit 126 to the tracking information management server 140 via the mobile phone network.

  The low-power radio unit 123 has a function of performing short-range wireless communication using the 429 MHz band, modulates a signal transmitted from the relay control unit 126, and transmits the radio signal, and demodulates the received signal And a function of transmitting to the relay control unit 126. The communication is a communication channel set by the relay control unit 126, a self-terminal ID for the tracking terminal to identify that it is a signal from the relay terminal 120a, and a transmission destination for identifying the tracking terminal of the transmission destination. This is performed according to the terminal ID. Further, the low-power wireless unit 123 stores information in which a message ID and a message type are associated with each other to identify which type of message the message that may be received. The type of the received message can be analyzed based on the information. Specifically, regarding the message ID, the message “01” is the own terminal tracking information message, the message “02” is a Hello message, the message “03” is a transmission request response message, “04” is the other terminal tracking information message. Details of each message will be described later.

The information storage unit 124 has a function of writing information to be instructed by the relay control unit 126 into the external memory 125 and a function of reading out information stored in the external memory 125 and transmitting the information to the terminal control unit 126.
The external memory 125 is a portable nonvolatile memory typified by a USB flash memory that is detachably attached to the relay terminal 120a. The external memory 125 includes communication setting information 600 defining communication parameters of the relay terminal 120a, position information of other terminals acquired from the tracking terminal, time information when the position information is measured, and identification information of the other terminals. Is stored in the tracking information 1300 (see FIG. 13) associated with.

  The relay control unit 126 has a function of controlling each unit of the relay terminal 120a. Similar to the terminal control unit 106 of the tracking terminal, the relay control unit 126 performs processing when receiving its own terminal tracking information message and when receiving another terminal tracking information message ( (See (c) above), a function for executing a process (see (d) above) when receiving a Hello message, and further has the following functions. The relay control unit 126 receives the tracking information 1300 held in its own terminal from the information storage unit 124 every predetermined time (for example, every minute), and extracts tracking information whose transmission flag is “0” from the tracking information 1300. The wireless LAN network unit 121 and the cellular phone network unit 122 have a function of causing the tracking information management server 140 to transmit the extracted tracking information.

FIG. 4 is a functional block diagram showing a functional configuration of the tracking information management server 140.
As shown in FIG. 4, the tracking information management server 14 includes a wireless network unit 141, a wired network unit 142, a viewer terminal communication unit 143, an information storage unit 144, and a server management unit 146. .

The wireless network unit 141 has a function of receiving tracking information from the relay terminal in the ad hoc mode of the wireless LAN using the 2.4 GHz band.
The wired network unit 142 has a function of receiving tracking information from a relay terminal via a wired connection between a cellular phone network and the Internet network.
The viewer terminal communication unit 143 has a function of transmitting integrated tracking information to the viewer terminal 160 in accordance with an instruction from the server management unit 146.

The information storage unit 144 has a function of storing integrated tracking information 1400 in which the tracking terminal position information, time information, and sensing data are associated with each other, and the integrated tracking information 1400 stored according to an instruction from the server management unit 146. Has a function of outputting.
The server management unit 146 has a function of controlling each unit of the tracking information management server 140. Specifically, the server management unit 146 extracts the tracking information transmitted from each relay terminal and received from the received tracking information. Thus, the information storage unit 144 has a function of storing information and the function of transmitting the latest tracking information of each terminal ID to the viewer terminal 160 via the viewer terminal communication unit 143.

FIG. 5 is a functional block diagram showing a functional configuration of the viewer terminal 160.
As shown in FIG. 5, the viewer terminal 160 includes a tracking information communication unit 161, a wake processing unit 162, an input operation unit 163, a display unit 164, and a viewer terminal control unit 166.
The tracking information communication unit 161 has a function of receiving the latest tracking information periodically transmitted from the tracking information management server 140, and a function of transmitting the received tracking information to the viewer terminal control unit 166.

  The wake processing unit 162 has a function of identifying the traveling direction of each tracking terminal from the previous tracking information of each tracking terminal and the latest tracking information received by the communication unit 161. It has a function of transmitting to the viewer terminal control unit 166. Specifically, the direction from the position indicated by the longitude / latitude information of the previous tracking information for a certain tracking terminal to the position indicated by the longitude / latitude information of the current tracking information of the tracking terminal is the tracking terminal. The direction of travel is specified.

The input operation unit 163 has a function of accepting an operation from an operator. For example, the input operation unit 163 edits display setting information or accepts an instruction to execute a display update process.
The display unit 164 has a function of outputting and displaying drawing data that is an instruction from the viewer terminal control unit 166 on a monitor provided in the viewer terminal 160 or a monitor connected to the viewer terminal. The image displayed by the drawing data is, for example, an image showing a map and the position of each tracking terminal as shown in FIG. Examples of the monitor include an LCD (Liquid Crystal Display) or a PDP (Plasma Display Panel).

The viewer terminal control unit 166 has a function of controlling each unit of the viewer terminal 160, and every time the latest tracking information is received from the tracking information communication unit 161, the wake processing unit 162 specifies the traveling direction of each tracking terminal, Generate drawing data indicating a marker for identifying each tracking terminal on the map indicated by the longitude and latitude information of each tracking terminal indicated by the latest tracking information according to the traveling direction specified by the wake processing unit 162, and display the display unit 164 has a function of displaying on 164.
<Data>
From here, various data used in the tracking system according to the present embodiment will be described.

  FIG. 6A shows communication setting information 600 defining communication parameters for low-power wireless communication stored in advance in external memories 105 and 125 attached to tracking terminals 100a to 100d or relay terminals 120a to 120c. It is a conceptual diagram which shows the example of a data structure. The communication setting information 600 is read by the information accumulating units 104 and 124 according to an instruction from the terminal control unit 106 or the relay control unit 126 when the tracking terminals 100a to 100d or the relay terminals 120a to 120c are started up. The low power radio units 103 and 123 are set.

As shown in FIG. 6A, the communication setting information 600 includes a terminal ID 610, a communication channel 620, a transmission interval 630, a transmission slot 640, and a transmission destination terminal ID 650.
A terminal ID (IDentifier) 610 is an identifier for specifying the own terminal and for the other terminal to identify a signal from the own terminal or to designate it as a transmission destination. The terminal ID 610 is used as a transmission source ID when a signal is transmitted from the own terminal.

The communication channel 620 is information on a communication channel used in the low power wireless communication by the own terminal, and it is determined that the own terminal uses the channel at the time of communication.
The transmission interval 630 is information indicating a transmission interval of a signal when transmitting a signal from the own terminal, and is information indicating a timing of transmitting the next information after transmitting the information once.
The transmission slot 640 is information for specifying which slot the terminal uses among a plurality of slots included in the interval indicated by the transmission interval.

The transmission destination terminal ID 650 is identifier information of a terminal to be given to a terminal that can be a transmission destination.
FIG. 6B is a diagram for explaining the transmission interval and the slot shown in FIG. 6A, and within the time determined by the transmission interval, a plurality of slots (5 in the case of FIG. 6). Slot) is provided, and the plurality of slots are repeated at a cycle indicated by a transmission interval 630. The transmission slot 640 defines in which slot within the transmission interval the terminal can transmit data (in the case of FIG. 6, the third slot among the five slots). Also, the time for one slot is determined in advance. In the case of FIG. 6, the time for one slot is set to 1 second. If the time for one slot is 0.5 seconds, the number of slots between transmission intervals is 10.

FIG. 7 is a data conceptual diagram showing a configuration example of the own terminal tracking information 700. Each tracking terminal holds own terminal tracking information 700 indicating its own position information.
The own terminal tracking information 700 is a set of information in which time information 710, longitude / latitude information 720, and sensing data 730 are associated with each other.

The time information 710 is information indicating the longitude / latitude information indicated by the tracking information and the time when the sensing data is measured. In the time information, the first two digits represent time, the middle two digits represent minutes, and the lower two digits represent seconds.
The longitude / latitude information 720 is information indicating the longitude and latitude of the own terminal measured by the GPS receiving unit 101.

The sensing data 730 is sensing data output from the sensor unit 102, and here, as an example, the wind direction and the wind speed are shown.
FIG. 8 is a data conceptual diagram showing a configuration example of the other terminal tracking information 800. Each tracking terminal holds tracking information of a tracking terminal other than its own terminal.

Other terminal tracking information 800 is a set of information in which terminal ID 810, time information 820, longitude / latitude information 830, and sensing data 840 are associated with each other.
The terminal ID 810 is an identifier for specifying which tracking terminal the tracking information is for.
The time information 820 is information indicating the time when the tracking information is measured.

The longitude / latitude information 830 is information indicating the longitude and latitude of the other terminal measured by the other terminal.
The sensing data 830 is sensing data sensed by another terminal, and here, as an example, the wind direction and the wind speed are shown.
FIG. 9 is a data conceptual diagram showing a data configuration example of the own terminal tracking information message indicating the position information of the own terminal transmitted by each tracking terminal. The upper part shows the concept, and the lower part shows a specific example.

As shown in FIG. 9, the own terminal tracking information message 900 includes a message ID 910, a transmission source terminal ID 920, time information 930, longitude / latitude information 940, and sensing data 950.
The message ID 910 is information for identifying on the receiving side which message is the message, and indicates the type of the message. In the case of the own terminal tracking information message, the message ID is “01”. When the tracking terminal transmits the own terminal tracking information message, the message ID 910 is set to “01”.

The transmission source ID 920 is the terminal ID of the tracking terminal that transmits the own terminal tracking information message, that is, the information of the own terminal ID. In the transmission source ID 920, the terminal ID set in the communication setting information 600 is set.
The time information 930 is information indicating the time when the position information is measured.
The longitude / latitude information 940 is information indicating the longitude and latitude of the tracking information.

The sensing data 930 is sensing data obtained by sensing with the sensor unit 102 at the time indicated by the time information 930.
FIG. 10 is a data conceptual diagram showing a configuration example of a Hello message that the tracking terminal sends periodically (for example, every 5 seconds).
As shown in FIG. 10, the Hello message 1000 includes a message ID 1010, a transmission source terminal ID 1020, and a possession information list 1030.

  The message ID 1010 is information for identifying on the receiving side which message is the message, and indicates the type of the message. In the case of the own terminal tracking information message, the message ID is “02”, and the tracking terminal transmits a message with the message ID 1010 set to “02” when transmitting the Hello message.

The source terminal ID 1020 is information on the terminal ID of the tracking terminal that transmits the Hello message, that is, the ID of the own terminal. In the transmission source terminal ID 1020, the terminal ID set in the communication setting information 600 is set.
The possession information list 1030 is a list of information indicating the position information of other terminals held from the current time held by the tracking terminal until a certain time in the past. Specifically, one terminal ID, time information The information that is paired with is continuous.

FIG. 11 is a data conceptual diagram showing a configuration example of a transmission request response message.
The transmission request response message 1100 includes a message ID 1110, a transmission destination terminal ID 1120, a transmission source terminal ID 1130, and a request information list 1140.
The message ID 1110 is information for identifying on the receiving side which message is the message, and indicates the type of the message. In the case of the transmission request response message, the message ID is “03”, and when the tracking terminal transmits the transmission request response message 1100, the message with the message ID 1110 “03” is transmitted.

The transmission destination terminal ID 1120 is information indicating to which tracking terminal the transmission request response message 1100 is applied. Since the transmission request response message is also a response to the Hello message, the transmission destination terminal ID 1120 includes The ID indicated by the sender ID 1020 of the Hello message is inserted.
The transmission source terminal ID 1130 is the terminal ID of the tracking terminal that transmits the transmission request response message 1100.

The request information list 1140 is information included in the list of received Hello messages, and is information of a pair of terminal ID and time information regarding tracking information that is not held by the terminal itself.
FIG. 12 is a data conceptual diagram showing a 1200 configuration example of the other terminal tracking information message.

  The other terminal tracking information message 1200 is received when the tracking terminal receives a transmission request response message that is a response to the Hello message transmitted by itself and the tracking information of the other terminal is requested in the transmission request response message. It is a message which shows the tracking information of the other terminal to transmit. The other terminal tracking information message is a message for one piece of tracking information, and when a plurality of tracking information is requested in the transmission request response message, a plurality of other terminal tracking information messages are transmitted.

As shown in FIG. 12, the other terminal tracking information message 1200 includes a message ID 1210, a transmission destination terminal ID 1220, a transmission source terminal ID 1230, a terminal ID 1240, time information 1250, longitude / latitude information 1260, and sensing data 1270. Become.
The message ID 1210 is information for identifying on the receiving side which message is the message, and indicates the type of the message. In the case of the other terminal tracking information message, the message ID is “04”. When the other terminal tracking information message 1200 is transmitted, the tracking terminal transmits a message with the message ID 1210 set to “04”.

The transmission destination terminal ID 1220 is information indicating the terminal ID of the tracking terminal or relay terminal of the transmission destination of the other terminal tracking information message 1200.
The transmission source terminal ID 1230 is information indicating the terminal ID of the tracking terminal that transmits the other terminal tracking information message 1200.
The terminal ID 1240 is information for identifying which terminal the tracking information transmitted by the other terminal tracking information message 1200 belongs to. The terminal ID 1240 is any one of the terminal IDs indicated in the request information list 1140 indicated by the transmission request response message.

The time information 1250 is information indicating the time at which the position information is measured, and is also time information corresponding to the terminal ID indicated by the terminal ID 1240 among the time information indicated by the request information list 1140 indicated by the transmission request response message. .
The longitude / latitude information 1260 is position information corresponding to the information indicated by the terminal ID 1240 and the time information 1250.

Sensing data 1270 is sensing data corresponding to information indicated by terminal ID 1240 and time information 1250.
FIG. 13 is a data conceptual diagram showing a configuration example of tracking information 1300 held by relay terminals 120a to 120c.
The tracking information 1300 is information in which the terminal ID 1310, time information 1320, longitude / latitude information 1330, sensing data 1340, and a transmission flag 1350 are associated with each other.

The terminal ID 1310 is information for indicating which terminal the tracking information is for.
The time information 1320 is information indicating when the position information is measured.
The longitude / latitude information 1330 is information on longitude and latitude obtained by positioning.
The sensing data 1340 is information sensed by the sensor unit when the position information is measured.

The transmission flag 1350 is information indicating whether or not the relay terminal is transmitting the tracking information to the tracking information management server. “0” means untransmitted and “1” means transmitted.
FIG. 14 is a data conceptual diagram showing a configuration example of the integrated tracking information 1400 held by the tracking information management server.

The integrated tracking information 1400 is obtained by integrating the tracking information transmitted by each relay terminal, and the basic configuration thereof is the configuration obtained by removing the transmission flag 1350 from the tracking information 1300 held by the relay terminal. Since other configurations are the same as the tracking information, description thereof is omitted.
FIG. 15 is a data conceptual diagram illustrating a configuration example of display setting information 1500 that defines a method for displaying tracking information held by the viewer terminal 160.

By storing the display setting information 1500, the viewer terminal 160 can perform an appropriate display based on the tracking information transmitted from the tracking information management server 140.
The display setting information 1500 is information in which the terminal ID 1510, the sale number 1520, the display / emergency 1530, and the display color 1540 are associated with each other.

The terminal ID 1510 is information indicating which tracking terminal is the display setting, and corresponds to the terminal ID included in the tracking information.
The sale number 1520 is a number assigned to the tracking terminal indicated by the terminal ID 1510 to distinguish it from other tracking terminals. Since the number for identifying each yacht in the sailing competition does not always match the terminal ID, the terminal ID and the sale number are associated with each other.

  The display / non-display 1530 is information defining whether or not information about the terminal ID is displayed. In FIG. 15, “display” and “non-display” are shown. "(Display) or" 1 "(not displayed). The display setting information 1500 can be edited at any time by the operator via the input operation unit 163. For example, by changing the information about the yacht retired from the competition from display to non-display, the displayed information can be easily viewed. Can do.

The display color 1540 is information defining which color is used to display the information of the terminal ID. Thereby, each yacht can be displayed so that it can be identified at a glance.
<Operation>
Next, the operation of each device in the present embodiment will be described with reference to the sequence diagram shown in FIG. 16 and the flowcharts shown in FIGS.

FIG. 16 is a sequence diagram illustrating an example of communication associated with transmission of a Hello message between tracking terminals or between a tracking terminal and a relay terminal. Tracking information of other tracking terminals held by the tracking terminal is shown in FIG. It is the figure which showed a mode that it was propagated.
The sequence diagram shown in FIG. 16 shows a case where the tracking terminal 100c broadcasts a Hello message and the tracking terminal 100a and the relay terminal 120a receive it.

The tracking terminal 100c transmits a Hello message including the identification information of the other terminal and the time information on the tracking information of the other terminal from the present to the past held for a certain time at the transmission timing of the own terminal. (Step S1600).
The tracking terminal 100a that has received the Hello message detects whether or not it has the tracking information corresponding to the pair of the terminal ID and the time information in the possession information list included in the Hello message, and does not possess it. A transmission request response message including a pair of terminal ID and time information corresponding to the tracking information is generated, and the transmission request response message is transmitted at a transmission timing permitted by the tracking terminal 100a (step S1601).

  The tracking terminal 100c that has received the transmission request response message from the tracking terminal 100a reads the tracking information corresponding to the terminal ID and time information specified in the transmission request response message from the external memory, and the terminal ID and Another terminal tracking information message including time information and position information is transmitted (step S1602). In FIG. 16, the transmission is described as if it was transmitted only once, but actually, the other terminal tracking information message is transmitted as many times as the number of tracking information requested in the transmission request response message. To do.

The tracking terminal 100a that has received the other terminal tracking information message from the tracking terminal 100c associates the terminal ID, the time information, and the position information indicated by the other terminal tracking information message with each other, and the other terminal tracking information 800 in the external memory. Add to and register.
On the other hand, similarly, the relay terminal 120a that has received the Hello message from the tracking terminal 100c possesses tracking information corresponding to the pair of the terminal ID and the time information in the possession information list included in the Hello message. A transmission request response message including information of a pair of a terminal ID and time information corresponding to tracking information that is not possessed, and the transmission request at the transmission timing permitted by the relay terminal 120a A response message is transmitted (step S1605).

  The tracking terminal 100c that has received the transmission request response message from the relay terminal 120a reads the tracking information corresponding to the terminal ID and time information specified in the transmission request response message from the external memory, and the terminal ID and The other terminal tracking information message including the time information and the position information is transmitted (step S1606). In FIG. 16, the transmission is described as if it was transmitted only once, but actually, the other terminal tracking information message is transmitted as many times as the number of tracking information requested in the transmission request response message. To do.

Then, the relay terminal 120a that has received the other terminal tracking information message from the tracking terminal 100c associates the terminal ID, time information, longitude / latitude information, and sensing data indicated by the other terminal tracking information message, and transmits the data. The flag is set to “0” and additionally registered in the other terminal tracking information 800 (step S1607).
Of course, the message arrival time differs depending on the communication distance between the tracking terminals or between the tracking terminal and the relay terminal.

FIG. 17 is a flowchart showing tracking information transmission processing of the tracking terminal.
The GPS receiving unit 101 receives a signal from a GPS satellite every predetermined time, measures the position of the tracking terminal, and transmits it to the terminal control unit 160 together with the time at which the positioning is performed (step S1701). At the same time, the sensor unit 102 transmits sensing data to the terminal control unit 106.

The terminal control unit 106 that has received the position information (longitude / latitude information) and the time information from the GPS receiving unit 101 and the sensing data from the sensor unit 102 transmits the information to the information storage unit 104 and associates the information with the external information. An instruction is given to additionally register the own terminal tracking information in the memory 105 (step S1702).
In addition, the terminal control unit 106 that has received the position information and time information from the GPS receiving unit 101 and the sensing data from the sensor unit 102 sets the message ID to “01”, and sets the terminal ID to the position information, time information, and sensing. The self terminal tracking information message is generated by adding to the data and transmitted to the low power radio unit 103 (step S1703).

When receiving the own terminal tracking information message from the terminal control unit 106, the low power wireless unit 103 determines whether or not the own terminal tracking information message can be transmitted based on the set transmission interval and transmission slot (step S1704). ).
If transmission is possible (YES in step S1704), the low-power radio unit 103 transmits the own terminal tracking information message and ends the process. If transmission is not possible (NO in step S1704), the process waits until transmission is possible.

Next, a reception process when the tracking terminal receives its own terminal tracking information message from another terminal will be described with reference to the flowchart shown in FIG.
The low power radio unit 103 receives the own terminal tracking information message transmitted from the other tracking terminal from the other tracking terminal (step S1801), and transmits this to the terminal control unit 106.

  The terminal control unit 106 determines whether or not it already has the tracking information indicated by the own terminal tracking information message received from the low power wireless unit 103, the transmission source ID included in the own terminal tracking information message, the time information, Is determined by whether or not the other terminal tracking information that matches is registered in the other terminal tracking information 800 (step S1802).

If possessed, the tracking information indicated by the received own terminal tracking information message is discarded without being stored (step S1804), and the process is terminated.
If not, the terminal control unit 106 uses the transmission source ID of the own terminal tracking information message as the terminal ID to the information storage unit 104, and the time information indicated in the received own terminal tracking information message. , Longitude / latitude information and sensing data are associated with each other, and an instruction to additionally register in the other terminal tracking information 800 is transmitted. The information storage unit 104 additionally registers the transmitted information in the other terminal tracking information 800 of the external memory 105. (Step S1803) and the process is terminated.

Next, the hello message transmission processing of the tracking terminal will be described with reference to the flowchart shown in FIG.
When it is time to transmit the Hello message, the terminal control unit 106 instructs the information storage unit 104 to read the other terminal tracking information 800 stored in the external memory 105 of the terminal itself (step S1901).

According to the instruction, the information storage unit 104 reads the other terminal tracking information 800 from the external memory 105 and transmits it to the terminal control unit 106.
The terminal control unit 106 extracts other terminal tracking information from the current terminal tracking information 800 from the current time to the past (within the past 1 minute) for a certain time (step S1902).
The terminal control unit 106 extracts the terminal ID and the time information from the extracted other terminal tracking information, and creates a possession information list composed of the pair (step S1903).

The terminal control unit 106 generates a Hello message with the message ID “02” and the ID of the own terminal as the transmission source ID in the possession list, and instructs the low-power radio unit 103 to transmit the Hello message.
The low-power radio unit 103 determines whether or not transmission is possible according to a preset transmission interval and transmission slot (step S1904). If transmission is possible (YES in step S1904), the low-power radio unit 103 transmits a Hello message. (Step S1905). If it cannot be transmitted (NO in step S1904), it waits until it can be transmitted.

After transmitting the Hello message, after waiting for a predetermined time (YES in Step S1906), the process returns to Step S1901.
Next, processing when the tracking terminal receives a Hello message will be described with reference to the flowchart shown in FIG.
The low-power radio unit 103 receives a Hello message from another tracking terminal (step S2001), and transmits the Hello message to the terminal control unit 106.

The terminal control unit 106 has tracking information that matches the terminal ID and time information indicated by the pair as to whether or not they already have one terminal ID and time information pair from the possession information list of the Hello message. Is registered in the other terminal tracking information 800 (step S2002).
If not, the terminal control unit 106 adds the terminal ID and time information to the list of request information included in the transmission request response message (step S2003). If so, the process proceeds to step S2004 without doing anything.

The terminal control unit 106 determines whether or not all terminal ID and time information pairs included in the possession information list are held by the own terminal (step S2004). If all the terminal ID and time information pairs have not been determined (NO in step S2004), the process returns to step S2002.
If all terminal ID / time information pairs have been determined (YES in step S2004), the terminal control unit 106 adds the message ID “03” and its own terminal ID to the request information list, and a Hello message. A transmission request response message is generated with the terminal ID of the tracking terminal that has transmitted the transmission destination ID as the transmission destination ID, and is transmitted to the low-power radio unit 103.

The low-power radio unit 103 determines whether transmission is possible according to the set communication setting (step S2005). If transmission is possible (YES in step S2005), the low-power radio unit 103 sends a transmission request response Send the message and finish the process.
In addition, the low power radio | wireless part 103 waits until it becomes possible to transmit, when it cannot transmit (NO of step S2005).

Next, a process when the transmission request response message of the tracking terminal is received will be described using the flowchart shown in FIG.
The low power wireless unit 103 receives the transmission request response message 1100 from another tracking terminal or the relay terminal (step S2101), and transmits the transmission request response message 1100 to the terminal control unit 106.

The terminal control unit 106 receives the tracking information corresponding to one pair of terminal ID and time information included in the request information list 1140 of the transmission request response message, and the other terminal tracking information read from the external memory 105 by the information storage unit 104 Extract from 800 (step S2102).
When the low-power radio unit 103 receives the other terminal tracking information message from the terminal control unit 106, the low-power radio unit 103 determines whether transmission is possible (step S2103).

If it can be transmitted (YES in step S2103), the other terminal tracking information message is transmitted (step S2104).
The terminal control unit 106 determines whether all the tracking information specified in the transmission request response message has been transmitted (step S2105). If it has been transmitted (YES in step S2105), the process ends. If not (NO in step S2105), the process returns to step S2102.

Next, the tracking information transmission process of the relay terminal will be described with reference to the flowchart shown in FIG.
The relay control unit 126 instructs the information storage unit 124 to read the tracking information 1300 from the external memory 125 (step S2201).
The relay control unit 126 extracts tracking information whose transmission flag is “0” from the read tracking information 1300 (step S2202).

Then, the relay control unit 126 causes the wireless LAN network unit 121 or the mobile phone network unit 122 to transmit the extracted tracking information to the tracking information management server 140 (step S2203).
When the relay control unit 126 transmits the tracking information, the relay control unit 126 instructs the information storage unit 124 to rewrite the transmission flag of the transmitted tracking information to “1”, and the transmission flag of the tracking information is changed to “1” (step) S2204).

When the predetermined time has elapsed (YES in step S2205), the process returns to step S2201. Wait until the predetermined time has elapsed (NO in step S2205).
In addition, the process at the time of receiving the Hello message of the relay terminal, the process of transmitting the transmission request response message, the process at the time of receiving the local terminal tracking information message, and the process at the time of receiving the other terminal tracking information message are Since it is substantially equivalent, the detailed description is omitted here. In the case of a relay terminal, for each function part in the description of each process in the tracking terminal, the low-power radio unit 103 is the low-power radio unit 123, the information storage unit 104 is the information storage unit 124, and the external memory 105 is the external memory. The terminal control unit 106 may be replaced with the relay control unit 126.

Next, the tracking information reception processing of the tracking information management server 140 will be described with reference to the flowchart shown in FIG.
The wireless network unit 141 receives tracking information from the relay terminal by ad-hoc mode communication of a wireless LAN. Alternatively, the wired network unit 142 receives tracking information from the relay terminal via the mobile phone network or the Internet network (step S2301).

Whether the server management unit 146 has the tracking information corresponding to the pair of the terminal ID and the time information indicated by the received tracking information in the information storage unit 144, whether or not the received tracking information is already possessed. The determination is made based on whether or not (step S2302).
If not, the information recording unit additionally registers the received tracking information in the integrated tracking information (step S2303) and ends the process.

If possessed, the tracking information is discarded without being stored (step S2304), and the process is terminated.
Note that the tracking information transmission processing of the tracking information management server 140 is in accordance with the transmission processing of the relay terminal, and a detailed description thereof is omitted. However, unlike the relay terminal, the tracking information management server 140 does not transmit tracking information based on the presence or absence of a transmission flag, but the latest tracking information of each terminal ID held therein, That is, tracking information having time information closest to the current time is extracted and transmitted.

Finally, the tracking information display process of the viewer terminal 160 will be described with reference to the flowchart shown in FIG.
The tracking information communication unit 161 receives the latest tracking information from the tracking information management server 140 (step S2401) and transmits it to the viewer terminal control unit 166.
The viewer terminal control unit 166 transmits the latest tracking information to the wake processing unit 162, and the wake processing unit 162 identifies the traveling direction of each yacht from the previous tracking information and the latest tracking information (step S2402). Specifically, the longitude and latitude information corresponding to the same terminal ID is read in each of the previous tracking information and the latest tracking information, and the longitude and latitude of the latest tracking information is determined from the position indicated by the longitude and latitude information of the previous tracking information. The direction toward the position indicated by the information is specified as the traveling direction of the yacht equipped with the tracking terminal indicated by the terminal ID.

The viewer terminal control unit 166 then sets the yacht marker corresponding to each terminal ID at the position indicated by the longitude and latitude information of each terminal in the latest tracking information on the map in the traveling direction specified by the wake processing unit 162. The arranged drawing data is generated and displayed on the display unit 164 (step S2403), and the process ends.
Through the display process, a screen as shown in FIG. 25 is displayed on the monitor of the viewer terminal or a monitor connected to the viewer terminal. In FIG. 25, each yacht is originally displayed in a color-coded manner, but here, for the sake of convenience, the yachts are distinguished from each other. In the upper right of FIG. 25, a sail number of each yacht, a mark indicating each yacht, and each longitude / latitude information are displayed.
<Supplement>
In the above embodiment, the method of implementing the present invention has been described, but it is needless to say that the embodiment of the present invention is not limited to this. Hereinafter, various modified examples included in the present invention other than the above-described embodiment will be described.
(1) When the tracking terminal transmits its own terminal tracking information, it has been shown that the terminal ID of the transmission destination is not included, but the transmission destination ID is further included in the data shown in FIG. The previous terminal ID may be designated and transmitted.

Similarly, a Hello message may be configured to specify a destination terminal ID.
(2) In the above embodiment, the tracking information management server 140 is configured to receive position information from the relay terminal. However, the tracking information management server 140 also includes a low-power radio unit and is within a communication distance range. Alternatively, the position information may be directly acquired from the tracking terminal in FIG.

In addition, the relay terminal may transmit a Hello message including a possession information list including a pair of terminal ID and time information for tracking information held in the same manner as the tracking terminal using communication by wireless LAN. Good. As a result, the tracking information can be exchanged between the relay terminals.
(3) In the above embodiment, the transmission interval is 5 seconds and the number of slots included in the transmission interval is 5. However, this is only an example, and the transmission interval is set to 10 seconds, for example. Also, the number of slots in the transmission interval may be set to a number other than 5, for example, 10 or the like.
(4) In the above embodiment, the time information is simply information of only the time. However, the date information may also be included here. This is a configuration that is useful when, for example, a race competition is held over several days.
(5) In the above embodiment, the viewer terminal generates and displays drawing data. However, the tracking information management server 140 generates and outputs the drawing data, and the viewer terminal simply uses the tracking information management server. The drawing data output by 140 may be displayed. That is, the tracking information management server 140 may have a drawing data generation function of the viewer terminal in the above embodiment.
(6) Although not particularly described in the above embodiment, the relay terminal further has a function equivalent to the function held by the viewer terminal as shown in the above embodiment, and is held by the own terminal. Based on the tracking information, the position information of each yacht may be displayed in the form as shown in FIG. Or you may provide the function which displays tracking information as it is.

As a result, it is possible to check whether or not a referee on board a referee ship equipped with a relay terminal has received yacht position information. If not, the referee ship can be removed from the yacht. It is possible to take action such as moving to a position where the position information can be received.
(7) In the above embodiment, the possession information list is included in the Hello message. However, there is a possibility that the list of information possessed may become enormous, although there is a restriction of information related to position information up to a certain past time.

For this reason, in some cases, there is a possibility that not all information to be transmitted can be contained in the Hello message whose data length is fixed.
As a countermeasure for such a case, for example, the following configuration may be adopted.
As a first configuration, giving up transmission of all information to be transmitted, when information on the same terminal is duplicated, the old one is excluded from the transmission target until it fits within the determined data length. There is a way to go.

A second configuration is a method of transmitting all pieces of information to be transmitted in a plurality of times. In this case, it is good also as a structure which incorporates the identifier which shows that the Hello message produced | generated divided into the multiple times is mutually related.
(8) In the above embodiment, sensing data is transmitted and stored in association with position information and time information. However, when only position information is required, the sensing data may be omitted. .
(9) In the above embodiment, the tracking information management server 140 is configured such that the viewer terminal can acquire the tracking information by periodically transmitting the latest tracking information to the viewer terminal 160. The viewer terminal may request and acquire the desired tracking terminal position information from the tracking information management server 140.
(10) In the above embodiment, the display setting information 1500 may include setting information related to the display of other information in addition to the information described above, for example, information on whether or not sensing data is displayed. May also be included.
(11) In the above embodiment, the arrangement of the relay terminal is not particularly described. However, in the case of a racing competition such as a sailing competition, an approximate course through which the yacht passes is determined in advance. It is good to arrange | position with the predetermined space | interval on the position which adjoins, for example, both sides of a passage course.
(12) Although not specifically described in the above embodiment, any information can be displayed as long as the information displayed by the viewer terminal is related to data collected from each tracking terminal. For example, sensing data may also be displayed on the viewer terminal. For example, each yacht may be displayed by expressing the wind direction with an arrow and the wind speed with the length of the arrow. Alternatively, when the line serve 102 includes an acceleration sensor, the degree of inclination of the ship may be displayed, or the acceleration itself indicated by the acceleration sensor may be displayed next to the longitude / latitude information shown in FIG. 25, for example. Also good.

Further, in the embodiment described above, the case where only the current position of each yacht is displayed is shown in FIG. 25, but in addition, the points of the respective yachts so far are connected by line segments, A wake route may also be displayed.
(13) Although not described in the above embodiment, each external memory is collected after the competition is over and the tracking information management server 140 is in competition using the tracking information stored in the external memory. The tracking information received at the same time may be matched or tracking information that could not be received may be compensated.
(14) In the above embodiment, the viewer terminal 160 performs a display update process every time it receives the latest tracking information, but the execution timing of the update process is synchronized with the reception of the latest tracking information. For example, the display update process may be performed every predetermined time (for example, every 5 seconds).
(15) In the above embodiment, an example has been shown in which only the latest tracking information and the previous tracking information are used to specify the traveling direction. However, the advancing direction may be the advancing direction that should be specified by obtaining an average value from a plurality of advancing directions obtained between tracking information using past tracking information. A trajectory may be obtained by the square method to specify a traveling direction of a curve type instead of a line type.
(16) The execution processing timing shown in the above embodiment is one specific example, and may be other time. Since these optimum times differ depending on the system scale of the tracking system, the optimum numerical value may be set by the operator's hand when operating the tracking system. The optimum time may be determined according to the degree of congestion of communication traffic by creating an actual system and performing an operation simulation.
(17) The communication protocol used for communication between the tracking terminals, the tracking terminal and the relay terminal, and the communication protocol used between the relay terminal and the tracking management server shown in the above embodiment are both examples. Any other communication protocol may be used as long as it can transmit and receive the tracking information described in the above embodiment. For example, the basic data transfer procedure, HDLC (High-level Data Link Control procedure) procedure, PPP (Point-to-Point Protocol) etc. are used as the data link layer, IP (Internet Protocol), UDP (User Datagram Protocol), TCP (Transmission Control Protocol) may be used as a network layer and a transport layer.
(18) In the above embodiment, the relay terminals 120a to 120c transmit untransmitted tracking information to the tracking information management server 140 using a wireless LAN ad hoc mode or a cellular phone network.

This may be transmitted using both of them, or the one that can be used may be used in accordance with a predetermined priority order. For example, if it is desired to reduce the communication cost, the relay terminal first transmits tracking information using the ad hoc mode of the wireless LAN, and a response signal for confirmation of reception is received from the tracking information management server 140 according to the transmission. If it does not arrive in time, it may be configured to transmit via a cellular phone network.
(19) The location information collection system according to the present invention is not limited to the use in the sailing competition shown in the above embodiment, but is a case where the location information of a plurality of mobile terminals is desired to be captured in real time as much as possible. For example, when a known service network such as a mobile phone network is difficult to use (mountain area, undeveloped area, or when the service network cannot be used due to a disaster, etc.) or to use a system that wants to reduce communication costs For example, it may be used for car racing in the desert, or may be used as a system for preventing distress in orienteering, for example. In the case of car racing, the vehicle will hold a tracking terminal, and the relay terminal shall be installed beside the course at a predetermined interval. In the case of orienteering, users participating in the competition, competition monitors, judges, etc. Holds the tracking terminal, and the relay terminal is installed in a tree, for example.

In addition, you may utilize also in the player training of a sailing competition. In the case of training, information on sensors (wind direction, wind speed, inclination, acceleration) attached to the athlete's boat can be captured in real time. While holding the viewer terminal and viewing the sensor information displayed on the viewer terminal, it is possible to immediately give an instruction to the practitioner (for example, using a loudspeaker, a mobile phone, a wireless communication device, etc.).
(20) The tracking information transmission / reception operation and the tracking information recording process (see FIGS. 17 to 24) shown in the above-described embodiment are performed on a processor such as a PC terminal and various circuits connected to the processor. It is also possible to record a control program consisting of program codes for causing the program code to be recorded on a recording medium, or to distribute and distribute the program via various communication paths. Such recording media include IC cards, hard disks, optical disks, flexible disks, ROMs, and the like. The distributed and distributed control program is used by being stored in a memory or the like that can be read by the processor, and the processor executes the control program, thereby realizing various functions as shown in the embodiment. Will come to be.
(21) In the above embodiment, the tracking terminals 100a to 100d, the relay terminals 120a to 120c, the tracking information management server 140, and the viewer terminal 160 are realized by software processing. May be realized by a dedicated circuit that executes the processing shown in the above embodiment.

  Further, in the case of realizing with a dedicated circuit, the functional units of the tracking terminals 100a to 100d, the relay terminals 120a to 120c, the tracking information management server 140, and the viewer terminal 160 may be integrated. You may implement | achieve by several LSI (Large Scale Integration). A plurality of functional units may be realized by one LSI. The LSI may be called IC (Integrated Circuit), VLSI (Very Large Scale Integration), ULSI (Ultra-Large Scale Integration), or the like depending on the degree of integration.

  Of course, it may be realized by a combination of a computer system and a dedicated circuit.

  The tracking system according to the present invention is useful for tracking the location of a yacht in real time in a sailing competition.

100a to 100d tracking terminal 101 GPS receiving unit 102 sensor unit 103 low power radio unit 104 information storage unit 105 external memory 106 terminal control unit 120a to 120c relay terminal 121 wireless LAN network unit 122 mobile phone network unit 123 low power radio unit 124 Information storage unit 125 External memory 126 Relay control unit 140 Tracking information management server 141 Wireless network unit 142 Wired network unit 143 Viewer terminal communication unit 144 Information storage unit 146 Server management unit 160 Viewer terminal 161 Tracking information communication unit 162 Track processing unit 163 Input operation unit 164 Display unit 166 Viewer terminal control unit 170 Base station 180 Internet network

Claims (3)

A location information collection system comprising a plurality of mobile terminals, a relay device, and a server device, and collecting location information of the plurality of mobile terminals,
The mobile terminal is
Positioning means for sequentially measuring the position of the terminal itself to generate position information;
First transmission means for sequentially transmitting the position information generated by the positioning means, the time when the position indicated by the position information is measured, and the own terminal identification information for identifying the own terminal;
First acquisition means for acquiring position information of other terminals not held by the own terminal from other terminals;
Second storage means for storing the position information of the other terminal acquired by the first acquisition means in association with the time when the position indicated by the position information is measured and the other terminal identification information for identifying the other terminal. When,
Second transmission means for sequentially transmitting other terminal information, which is stored in the second storage means and includes at least other terminal identification information and time associated therewith, by short-range wireless;
With
The relay device is
Second acquisition means for acquiring from the mobile terminal the position information of the mobile terminal or another mobile terminal different from the mobile terminal, and the time when the position indicated by the position information is measured;
Transmitting means for transmitting the position information and time acquired by the second acquisition means and the identification information of the mobile terminal corresponding to the position information to the server device by long-distance radio;
With
The server device
Receiving means for receiving position information, time, and identification information transmitted by the relay device;
Recording means for recording the positional information, time and identification information received by the receiving means in association with each other;
A position information collection system comprising: output means for outputting position information recorded in the recording means, time, and identification information. The position information search system further includes:
The position information collection system according to claim 1, further comprising: a viewer terminal that includes display means for displaying information based on the position information output by the output means. The mobile terminal further includes:
Receiving means for receiving other terminal information transmitted by the second transmitting means of another mobile terminal;
Detecting means for detecting whether or not the position information corresponding to the identification information of the other terminal indicated by the other terminal information and the time is stored in the second storage means,
The first acquisition means requests the position information detected by the detection means not to be stored in the second storage means to another mobile terminal that has transmitted the other terminal information received by the reception means. With request means,
The mobile terminal further includes:
The mobile terminal tracking information transmitting means for transmitting the location information of the other terminal requested by the request means of the other mobile terminal to the other mobile terminal that has made the request. Location information collection system.

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