JP2014068261A - Radio communication terminal and radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio communication terminal and radio communication system capable of efficiently collecting information by efficiently propagating information with radio communication terminals of an unspecified large number of users.SOLUTION: A radio communication terminal 10 comprises: an operation unit 206; a storage unit 205; a multi-hop processing unit 200 and 212 which stores a questionnaire result in the storage unit as an information block in association with time information, position information, and terminal identification information when the questionnaire result is created by operation at the operation unit, performs broadcast distribution of the information block stored in the storage unit while receiving an information block transmitted by broadcast distribution, stores the received information block in the storage unit when the received information block has not been stored in the storage unit, and transmits an information block already stored in the storage unit to a radio communication terminal which is a connection destination when the information block already stored in the storage unit is different from the received information block.

Description

  The present invention relates to a radio communication terminal that performs multi-hop communication through an ad hoc network, and a radio communication system including a plurality of the radio communication terminals.

  2. Description of the Related Art Conventionally, a wireless communication terminal that transmits and receives voice or data by multi-hop communication to a specific counterpart wireless communication terminal via an ad hoc network in response to detection of occurrence of a disaster is known (see, for example, Patent Document 1). ). Here, multi-hop communication is wireless communication performed between wireless communication terminals without going through an infrastructure such as a base station. An ad hoc network is a wireless communication system including wireless communication terminals that perform multi-hop communication. In the event of a disaster, the base station often fails due to a power failure or the like, or access requests are too concentrated in the disaster occurrence area, making it inaccessible. Therefore, an ad hoc network that does not depend on a base station is particularly advantageous because communication is possible when a disaster occurs.

  On the other hand, techniques for propagating and sharing information between a plurality of wireless communication terminals through an ad hoc network are known (see, for example, Patent Document 2, Patent Document 3, and Non-Patent Document 1). In Patent Document 2 and Non-Patent Document 1, when a certain wireless communication terminal broadcasts information to surrounding wireless communication terminals, another wireless communication terminal that has received the information further transmits the information to surrounding wireless communication terminals. A wireless communication system that broadcasts information is disclosed.

  Further, in Patent Document 3, a plurality of wireless communication terminals are divided into groups, and one leader terminal is provided in each group, and a multi-hop communication route is established by negotiation between leader terminals to propagate information. A communication system is disclosed.

Japanese Patent No. 4498208 JP 2005-252755 A JP 2007-336360 A

Wataru Uemura, Tadashi Murata, “Proposal of Information Sharing System Using Ad Hoc Network”, Artificial Intelligence Society Study Group Material SIG-Challenge-B001-8, Japan Society for Artificial Intelligence, p.43-46

  When disasters occur, public transportation such as trains and buses are often not functioning. For users in the affected areas to evacuate quickly, for example, whether there is a power outage area within walking distance. Getting local information is important. However, in the wireless communication terminal disclosed in Patent Document 1, a user can obtain local information from an acquaintance if the acquaintance is within walking distance, but cannot obtain local information when the acquaintance is outside the walking area. . In order to obtain local information, it is preferable that information can be obtained from an unspecified number of users who are within walking distance.

  On the other hand, in the wireless communication systems described in Patent Document 2 and Non-Patent Document 1, information can be obtained from an unspecified number of users who are within walking distance, but the wireless communication terminal that broadcasts the information is the wireless communication destination. Since the same information is often received by broadcast distribution from a communication terminal, there is a problem that unnecessary information is collected.

  Furthermore, in the wireless communication system described in Patent Document 3, information can be obtained from an unspecified number of users who are within walking distance. However, since complicated routing processing is required, each user who moves irregularly It is difficult to efficiently propagate information between wireless communication terminals.

  Accordingly, an object of the present invention made in view of the above point is to provide wireless communication capable of efficiently collecting information by efficiently propagating information between wireless communication terminals of an unspecified number of users. An object is to provide a terminal and a wireless communication system including a plurality of the wireless communication terminals.

In order to solve the above problems, a wireless communication terminal according to the present invention provides:
An operation unit that can input answers to questionnaires,
A storage unit for storing terminal identification information and an information block;
When a questionnaire result is created by the operation of the operation unit, the questionnaire result includes time information indicating a time when the questionnaire result is created, position information indicating a position where the questionnaire result is created, and the terminal identification information And stored in the storage unit as the information block,
Broadcast distribution of the information block stored in the storage unit,
A wireless communication terminal to which multi-hop communication is connected is determined from among other wireless communication terminals that are performing broadcast distribution, an information block that is broadcast distributed from the determined wireless communication terminal is received, and the received information block is When not stored in the storage unit, the received information block is stored in the storage unit, and when an information block different from the information block is stored in the storage unit, the different information block is stored in the connection destination. A multi-hop processing unit for transmitting to a wireless communication terminal of
It is characterized by providing.

Furthermore, in the wireless communication terminal according to the present invention,
The multi-hop processing unit
When broadcast distribution, the terminal identification information is notified to surrounding wireless communication terminals,
When receiving an information block broadcast from another wireless communication terminal, store the terminal identification information notified from the other wireless communication terminal in the storage unit,
When determining a wireless communication terminal that is a connection destination of multi-hop communication, the wireless communication terminal of the connection destination is selected from wireless communication terminals that notify terminal identification information different from the terminal identification information stored in the storage unit. The terminal is determined.

Furthermore, the wireless communication terminal according to the present invention is:
A display unit for displaying a map screen based on the questionnaire result;
An application processing unit that displays the map screen on the display unit according to an operation of the operation unit,
The storage unit further stores map information,
When the display instruction of the map screen is input by the operation of the operation unit, the application processing unit displays the questionnaire result on the map displayed by the map information, and the position associated with the questionnaire result The screen displayed at the position indicated by the information is displayed on the display unit as the map screen.

Further, the wireless communication system according to the present invention is:
A plurality of the above wireless communication terminals are provided,
At least one wireless communication terminal among the plurality of wireless communication terminals broadcasts and distributes the information block stored in the storage unit,
The other wireless communication terminals connectable to the broadcast-delivering wireless communication terminal determine a wireless communication terminal to which multi-hop communication is connected from the broadcast-distributed wireless communication terminals, and determine the determined wireless communication terminal. When an information block broadcasted from a communication terminal is received and the received information block is not stored in the storage unit, the received information block is stored in the storage unit and is different from the information block. Is stored in the storage unit, the different information block is transmitted to the wireless communication terminal of the connection destination.

In the wireless communication terminal according to the present invention,
The multi-hop processing unit
When a time during which a new information block is not received is equal to or longer than a predetermined time or under a predetermined condition, the broadcast information block is transmitted to increase transmission power.

  According to the present invention, a wireless communication terminal capable of efficiently collecting information by efficiently propagating information to wireless communication terminals of an unspecified number of users, and a plurality of the wireless communication terminals A wireless communication system provided can be provided.

It is a functional block diagram which shows the structure of the principal part of the radio | wireless communication terminal which concerns on one embodiment of this invention. It is a flowchart which shows the process of the radio | wireless communication terminal which concerns on one embodiment of this invention. It is a figure which shows the example of a screen display by the radio | wireless communication terminal which concerns on one embodiment of this invention. It is a figure which shows the example of the radio | wireless communications system which concerns on one embodiment of this invention. It is a sequence diagram which shows operation | movement of the radio | wireless communications system which concerns on one embodiment of this invention. It is a flowchart which shows the comparison process of the information block of the radio | wireless communications system which concerns on one embodiment of this invention. It is a flowchart which shows the process performed when the information delivery terminal of the radio | wireless communications system which concerns on one embodiment of this invention carries out broadcast delivery.

  Hereinafter, an embodiment of the present invention will be described with reference to FIGS.

  FIG. 1 is a functional block diagram showing a configuration of a main part of radio communication terminal 10 according to the present embodiment of the present invention. The wireless communication terminal 10 includes a wireless LAN unit 200, a GPS signal receiving unit 201, a mobile phone communication unit 202, a control unit 203, a clock unit 204, a storage unit 205, an operation unit 206 such as operation keys, and an organic EL (Electro Luminescence). A display unit 207 such as a display is provided.

  The wireless LAN unit 200 performs multi-hop communication processing. That is, the wireless LAN unit 200 converts data received from the ad hoc network into a predetermined format and outputs the data to the control unit 203, while converting data input from the control unit 203 according to a predetermined protocol and transmits the data to the ad hoc network. To do. The wireless LAN unit 200 is normally stopped and is activated while the wireless communication terminal 10 is in a disaster mode described later. The output power of the wireless LAN unit 200 is set so that multi-hop communication is possible between wireless communication terminals of an unspecified number of users while keeping power consumption low. For example, the output power of the wireless LAN unit 200 is such that, when the user carrying the wireless communication terminal 10 is in a city in the Tokyo metropolitan area, several people are in the communication area (for example, the communication distance radius is several m to several tens). m) is set to such a value.

  The GPS signal receiving unit 201 periodically receives a signal from a GPS (Global Positioning System) communication satellite and outputs the signal to the control unit 203 while the wireless communication terminal 10 is in the disaster mode.

  The mobile phone communication unit 202 receives mobile phone radio waves, broadcast waves, and the like from a base station (not shown), performs demodulation and the like, and outputs them to the control unit 203 while being input from the control unit 203. Data is subjected to processing such as modulation and transmitted to the base station. As a result, the mobile phone communication unit 202 enables mobile phone functions such as telephone, e-mail, and TV broadcast viewing. Note that the mobile phone communication unit 202 may enable the mobile phone function while the wireless LAN unit 200 is activated.

  The storage unit 205 stores in advance a program for controlling the wireless communication terminal 10, terminal identification information, distribution terminal identification information, map information, and a disaster information questionnaire format. The program includes an application program for a disaster mode that is executed by the control unit 203 while the wireless communication terminal 10 is in the disaster mode. The terminal identification information is identification information unique to the wireless communication terminal 10. The distribution terminal identification information is information indicating which information distribution terminal the own terminal is while the wireless communication terminal 10 operates as an information distribution terminal described later. Furthermore, the storage unit 205 stores an information block described later.

  The control unit 203 executes the program stored in the storage unit 205 and controls the entire wireless communication terminal 10. In addition, when a GPS signal is input from the GPS signal receiving unit 201, the control unit 203 obtains position information (longitude, latitude) of the wireless communication terminal 10 and stores it in the storage unit 205. Furthermore, the control unit 203 includes a disaster occurrence detection unit 210, a disaster mode application processing unit 211, a multi-hop communication control unit 212, and a display control unit 213.

  In the disaster occurrence detection unit 210, the cellular phone communication unit 202 receives a disaster occurrence notification (for example, an emergency earthquake warning) from a base station (not shown), or the wireless LAN unit 200 sends a disaster occurrence notification by multi-hop communication. When received, the occurrence of a disaster is detected. In order for the wireless LAN unit 200 to receive a disaster occurrence notification, the wireless LAN unit 200 needs to be activated in advance.

  The disaster mode application processing unit (application processing unit) 211 executes the disaster mode application program stored in the storage unit 205 when the disaster detection unit 210 detects the occurrence of a disaster. In this specification, the state in which the disaster mode application processing unit 211 is executing the application program for the disaster mode is referred to as “disaster mode”, and the other state is referred to as “normal mode”.

  The multi-hop communication control unit 212 controls the wireless LAN unit 200 while the wireless communication terminal 10 is in the disaster mode, and controls multi-hop communication with other wireless communication terminals. The wireless LAN unit 200 and the multi-hop communication control unit 212 are combined to constitute a multi-hop processing unit.

  The display control unit 213 controls display on the display unit 207.

  The clock unit 204 periodically outputs time information to the control unit 203.

  Next, with reference to FIG.2 and FIG.3, operation | movement of the radio | wireless communication terminal 10 which concerns on this Embodiment is demonstrated. FIG. 2 is a flowchart showing processing of radio communication terminal 10 according to the present embodiment. FIG. 3 is a diagram showing a screen display example by the wireless communication terminal 10 according to the present embodiment.

  When the mobile phone communication unit 202 receives the disaster occurrence notification, the disaster occurrence detection unit 210 detects the occurrence of the disaster (step S11), and the display control unit 213 causes the display unit 207 to display the disaster occurrence notification screen (FIG. 3 (i )) Is displayed (step S12). The disaster occurrence notification screen informs the user of the content of the disaster that has occurred, and informs the user that the wireless communication terminal 10 is switched from the normal mode to the disaster mode. Further, the multi-hop communication control unit 212 activates the wireless LAN unit 200, and the disaster mode application processing unit 211 reads out and executes the disaster mode application program from the storage unit 205 (step S13). As a result, the wireless communication terminal 10 switches to the disaster mode. When the wireless LAN unit 200 is activated, a multi-hop communication process is started with another wireless communication terminal according to a procedure described in detail later.

  After step S13, the disaster mode application processing unit 211 reads the format of the disaster information questionnaire from the storage unit 205 (step S14), and in accordance with the format, the display control unit 213 displays the questionnaire screen (FIG. 3 (ii) )) Is displayed (step S15). Here, the format of the disaster information questionnaire shown in FIG. 3 (ii) is a format in which the user can input an answer to the question whether a power outage has occurred at the current position. Further, the format includes a current time 21 and a current position 22. The display control unit 213 displays the current time 21 and the current position 22 by acquiring the current time information and the position information from the clock unit 204 and the storage unit 205, respectively. In addition, the display control unit 213 displays an indicator 20 indicating that the wireless communication terminal 10 is in the disaster mode at a predetermined position on the questionnaire screen.

  When the user operates the operation unit 206 to input an answer to the questionnaire (questionnaire result), the multi-hop communication control unit 212 associates the questionnaire result with the current time information, current position information, and terminal identification information, The information is stored in the storage unit 205 as one information block. Here, the time information and position information included in the information block indicate the time and position at which the questionnaire result is created, and the terminal identification information indicates the wireless communication terminal at which the questionnaire result is created. Since the information block is stored in the storage unit 205, the multi-hop communication control unit 212 can transfer the information block to another wireless communication terminal by multi-hop communication. The multi-hop communication control unit 212 repeats transmission / reception of information blocks with other wireless communication terminals, and sequentially stores the received information blocks in the storage unit 205 (step S16). During this time, the disaster mode application processing unit 211 causes the display control unit 213 to display an operation selection screen (FIG. 3 (iii)) on the display unit 207.

  In the operation selection screen of FIG. 3 (iii), the user selects a re-input to the questionnaire, sees the disaster information map based on the questionnaire result, or cancels the disaster mode. 25 can be selected. When the user selects the re-input of the answer to the questionnaire (step S17, Yes), the disaster mode application processing unit 211 returns to step S15, and the display control unit 213 displays a questionnaire screen (FIG. 3 (ii)). ) Is displayed. In this way, the user has changed in the questionnaire results that were previously answered at the same location (or region) (for example, when there has been a change from "power outage" to "no power outage") ) Can update the questionnaire results.

  On the other hand, when the user selects display of the disaster information map based on the questionnaire result (step S18, Yes) instead of re-inputting the answer to the questionnaire (step S17, Yes), the disaster mode application The processing unit 211 causes the display control unit 213 to display the disaster information map screen (FIG. 3 (iv)) on the display unit 207 (step S19). Here, the display control unit 213 associates the questionnaire result included in each information block stored in the storage unit 205 with the questionnaire result on the map displayed by the map information stored in the storage unit 205. A disaster information map screen displayed at the position indicated by the position information is created and displayed on the display unit 207. The disaster information map screen includes a disaster information map display area 26, a selection button display area 27 for returning to the operation selection screen of FIG. 3 (iii), and selection button display areas 28 and 29 for reducing and expanding the disaster information map. including.

  The disaster information map can be displayed in various ways. In the example of FIG. 3 (iv), the current position of the wireless communication terminal 10 is displayed as a center, and an area within walking distance from the current position (for example, a radius of about 10 km) is displayed. Also, the presence or absence of the occurrence of a power failure is indicated by a black circle and a white circle, respectively, and the accuracy of information is indicated by the size of the circle (for example, the larger the circle, the higher the accuracy). For example, when there are a plurality of questionnaire results for the same position or region, the accuracy of the information can be determined based on the position information (the position where the questionnaire results are created). Or based on time information (questionnaire result creation time), the newer the questionnaire result, the higher the accuracy may be set.

  In this way, by displaying the questionnaire results collected from the wireless communication terminals of an unspecified number of users superimposed on the map information, the user can visually determine whether or not there is an unpowered area within walking distance. Understand and take appropriate actions, such as walking to evacuate to an area where there is no power outage.

  If the user selects not to display the disaster information map (step S18, No) and cancels the disaster mode (step S20, Yes), the multi-hop communication control unit 212 stops the wireless LAN unit 200, and the disaster mode The application processing unit 211 ends the disaster mode application program (step S21). After that, the processing in FIG. 2 ends, and the control unit 203 starts processing in the normal mode, such as causing the display control unit 213 to display a standby screen (not shown) on the display unit 207. On the other hand, while the user does not select anything (step S20, No), the display of the operation selection screen of FIG. 3 (iii) is continued (step S16).

  Next, with reference to FIG. 4 to FIG. 6, an operation between a plurality of wireless communication terminals 10 constituting the wireless communication system 300 according to the present embodiment will be described. FIG. 4 is a diagram illustrating a configuration example of a radio communication system 300 according to the present embodiment. FIG. 5 is a sequence diagram showing an operation of radio communication system 300 according to the present embodiment. FIG. 6 is a flowchart showing the information block comparison process of FIG.

  In FIG. 4, a wireless communication system 300 configuring an ad hoc network includes a plurality of wireless communication terminals 31 to 35. Each of the wireless communication terminals 31 to 35 has the configuration and functions of the wireless communication terminal 10 described above, and can operate as either an information distribution terminal or an information reception terminal. Here, the “information distribution terminal” performs an operation similar to that of the base station, broadcasts the distribution terminal identification information to surrounding wireless communication terminals, and broadcast-distributes each information block held in the own terminal. On the other hand, the “information receiving terminal” receives the information block broadcast-distributed from the information distribution terminal, and stores the received block in the own terminal when the received information block is not held in the own terminal. Further, when the information receiving terminal holds an information block different from the received information block in its own terminal, the information receiving terminal transmits the different information block to the connection destination information distribution terminal.

  It may be set by any method whether each wireless communication terminal 31 to 35 is operated as an information distribution terminal or an information reception terminal. For example, it may be set in advance at the time of manufacture or the like, or a wireless communication terminal within a predetermined time after the questionnaire result is created by the user in step S15 in FIG. The wireless communication terminal may be automatically set as the information distribution terminal.

  Hereinafter, for convenience of explanation, the wireless communication system 300 includes five wireless communication terminals 31 to 35, of which two wireless communication terminals 31 and 32 operate as information distribution terminals, and three wireless communication terminals 33. ˜35 are operating as information receiving terminals.

  In FIG. 5, the information distribution terminals 31 and 32 notify the surroundings of distribution terminal identification information indicating which information distribution terminal the terminal itself is (step S30). Further, each of the information distribution terminals 31 and 32 sequentially and repeatedly distributes each information block stored in the storage unit 205 of its own terminal.

  On the other hand, the information receiving terminals 33 to 35 compare the signal strengths from the information delivery terminals 31 and 32, and determine the information delivery terminals 31 and 32 having the highest signal strength as the first connection destination of the multi-hop communication (step). S31). In this example, the information receiving terminals 33 and 34 determine the information distribution terminal 31 as the first connection destination, and the information reception terminal 35 determines the information distribution terminal 32 as the first connection destination. In the following processing, the processing performed between the information distribution terminal 31 and the information receiving terminals 33 and 34 will be mainly described, and the processing performed between the information distribution terminal 32 and the information receiving terminal 35 is the same. The description is omitted.

  Next, the information receiving terminals 33 and 34 sequentially receive each information block broadcast-distributed from the first connection destination information distribution terminal 31 (step S32), and for each information block to be received, the storage unit of its own terminal Each information block stored in 205 is compared (step S33). As a result of the comparison, when the information receiving terminals 33 and 34 do not hold the same information block as the received information block in the own terminal, the information receiving terminals 33 and 34 store the received information block in the storage unit 205 of the own terminal. Here, the information receiving terminals 33 and 34 also store the distribution terminal identification information of the connection destination information distribution terminal 31 in the storage unit 205. If the information receiving terminals 33 and 34 later determine that they have moved out of the communication range of the information distribution terminal 31 based on the signal strength from the information distribution terminal 31, the information reception terminals 33 and 34 delete the distribution terminal identification information from the storage unit 205. In this way, the information receiving terminals 33 and 34 record the distribution terminal identification information of the information distribution terminal 31 that has received the information block among the connectable information distribution terminals 31 and 32.

  Further, when the information receiving terminals 33 and 34 hold an information block different from the information block received from the information distribution terminal 31 in step S33, the information reception terminals 33 and 34 transmit the different information block to the connection destination information distribution terminal 31. Decide what to do. This comparison process will be described in more detail later.

  If the information receiving terminals 33 and 34 decide to transmit the information block to the information distribution terminal 31 as a result of the comparison processing in step S33, the information reception terminals 33 and 34 receive resource allocation from the information distribution terminal 31 in steps S34 to S37. First, the information receiving terminals 33 and 34 transmit a resource allocation request (preamble) to the information distribution terminal 31 via a random access channel (RACH) (step S34). When receiving the resource allocation request from the information receiving terminals 33 and 34, the information distribution terminal 31 returns a RACH Response (RACH response) signal to the information receiving terminals 33 and 34 (step S35). When receiving the RACH response from the information distribution terminal 31, the information reception terminals 33 and 34 return a response (connection request) to the information distribution terminal 31 (step S36). When receiving a response from the information receiving terminals 33 and 34, the information distribution terminal 31 transmits a resource allocation signal to the information receiving terminals 33 and 34 (step S37). Note that the resource allocation process may be performed in a different procedure from that described in steps S34 to S37.

  The information receiving terminals 33 and 34 that have received the resource assignment sequentially transmit each information block determined to be transmitted in step S33 to the information distribution terminal 31 (step S38). When the information distribution terminal 31 sequentially receives the information blocks from the information reception terminals 33 and 34, the information distribution terminal 31 stores the information blocks in the storage unit 205 of the terminal itself. Then, the information distribution terminal 31 includes the newly acquired information block in the broadcast distribution information (step S39).

  The information receiving terminals 33 and 34 further receive an information block from the information distribution terminal 31, and if there is a new information block, stores it in the storage unit 205 of its own terminal. Thereby, the information receiving terminals 33 and 34 can collect information blocks held by the other information receiving terminals 34 and 33 but not held by the own terminal. On the other hand, when the information receiving terminals 33 and 34 determine that the new information block is not included in the broadcast distribution information from the information distribution terminal 31, the information reception terminals 33 and 34 determine another information distribution terminal 32 as the next connection destination, and the information distribution terminal The broadcast distribution from 32 is received (step S41). Here, the information receiving terminals 33 and 34 are information distribution terminals that are reporting connectable terminal identification information different from the distribution terminal identification information stored in the storage unit 205 of the own terminal among connectable information distribution terminals. Select the next connection destination. Thereby, it is possible to avoid receiving the same broadcast distribution repeatedly and efficiently collect new information blocks.

  Thereafter, the processes in steps S33 to S41 are repeated until there is no connectable information distribution terminal. Through the above processing, the information distribution terminals 31 and 32 and the information reception terminals 33 to 35 can collect and share the same information block.

  Here, the multi-hop comparison process performed by the information receiving terminals 33 and 34 in step S33 of FIG. 5 will be described in more detail with reference to FIG. The information receiving terminals 33 and 34 perform the process of FIG. 6 for each information block received from the information distribution terminal 31. First, the information receiving terminals 33 and 34 are configured so that the information block including the same terminal identification information as the terminal identification information (terminal identification information indicating the terminal for which the questionnaire result is created) included in the received information block is stored in the storage unit 205. Compare what is in If there is no information block including the same terminal identification information in the storage unit 205 (No in step S51), non-transmission information is attached to the received information block and stored in the storage unit 205 (step S55). The non-transmission information means that the information block is not transmitted to the information distribution terminal 31 because the connection destination information distribution terminal 31 holds the information block.

  If there is an information block including the same terminal identification information in the storage unit 205 (step S51, Yes), whether there is an information block including the same terminal identification information that includes the same time information Compare. When there is an information block including the same time information (step S52, Yes), non-transmission information is attached to the information block including the same time information stored in the storage unit 205, and the received information block is discarded (step S52). S56).

  When there is no information block containing the same time information among the information blocks containing the same terminal identification information in the storage unit 205 (step S52, No), there are those containing the same position information in the same information block. Compare if there is. If there is no information block including the same position information (No at Step S53), non-transmission information is attached to the received information block and stored in the storage unit 205 (Step S55). When there is an information block including the same position information (step S53, Yes), the information block including the same position information is compared to determine whether the questionnaire results are the same. If the questionnaire results are the same (step S54, Yes), the non-transmission information is attached to the information block including the same questionnaire result stored in the storage unit 205, and the received information block is discarded (step S56). If the questionnaire results are different (No in step S54), non-transmission information is attached to the received information block, and this is overwritten on the information block stored in the storage unit 205 (step S57). ). Thereby, the questionnaire result at the same position is updated.

  After step S55, S56, or S57, when there is another received information block (step S58, Yes), the information receiving terminals 33 and 34 return to step S51 and perform comparison processing on the next received information block To start. When there is no other received information block (step S58, No), the information receiving terminals 33 and 34 next determine whether or not non-transmission information is attached to all the information blocks stored in the storage unit 205. . When non-transmission information is attached to all the information blocks in the storage unit 205 (step S59, Yes), the information reception terminals 33 and 34 determine that transmission to the information distribution terminal 31 is not performed (step S60). ), The comparison process of FIG. On the other hand, if there is an information block to which non-transmission information is not attached (step S59, No), the information receiving terminals 33 and 34 transmit the information block to which the non-transmission information is not attached to the information distribution terminal 31. Determination is made (step S61), and the comparison process of FIG. 6 is terminated. The information receiving terminals 33 and 34 delete all non-transmitted information in the storage unit 205 of the own terminal after transmitting the information block to the information distribution terminal 31 in step S38 of FIG.

  According to this embodiment, after the information distribution terminal distributes the questionnaire result to the information receiving terminal, the information receiving terminal transmits the questionnaire result that the information distribution terminal does not hold to the information distribution terminal. The communication terminal can efficiently collect questionnaire results.

  In addition, this invention is not limited only to the said embodiment, Many deformation | transformation or a change is possible. For example, the contents of the questionnaire are not limited to disaster information such as power outage information, fire information, and weather information, but can handle all kinds of contents such as crime information, traffic information, and word-of-mouth information for shops.

  In the above embodiment, the case where the wireless communication terminal 10 is a mobile phone terminal has been described. However, the wireless communication terminal 10 can also be applied to other types of terminals capable of multi-hop communication.

  In the above embodiment, after the disaster occurrence detection unit 210 detects the occurrence of a disaster in step S11 of FIG. 2, the disaster occurrence notification screen is displayed in step S12, and the normal mode is automatically switched from the normal mode to the disaster mode in step S13. However, the present invention is not limited to this. For example, on the disaster occurrence notification screen displayed in step S12, the user can select whether or not to switch to the disaster mode, and when the user selects switching to the disaster mode, the normal mode is switched to the disaster mode. May be.

  Further, in step S13 in FIG. 2, the execution of the disaster mode application program is started and the wireless LAN unit 200 is activated to enable multi-hop communication. However, the present invention is not limited to this. For example, after the user completes the creation of the questionnaire result in step S15, the wireless LAN unit 200 may be activated in step S16 to start multihop communication.

  Further, in step S14 of FIG. 2, the questionnaire format is acquired from the storage unit 205 of the own terminal, but the present invention is not limited to this. The questionnaire format may be acquired, for example, by multicast delivery from the base station, or may be acquired by multi-hop communication from another wireless communication terminal.

  In addition, although the position information associated with the questionnaire result in step S15 in FIG. 2 is obtained by the control unit 203 based on the signal from the GPS signal receiving unit 201, the present invention is not limited to this. Instead, the position information may be used by allowing the user to input position information on the questionnaire screen in FIG.

  In the above embodiment, the wireless communication terminal 10 sequentially accumulates information blocks newly acquired from other wireless communication terminals in the storage unit 205. In this case, information blocks that are old and have low accuracy, Unnecessary information blocks such as information blocks transferred from outside the walking area may be accumulated. Therefore, for example, based on the time information (questionnaire result creation time) included in the information block, by deleting from the storage unit 205 information blocks that have passed a predetermined time from the questionnaire result creation time, the disaster information map Information accuracy may be improved. In addition, based on the position information (questionnaire result creation position) included in the information block, an information block including position information outside the walking range (for example, within a radius of 10 km) from the current position is deleted from the storage unit 205. Further, accumulation of unnecessary information blocks may be prevented.

  In the above embodiment, “terminal identification information” and “distribution terminal identification information” are stored separately in advance in the storage unit 205, but the present invention is not limited to this. Instead, only the terminal identification information may be stored in advance in the storage unit 205, and this terminal identification information may be used as the distribution terminal identification information.

  Also, in the above embodiment, when the time during which the information distribution terminal does not receive a new information block is longer than a certain time or under a predetermined condition, the broadcast information block is transmitted and the transmission power is increased accordingly. Accordingly, it is possible to easily obtain necessary information by expanding the communication area of the corresponding information distribution terminal.

  The predetermined condition includes a case where a communication partner of the ad hoc network is not found (or there are only a few) for a certain period of time. However, it is not implemented when there is sufficient information necessary for the information distribution terminal. The case where the necessary information is sufficient is a case where power outage information in a wide area (including areas where power is interrupted and areas where there is no power outage) can be obtained from its own point. If only the power failure information is available in the neighboring area, the broadcast information block is transmitted, and the transmission power is increased accordingly.

  For example, as shown in FIG. 7, if a new information block is not received for a certain time after the information distribution terminal broadcasts the information block in step S100 (step S101), whether or not necessary information is sufficient. (Step S102). For example, if there are information about the power outage in the information block group and the information on power outage in the area where there is no power outage is included, it is judged that there is enough information and the area in which the power outage occurs If there is only power outage information, it is determined that there is not enough information.

  If the necessary information is sufficient, the information distribution terminal performs communication by intermittent transmission (assuming only moderate fluctuation). If the necessary information is not sufficient, the information distribution terminal saves power by intermittent transmission, improves the transmission power to a certain level (step S104), and collects new information blocks. When the effect of improving the transmission power is not seen, after a certain period of time has elapsed (or when it is determined that there is no effect even at the maximum transmission power (step S103)), the information distribution terminal is stopped and the information reception terminal (Step S105). Even if there is no information delivery terminal nearby, there is a possibility that there is an information receiving terminal, so in order to grasp the number of neighboring information receiving terminals, by switching between information delivery terminal or information receiving terminal at time intervals, New information can be received.

DESCRIPTION OF SYMBOLS 10 Wireless communication terminals 31, 32 Information distribution terminals 33-35 Information receiving terminal 200 Wireless LAN part (multihop processing part)
201 GPS signal receiving unit 202 Mobile phone communication unit 203 Control unit 204 Clock unit 205 Storage unit 206 Operation unit 207 Display unit 210 Disaster occurrence detection unit 211 Disaster mode application processing unit (application processing unit)
212 Multi-hop communication control unit (multi-hop processing unit)
213 Display control unit 300 Wireless communication system

Claims (5)

An operation unit that can input answers to questionnaires,
A storage unit for storing terminal identification information and an information block;
When a questionnaire result is created by the operation of the operation unit, the questionnaire result includes time information indicating a time when the questionnaire result is created, position information indicating a position where the questionnaire result is created, and the terminal identification information And stored in the storage unit as the information block,
Broadcast distribution of the information block stored in the storage unit,
A wireless communication terminal to which multi-hop communication is connected is determined from among other wireless communication terminals that are performing broadcast distribution, an information block that is broadcast distributed from the determined wireless communication terminal is received, and the received information block is When not stored in the storage unit, the received information block is stored in the storage unit, and when an information block different from the information block is stored in the storage unit, the different information block is stored in the connection destination. A multi-hop processing unit for transmitting to a wireless communication terminal of
A wireless communication terminal comprising: The multi-hop processing unit
When broadcast distribution, the terminal identification information is notified to surrounding wireless communication terminals,
When receiving an information block broadcast from another wireless communication terminal, store the terminal identification information notified from the other wireless communication terminal in the storage unit,
When determining a wireless communication terminal that is a connection destination of multi-hop communication, the wireless communication terminal of the connection destination is selected from wireless communication terminals that notify terminal identification information different from the terminal identification information stored in the storage unit. The wireless communication terminal according to claim 1, wherein a terminal is determined. A display unit for displaying a map screen based on the questionnaire result;
An application processing unit that displays the map screen on the display unit according to an operation of the operation unit,
The storage unit further stores map information,
When the display instruction of the map screen is input by the operation of the operation unit, the application processing unit displays the questionnaire result on the map displayed by the map information, and the position associated with the questionnaire result The wireless communication terminal according to claim 1, wherein a screen displayed at a position indicated by information is displayed on the display unit as the map screen. A plurality of the wireless communication terminals according to any one of claims 1 to 3,
At least one wireless communication terminal among the plurality of wireless communication terminals broadcasts and distributes the information block stored in the storage unit,
The other wireless communication terminals connectable to the broadcast-delivering wireless communication terminal determine a wireless communication terminal to which multi-hop communication is connected from the broadcast-distributed wireless communication terminals, and determine the determined wireless communication terminal. When an information block broadcasted from a communication terminal is received and the received information block is not stored in the storage unit, the received information block is stored in the storage unit and is different from the information block. Is stored in the storage unit, the different information block is transmitted to the wireless communication terminal of the connection destination. The multi-hop processing unit
2. The wireless communication according to claim 1, wherein when a time during which a new information block is not received is equal to or longer than a predetermined time or under a predetermined condition, the broadcast information block is transmitted to increase transmission power. Terminal.

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