JP2016005119A - Information transmission reception system, information communication device, management device, information transmission reception method, program for information communication device, and program for management device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid possible congestion which may occur due to an increase of a load on a network when meter-reading terminals simultaneously perform connection processing.SOLUTION: The information transmission reception system includes: a plurality of information communication devices each of which has communication means that is in the jurisdiction of a base station corresponding to its location and transmits prescribed information to a management device via the base station having the jurisdiction after a lapse of standby time, and storage means for storing the standby time which is set; and the management device which has communication means for receiving the prescribed information from the plurality of information communication devices via the base station having the jurisdiction, and timer setting means for determining the standby time for each of the information communication devices on the basis of the connection processing capacity of the base station having the jurisdiction over the plurality of information communication devices and for setting the determined standby time for each of the plurality of information communication devices.

Description

  The present invention relates to an information transmission / reception system, an information communication apparatus, a management apparatus, an information transmission / reception method, an information communication apparatus program, and a management apparatus program.

  For example, Patent Literatures 1 to 3 disclose meter reading systems for public meters (power, gas, water, etc.) using a communication network. In such a meter reading system, the meter reading terminal performs meter reading of a public meter such as electric power, gas, and water, and transmits the meter reading value to a meter reading server.

  The invention described in Patent Document 1 is an invention related to a terminal device that performs communication with a center device connected via a communication line. In the invention described in Patent Document 1, the terminal device communicates with the center device when a time corresponding to a random number generated based on noise has elapsed.

  The invention described in Patent Document 2 is an invention related to a communication terminal device that performs communication with a server device. The invention described in Patent Document 2 delays the notification information transmission timing at the time of starting the terminal device based on the information unique to the terminal device.

  The invention described in Patent Document 3 is an invention relating to a remote meter reading system comprising a meter reading central device and a meter reading terminal device connected via a telephone line. In the invention described in Patent Literature 3, the meter-reading central device makes a simultaneous call to a plurality of meter-reading terminal devices, and the plurality of meter-reading terminal devices that receive the call sequentially transmit the measured meter-reading information meter-reading information at different times. To do.

JP 2010-109866 A JP 2009-124297 A JP 2001-086574 A

  The inventions described in Patent Documents 1 and 2 perform network load distribution by connecting a terminal to a server at random connection timing based on terminal-specific information. However, the inventions of Patent Documents 1 and 2 do not take into account a dense environment in which a large number of meter-reading terminals are connected to one base station, and the increase or decrease in the number of meter-reading terminals installed. For this reason, for example, when the meter-reading terminals are connected at the same time, for example, when power is restored, there is a risk of congestion.

  Further, since the invention described in Patent Document 3 refers only to the load increase that occurs when the meter-reading central device makes a simultaneous call, it can cope with an increase in network load in other cases that may occur in the meter-reading system. Can not.

  SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems, perform network load balancing, and prevent congestion, an information transmission / reception system, information communication apparatus, management apparatus, information transmission / reception method, information communication apparatus program, and management apparatus Is to provide a program.

  The information transmission / reception system of the present invention is respectively controlled by a base station according to a position, and after a standby time has elapsed, a communication unit that transmits predetermined information to the management device via the controlled base station, and A plurality of information communication devices each having storage means for storing the set waiting time; and a communication means for receiving the predetermined information from the plurality of information communication devices via a respective base station under jurisdiction; A timer setting for determining the standby time for each of the information communication devices based on the connection processing capability of a base station having jurisdiction over the plurality of information communication devices, and setting the determined standby times for the plurality of information communication devices, respectively. And a management device comprising means.

  An information communication apparatus according to the present invention is an information communication apparatus that is under the jurisdiction of a base station according to a position, and transmits predetermined information to the management apparatus via the jurisdiction of the base station after a standby time has elapsed. Communication means for storing, and storage means for storing the standby time set by the management apparatus.

  The management device according to the present invention is based on communication means for receiving predetermined information from a plurality of information communication devices via a base station each having jurisdiction, and connection processing capabilities of the base stations having jurisdiction over the plurality of information communication devices. And a timer setting means for determining a standby time for each of the information communication devices and setting the determined standby times to the plurality of information communication devices, respectively.

  In the information transmission / reception method according to the present invention, a plurality of information communication apparatuses each having a jurisdiction over a base station according to a position can send predetermined information to the management apparatus via the jurisdiction base station after the standby time has elapsed. Each transmitting and storing the set standby time, and the management device receives the predetermined information from the plurality of information communication devices via the respective base stations, and the plurality of information communication devices The standby time is determined for each of the information communication devices based on the connection processing capability of the base station having jurisdiction over, and the determined standby times are respectively set in the plurality of information communication devices.

  The program of the information communication device of the present invention is a management device that sends predetermined information to the computer of the information communication device under the jurisdiction of the base station according to the position via the base station under the jurisdiction after the standby time elapses. And a storage process for storing the waiting time set by the management apparatus.

  The management device program according to the present invention controls a computer of the management device to receive predetermined information from a plurality of information communication devices via a respective base station, and to control the plurality of information communication devices. A timer setting process for determining a standby time for each of the information communication devices based on a connection processing capability of a base station, and setting the determined standby times in the plurality of information communication devices, respectively, .

  The information transmission / reception system, information communication apparatus, management apparatus, information transmission / reception method, information communication apparatus program, and management apparatus program according to the present invention distribute network load even in situations where the load on the network increases, for example, when a power failure is restored. This has the effect of preventing congestion.

The block diagram of the information transmission / reception system 1 of the 1st Embodiment of this invention is shown. The block diagram of the information communication apparatus 11 of the 1st Embodiment of this invention is shown. The block block diagram of the management apparatus 12 of the 1st Embodiment of this invention is shown. The sequence chart of the operation example of the information transmission / reception system 1 of the 1st Embodiment of this invention is shown. The block diagram of the meter-reading system 5 of the 2nd Embodiment of this invention is shown. The block block diagram of the meter-reading terminal 51 of the 2nd Embodiment of this invention is shown. The block block diagram of the meter-reading server 52 of the 2nd Embodiment of this invention is shown. An example of the information which the user management database 54 of the 2nd Embodiment of this invention memorize | stores and manages is shown. The block diagram of the meter-reading system 9 of the 2nd Embodiment of this invention is shown. The sequence chart of the operation example in allocation of the return timer value of the meter-reading system 5 of the 2nd Embodiment of this invention is shown. The sequence chart of the operation example after the power failure recovery of the meter-reading system 5 of the 2nd Embodiment of this invention is shown.

<First Embodiment>
A first embodiment of the present invention will be described.

  FIG. 1 is a configuration diagram of an information transmission / reception system 1 according to the first embodiment of this invention.

  The information transmission / reception system 1 according to the present embodiment includes a plurality of information communication devices 11 and a management device 12, and the information communication devices 11 are connected to the management device 12 via corresponding base stations 14 and a network 13, respectively. , They can communicate with each other. Note that the information transmission / reception system 1 as shown in FIG.

  The information communication device 11 that transmits the predetermined information stores the standby time transmitted from the management device 12, and after the stored standby time has elapsed, the information communication device 11 transmits the predetermined information via the base station 14. Send to. That is, the standby time is data including time, and adjusts the timing at which the information communication apparatus 11 transmits information.

  The management device 12 that receives the predetermined information assigns a standby time to the information communication device 11 in a state where the network connection with the information communication device 11 is established, and transmits this standby time to the information communication device 11.

  The base station 14 communicates with the information communication apparatus 11 located in a predetermined communicable area controlled by the base station 14 and connects the information communication apparatus 11 to the network 13. The base station 14 according to the present embodiment can simultaneously perform connection processing with X information communication apparatuses 11 within a predetermined unit time. Hereinafter, the number of information communication apparatuses 11 that can be connected simultaneously within a predetermined unit time will be referred to as the simultaneously connectable number. The value of the simultaneously connectable number is changed, managed, and updated by the information transmission / reception system administrator according to the performance of the base station 14.

  FIG. 2 is a functional block diagram of the information communication apparatus 11 of the present embodiment.

  The information communication apparatus 11 according to the present embodiment includes a storage unit 111 and a communication unit 112.

  The storage unit 111 stores the standby time transmitted from the management device 12.

  The communication unit 112 transmits predetermined information to the management apparatus 12 via the base station 14 after the standby time has elapsed. For example, the communication unit 112 starts a network connection to the management apparatus 12 by transmitting a connection request to the base station 14 after the standby time has elapsed after the restoration of the power failure. Further, the communication unit 112 transmits, for example, acquired information such as meter reading information (power, gas, meter reading value of water, etc.) read by the information communication device 11 to the management device 12 after the standby time has elapsed. In addition, the communication unit 112 receives the standby time transmitted from the management device 12.

  FIG. 3 is a functional block diagram of the management apparatus 12 of this embodiment.

  The management device 12 of this embodiment includes a timer setting unit 121 and a communication unit 122.

  The timer setting unit 121 assigns a standby time for designating the timing at which the information communication apparatus 11 transmits information in a state where the network connection with the information communication apparatus 11 is established. The timer setting means 121 is configured so that each of the X base stations 14 that can be connected simultaneously and the other base stations 14 adjacent to the base station 14 that manage the communication area in which the information communication apparatus 11 that allocates the standby time is located. The waiting time is assigned to the information communication device 11 in consideration of the number of simultaneously connectable devices (for example, Y devices).

  The communication unit 122 transmits the standby time allocated by the timer setting unit 121 to the communication terminal 11 that performs the allocation. Further, the communication unit 122 receives predetermined information transmitted from the information communication apparatus 11.

  FIG. 4 is a sequence chart showing an operation example when the management apparatus 12 sets a standby time in the information communication apparatus 11 in the information transmission / reception system 1 of the present embodiment.

  The timer setting unit 121 of the management apparatus 12 assigns a standby time to the information communication apparatus 11 in a state where the network with the information communication apparatus 11 is established (S401). The timer setting means 121 includes a base station 14 that has jurisdiction over a communication area in which the information communication apparatus 11 that assigns the return timer value is located and other base stations 14 adjacent to the base station 14 that can be connected simultaneously ( In consideration of (X, Y), the waiting time is assigned to the information communication apparatus 11.

  The communication unit 122 of the management device 12 transmits the waiting time assigned by the timer setting unit 121 to the information communication device 11 that performs the assignment (S402).

  The communication unit 112 of the information communication apparatus 11 receives the standby time transmitted from the management apparatus 12 (S403).

  The storage unit 111 of the information communication apparatus 11 stores the received standby time (S404). For example, the information communication device 11 stores the information in the storage unit 111 when the power failure is restored and the information communication device 11 is turned on after the power failure occurs and the information communication device 11 is turned off. After the standby time has elapsed, a connection request is transmitted using the communication means 112 and a network connection via the corresponding base station 14 is attempted. Further, for example, when the information communication device 11 is a meter-reading terminal, the information communication device 11 uses the communication means 112 to transmit meter-reading information such as measured power after the standby time has elapsed via the corresponding base station 14. To the management device 12.

  In the present embodiment, the management apparatus 12 simultaneously connects each of the base station 14 having jurisdiction over the communication area in which the information communication apparatus 11 that assigns the standby time is located and another base station 14 adjacent to the base station 14. Considering the possible number (X, Y), a standby time is set in the information communication apparatus 11. The information communication device 11 transmits predetermined information to the management device 12 via the base station 14 after the standby time has elapsed. For example, when the power of the information communication apparatus 11 is turned on, after the standby time has elapsed, the connection to the corresponding base station 14 is resumed, thereby connecting to the management apparatus 12. For example, the information communication apparatus 11 transmits the acquired information to the management apparatus 12 via the corresponding base station 14 after the standby time has elapsed.

  Therefore, for example, even when the information communication device 11 is turned on all at once after the power failure is restored, congestion due to simultaneous connection is prevented. Connection resumes normally. Furthermore, since the connection between each information communication device 11 and the management device 12 is normally established and the meter reading values can be reliably collected from each information communication device 11 even after the power failure is restored, the charging status update delay Etc. does not occur. In addition, for example, since congestion associated with simultaneous transmission of information measured by the information communication device 11 is prevented, the management device 12 can reliably collect meter reading values from each information communication device 11, and charge status There is no update delay.

<Second Embodiment>
A second embodiment of the present invention will be described.

  FIG. 5 shows a configuration example of the meter reading system 5 according to the second embodiment of the present invention.

  The meter reading system 5 of the present embodiment includes a meter reading terminal 51, a meter reading server 52, and a user management database (hereinafter referred to as user management DB) 54. The meter-reading terminal 51 and the meter-reading server 52 are connected via a network 53 and can communicate with each other. For example, the meter-reading terminal 51 and the meter-reading server 52 may be connected to the network 53 via a base station corresponding to the position of the meter-reading terminal 51 and can communicate with each other. The network 53 is, for example, a mobile communication network or a Wi-Fi (Wireless-Fidelity, registered trademark) network. The meter reading server 52 and the user management DB 54 are connected by a predetermined communication line or the like, and can communicate with each other.

  Note that there is no need for the meter reading system 5 as shown in FIG. 5. For example, there may be a plurality of meter reading terminals 51 and meter reading servers 52. In FIG. 5, the user management DB 54 is connected to the meter reading server 52 via a predetermined communication line or the like. However, the present invention is not limited to this. For example, the user management DB 54 is provided inside the meter reading server 52. Also good. That is, the meter reading server 52 described later may be configured to store various information managed by the user management DB 54 described later.

  Each structure of the meter-reading system 5 is demonstrated in detail below.

  FIG. 6 is a functional block diagram of the meter reading terminal 51 of the present embodiment.

  The meter reading terminal 51 includes a control unit 511, a communication unit 512, a storage unit 513, a measuring unit 514, a meter reading unit 515, and a position acquisition unit 516.

  The control means 511 controls each means to be described later. For example, when the communication unit 512 receives a return timer value transmitted from the meter reading server 52, the control unit 511 performs control so that the storage unit 513 stores the return timer value. In addition, when the power supply of the terminal is turned on when the power failure is restored, the control unit 511 waits for the time of the return timer value stored in the storage unit 513, and then the communication unit 512 tries to connect to the network. The communication means 512 is controlled.

  For example, the control unit 511 may be configured by a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. For example, the CPU of the control unit 511 may control each unit based on a program read from the ROM. In addition, the CPU of the control unit 511 may read and execute the program from a storage medium storing a computer-readable program using a reading device (not shown).

  The communication unit 512 has a function of connecting to and communicating with the meter-reading server 52 via the network 53. Further, the communication unit 512 transmits various types of meter reading information (power, gas, meter reading values of water, etc.) measured by the meter reading unit 515 to the meter reading server 52. Further, the communication unit 512 transmits the position information of the own terminal to the meter reading server 52. This position information is acquired by the position acquisition means 516 of the meter reading terminal 51. Further, the communication unit 512 may periodically transmit the position information to the meter-reading server 52 or may be transmitted when the meter-reading terminal 51 is newly installed and the connection with the meter-reading server 52 is established. Good. Further, the communication unit 512 receives information on the return timer value notified from the meter reading server 52. In addition, the communication unit 512 transmits a network connection request to the meter-reading server 52 after the time designated by the return timer value has elapsed.

  The storage unit 513 stores a later-described return timer value received by the communication unit 512. The storage unit 513 may store the meter reading value measured by the meter reading unit 515. Note that the storage unit 513 is a non-volatile memory because it is necessary to hold the return timer value even when a power failure occurs. For example, the storage unit 513 may be configured with a hard disk or the like.

  The measuring means 514 measures time. More specifically, the measuring unit 514 measures time from the power failure recovery point (when the meter reading terminal 51 is turned on), and the measured time is stored in the storage unit 513 of the meter reading terminal 51. It is determined whether or not the time specified by the return timer value has reached. When the measuring unit 514 determines that the time specified by the return timer value has been reached, the communication unit 512 transmits a network connection request to the meter reading server 52. If the measuring unit 514 determines that the time specified by the return timer value has not been reached, the measuring unit 514 continues to measure time.

  The meter-reading means 515 measures various meter-reading information (electric power, gas, meter reading value of water supply, etc.). The meter reading means 515 periodically measures various types of meter reading information.

  The position acquisition unit 516 acquires position information of the meter reading terminal 51. For example, the position acquisition unit 516 may acquire position information using GPS (Global Positioning System).

  FIG. 7 is a functional block diagram of the meter reading server 52.

  The meter-reading server 52 includes a control unit 521, a communication unit 522, a position determination unit 523, and a timer setting unit 524.

  The control means 521 controls each means described later. For example, the control unit 521 controls the timer setting unit 524 to select and assign the return timer value based on the position information received by the timer setting unit 524 from the meter reading terminal 51 and various information received from the user management DB 54. . Further, the control unit 521 determines information on the area where the meter reading terminal 51 is located and the area adjacent to the located area based on the position information received from the meter reading terminal 51 by the communication unit 522. The position determination means 523 is controlled to do so. Further, the control unit 521 controls the communication unit 522 to start network connection with the meter-reading terminal 51 based on the connection request received from the meter-reading terminal 51. For example, the control unit 521 may be configured by a CPU, a ROM, a RAM, and the like. Further, for example, the CPU of the control unit 521 may control each unit based on a program read from the ROM. Further, the CPU of the control means 521 may read and execute the program from a storage medium storing a computer-readable program by using a reading device (not shown).

  The communication unit 522 has a function of connecting and communicating with the meter-reading terminal 51 via the network 53. When the timer setting unit 524 assigns a return timer value to the meter-reading terminal 51, the communication unit 522 notifies the return timer value assigned to the meter-reading terminal 51. Further, when receiving various information from the meter-reading terminal 51, the communication unit 522 transmits the received various information to the user management DB 54. Examples of various types of information received from the meter-reading terminal 51 include position information of the meter-reading terminal 51 (information for specifying a connection area such as a location area code and a cell ID), and user information of the meter-reading terminal 51 (IMEI (International Mobile Equipment Identity). ), User information for identifying a user such as a telephone number), meter-reading information (such as power, gas, and water meter reading values), and a connection request.

  Further, the communication unit 522 sends the information to the user management DB 54 when the position determination unit 523 determines the area information and adjacent area information, or when the timer setting unit 524 assigns a return timer value or the like. Send. In addition, when the timer setting unit 524 assigns a return timer value, the communication unit 522 includes area information necessary for assignment, adjacent area information, the number of simultaneously connectable devices, the value of the return timer value assigned to each terminal, and the like. Is received from the user management DB 54.

  Based on the position information transmitted from the meter reading terminal 51, the position determining means 523 determines the area where the meter reading terminal 51 is located and the adjacent area. Note that the information used for the determination is, for example, the position information of the communication area managed by the base station when the meter-reading terminal 51 is connected to the meter-reading server 52 via the base station. Assume that it is stored in advance in a storage means (not shown) of the meter-reading server 52. Then, the position determination means 523, based on the position information of the communication area stored in advance in the meter reading server 52 and the position information received from the meter reading terminal 51, and the adjacent area of the meter reading terminal 51 and the area. Determine the area. In the above example, the area and adjacent area of the meter-reading terminal 51 are determined based on information registered in advance in the meter-reading server 52. However, the present invention is not limited to this. For example, the information used for the determination is stored in the user management DB 54, and the position determination unit 523 receives the information from the user management DB 54 when performing the determination, and the presence of the meter reading terminal 51 based on the received information. You may perform determination of a sphere area and an adjacent area. Further, the position determination unit 523 determines based on the position information received from the meter-reading terminal 51 that the area where the meter-reading terminal 51 is located has been changed (for example, connected to a base station in another area). May be.

  The timer setting means 524 selects the return timer value of the meter reading terminal 51 and assigns the return timer value. The timer setting means 524 selects one return timer value from among assignable return timer value candidates, and determines whether or not the return timer value can be assigned to the meter reading terminal 51. Note that the return timer value candidates that can be assigned are determined, for example, by the meter reading system administrator by performing time distribution in consideration of the connection processing time within the connection time width and the connection time. For example, in the meter-reading system 5 that is restored within one hour after a power failure and the connection process between the meter-reading terminal 51 and the meter-reading server 52 is completed within approximately one minute, return timer value candidates that can be assigned to the meter-reading terminal 51 are 60. Further, if the meter reading system 5 is restored within one hour after the power failure, and the connection process between the meter reading terminal 51 and the meter reading server 52 is completed within approximately 10 minutes, the assignable return timer value candidates are six. It becomes a piece. That is, the number of return timer values that can be assigned is determined by the recovery time of the meter reading system 5 after the occurrence of a power failure and the performance of the meter reading terminal 51, the meter reading server 52, and the like constituting the meter reading system 5. Note that the timer setting unit 524 determines the number of return timer values that can be assigned (within 1 minute in the above example) and the connection completion time (within 1 minute in the above example). In the example, 60) may be calculated.

  In addition, the timer setting unit 524 includes the area information and adjacent area information determined by the position determination unit 523, the area information received from the user management DB 54, the number of simultaneously connectable devices, the adjacent area information, the assigned return timer value, and the like. A return timer value is assigned based on the information. Since there are a plurality of return timer value candidates that can be assigned as described above, the timer setting means 524 assigns the return timer value based on a predetermined criterion. A method for assigning the return timer value will be described later. When the position determination unit 523 determines that the meter reading terminal 51 is connected to another area, the timer setting unit 524 deletes information related to the return timer value of the meter reading terminal 51 from the user management DB 54, Information may be re-registered by newly assigning a return timer value based on the reference.

  The user management DB 54 stores and manages various information transmitted from the meter-reading server 52, the return timer value, the area information and the adjacent area information of the meter-reading terminal 51. The user management DB 54 may store the meter reading value transmitted from each meter reading terminal 51 for each meter reading terminal 51. An example of information stored in the user management DB 54 is shown in FIG.

  In the example of FIG. 8, the user management DB 54 includes, for each area information 81, the simultaneously connectable number 82 in the area where it is located, the adjacent area information 83, the meter-reading terminal identifier 84 of the meter-reading terminal that is in the area, The return timer value 85 is managed. Here, the area information corresponds to the base station that has jurisdiction over the area. And the meter-reading terminal located in the area α is mainly connected to the base station α, and the examination terminal located in the area β is mainly connected to the base station β.

  The area information 81 and the adjacent area information 83 are information specified by the position determination unit 523 of the meter reading server 52 based on the position information transmitted from the meter reading terminal 51. For example, the area information 81 and the adjacent area information 83 are specified by the position determination unit 523 from the position information transmitted from the meter-reading terminal 51 and the position information of the communication area for each base station stored in the meter-reading server 52.

  The simultaneously connectable number 82 is a value indicating the number of meter-reading terminals 51 that can be simultaneously connected to the corresponding area with a specific return timer value. For example, when the meter-reading terminal 51 is connected to the meter-reading server 52 via the base station and the mobile communication network, the meter-reading system manager is in accordance with the performance of the base station. Changed, managed, updated. In addition, the meter reading system administrator may change, manage, and update the simultaneously connectable number 82 by operating the meter reading server 52 using an operation unit of the meter reading server 52 (not shown).

  The meter reading terminal identifier 84 is uniquely assigned based on user information included in the position information received from the meter reading terminal 51. This assignment may be performed by the meter-reading server 52 based on user information received from the meter-reading terminal 51.

  The return timer value 85 is a value assigned to each meter reading terminal 51 by the timer setting means 524 of the meter reading server 52. A plurality of return timer values 85 are set in one area. For example, the meter-reading system administrator stores a plurality of return timer values to be assigned to the meter-reading server 52 by allocating the time of the connection time and considering the connection processing time in the connection time. For example, if the meter reading system 5 is restored within one hour after a power failure, and the meter reading system 5 has the performance of completing the connection process within approximately one minute, 60 return timer values can be set. .

  In FIG. 8, for example, area α indicates that the number of simultaneously connectable base stations 82 that control area α is X, and adjacent area 83 is area β. In addition, in the area α, there are currently meter-reading terminals represented by meter-reading terminal identifiers a, b and c, the return timer value 85 of the meter-reading terminals a and b is L, and the return timer value of the meter-reading terminal c. 85 is assigned as T.

  In addition, when there are a plurality of adjacent areas (in the case of FIG. 8, in the case of α and γ) as in the area β of FIG. 8, the user management DB 54 similarly manages the information.

  Next, a procedure in which the timer setting unit 524 of the meter reading server 52 selects and assigns the return timer value of the meter reading terminal 51 will be described in detail with reference to FIGS.

  As shown in FIG. 8, for each area information, the number of simultaneously connectable devices, adjacent area information, the meter reading terminal identifier in the area, and the return timer value are stored in the user management DB 54.

  FIG. 9 shows an example of a configuration diagram of the meter-reading system 9 in which the meter-reading terminals 51a to 51e are illustrated for each area in which the meter-reading terminals 51a to 51e are based on the information in FIG.

  As shown in FIG. 9, the meter reading system 9 includes meter reading terminals 51a to 51e, a meter reading server 52, a network 53, a user management DB 54, and base stations 91α and 91β. Each base station 91 is provided with an area 92 indicating a communicable range managed by each base station 91. For example, in the case of FIG. 9, the base station 91α has an area 92α, and the base station 91β has an area 92. 92β is set. FIG. 9 does not show the area 92γ adjacent to the area 92β. Meter reading terminals 51a to 51e are located in the area 92 of each base station 91. In the case of the meter reading system 9 of FIG. 9, the communication means 512 of each meter reading terminal 51 is connected to the meter reading server 52 via the base station 91 and the network 53 to perform communication. Each base station 91 is set with a simultaneously connectable number indicating the number of meter-reading terminals that can be simultaneously connected with a specific return timer value. In the case of FIG. 9, the number of simultaneously connectable units X (= 5) is set in the base station 91α that controls the area 92α, and the number of simultaneously connectable units Y (= 3) is set in the base station 91β that controls the area 92β. . The meter reading system administrator presets the number of units that can be connected simultaneously in accordance with the performance of each base station 91.

  Here, as shown in FIG. 9, a case where a meter-reading terminal 51f is newly installed and the timer setting means 524 of the meter-reading server 52 assigns a return timer value to the meter-reading terminal 51f will be described.

  When the meter reading terminal 51f is newly installed in the area 92α and the network connection between the meter reading terminal 51f and the meter reading server 52 is established, the following operation is performed.

  When the position information is transmitted from the meter reading terminal 51f, the position determining means 523 of the meter reading server 52 acquires the information used for determining the area described above from the user management DB 54, and from the position information of the meter reading terminal 51f and the user management DB 54. Based on the acquired position information of the area 92α of the base station 91α, the in-service area and the adjacent area of the meter-reading terminal 51f are specified. For example, in the case of FIG. 9, the position determination unit 523 specifies that the meter-reading terminal 51f is located in the area 92α of the base station 91α, and the area adjacent to the area 92α is the area 92β.

  The timer setting means 524 of the meter-reading server 52 assigns a return timer value to the meter-reading terminal 51f. The timer setting means 524 sets the return timer value in consideration of not only the area 92α where the meter-reading terminal 51f is located but also the adjacent area 92β when assigning the return timer value to the meter-reading terminal 51f. This is because the meter-reading terminal 51f does not always reconnect to the same area that was in the area immediately before the power failure, such as connecting to the adjacent area 92β after the power failure is restored.

  When assigning the return timer value, the timer setting means 524 selects, for example, the return timer values that are scheduled to be assigned in order from the return timer value that is used less frequently. Alternatively, the timer setting means 524 may select a return timer value that is scheduled to be assigned sequentially from a return timer value with a smaller value. Note that the magnitude relationship of assignable return timer values is registered in advance in the meter-reading server 52 or the user management DB 54. For example, in the area 92α of FIG. 9, when the return timer value candidates that can be assigned are L, T, and O, the timer setting unit 524 uses the low-use O value based on the information of the return timer value 85 of FIG. Is selected. Alternatively, when the size of each return timer value candidate is L> O> T, the timer setting unit 524 selects T having the smallest value. Hereinafter, a case where the timer setting unit 524 assigns the selected return timer value T to the meter reading terminal 51f will be described.

  Next, the timer setting means 524 determines whether or not the selected return timer value T to be assigned can be assigned. The return timer in the area 92α and the adjacent area 92β where the meter-reading terminal 51f that assigns the return timer value is located. The determination is made based on the value assignment status. The timer setting means 524 makes a determination with respect to the return timer value T to be allocated using a predetermined determination condition, and determines that the return timer value T is assignable when the condition is satisfied. An example of determination conditions is shown below.

<Judgment conditions>
The return timer value to be allocated is T, the number of simultaneously connectable base stations 91α having jurisdiction over the area 92α where the meter-reading terminal 51f is located is X, and the base station 91β having jurisdiction over the adjacent area 92β adjacent to the area α can be simultaneously connected. Let Y be the number.
(1) When X ≦ Y, X> (number of meter reading terminals assigned T in area 92α + number of meter reading terminals assigned T in area 92β)
(2) When X> Y, Y> (number of meter reading terminals assigned T in area 92α + number of meter reading terminals assigned T in area 92β)
That is, the timer setting means 524 can simultaneously connect the area 92α and the adjacent area 92β of the metering terminal 51f to be allocated based on the area information 81, the number of simultaneously connectable units 82, and the adjacent area information 83 in the user management DB 54. Identify the smallest number of units that can be connected simultaneously. For example, in the case of FIG. 9, the simultaneously connectable number X of the base station 91α that controls the area 92α in which the meter-reading terminal 51f is located is 5, and the simultaneously connectable number Y of the base station 91β that controls the adjacent area 92β is 3. Therefore, the value specified by the timer setting means 524 is Y (= 3), which is the smaller value of the two.

  Next, the timer setting means 524 returns the same return value as the return timer value T to be assigned based on the information of the return timer value 85 of the user management DB 54 in the area 92α and the adjacent area 92β of the meter reading terminal 51f to which the assignment is made. The total number of meter reading terminals to which the timer value is assigned is obtained. For example, in the case of FIGS. 8 and 9, T is assigned in the area 92α to one of the meter reading terminals 51c, and T is assigned to one in the area 92β is one of the meter reading terminals 51d, for a total of two.

  Then, the timer setting unit 524 determines whether or not the scheduled return timer value T can be assigned based on the magnitude relationship between the specified minimum number of simultaneously connectable devices and the total value of the obtained number of meter reading terminals. For example, in the case of FIG. 8 and FIG. 9, (specified number of simultaneously connectable units 3> total value 2 obtained), and in order to satisfy the determination condition, the timer setting means 524 assigns the return timer value T to the meter-reading terminal 51f. Is determined to be possible.

  Then, the communication unit 522 of the meter-reading server 52 notifies the meter-reading terminal 51f of the return timer value T determined to be assignable by the timer setting unit 524. The communication unit 512 of the meter-reading terminal 51f receives the notification transmitted from the meter-reading server 52, and the storage unit 513 stores the return timer value T.

  Next, as shown in FIG. 9, a case where a meter reading terminal 51g is newly installed and the timer setting means 524 of the meter reading server 52 assigns a return timer value to the meter reading terminal 51g will be described.

  When the meter-reading terminal 51g is newly installed in the area 92α and the network connection between the meter-reading terminal 51g and the meter-reading server 52 is established, the same allocation operation as that of the meter-reading terminal 51f described above is performed. Below, the case where the timer setting means 524 allocates the selected return timer value T to the meter-reading terminal 51g is demonstrated.

  When the position information is transmitted from the meter-reading terminal 51g, the position determination unit 523 of the meter-reading server 52 acquires information used for the above-described area determination from the user management DB 54, and receives the position information of the meter-reading terminal 51g and the user management DB 54. Based on the acquired position information of the area 92α of the base station 91α, the in-service area and the adjacent area of the meter-reading terminal 51g are specified. For example, in the case of FIG. 9, the position determination unit 523 specifies that the meter-reading terminal 51g is located in the area 92α of the base station 91α, and the area adjacent to the area 92α is the area 92β.

  The timer setting means 524 determines whether or not the selected return timer value T can be assigned to the meter reading terminal 51g as in the case of the meter reading terminal 51f.

  That is, the timer setting unit 524 simultaneously connects the area 92α and the adjacent area 92β where the metering terminal 51g to be allocated is located based on the area information 81, the number of simultaneously connectable units 82, and the adjacent area information 83 in the user management DB 54. Specify the smallest number of units that can be connected simultaneously. For example, in the case of FIG. 9, the simultaneously connectable number X of the base station 91α having jurisdiction over the area 92α where the meter reading terminal 51g is located is 5, and the simultaneously connectable number Y of the base station 91β having jurisdiction over the adjacent area 92β is 3. Therefore, the value specified by the timer setting means 524 is Y (= 3), which is the smaller value of the two.

  Next, the timer setting unit 524 returns the same return value as the return timer value T to be assigned based on the information of the return timer value 85 in the user management DB 54 in the area 92α and the adjacent area 92β of the meter reading terminal 51g to be assigned. The total number of meter reading terminals to which the timer value is assigned is obtained. For example, in the case of FIG. 8 and FIG. 9, T is assigned in the area 92α, two of the meter reading terminals 51c and 51f, and T is assigned in the area 92β is one of the metering terminals 51d, for a total of three. Become.

  Then, the timer setting unit 524 determines whether or not the scheduled return timer value T can be assigned based on the magnitude relationship between the specified minimum number of simultaneously connectable devices and the total value of the obtained number of meter reading terminals. For example, in the case of FIG. 8 and FIG. 9, (the specified number of simultaneously connectable connections 3 = the total value 3 obtained), and since the determination condition is not satisfied, the timer setting unit 524 sets the return timer value T to the meter-reading terminal 51g. It is determined that allocation is not possible. In this case, for example, the timer setting unit 524 selects a return timer value O having the next smallest value after T, and determines whether or not the selected return timer value O can be assigned.

  Even when the return timer value to be allocated is other than T, the timer setting unit 524 determines whether the allocation is possible using the same determination condition as described above.

  Also, when there are a plurality of adjacent areas such as the area 92β of FIG. 8, the determination is performed in the same manner as described above. For example, the timer setting means 524 obtains the simultaneously connectable number in the area having the smallest number of simultaneously connectable areas among the located area and the adjacent area. Next, the timer setting means 524 obtains the number of meter-reading terminals to which the return timer value to be assigned has already been assigned for each area and adjacent area, and obtains the total. Next, the timer setting unit 524 determines that the return timer value can be assigned when the total value of the obtained number of meter-reading terminals 51 is smaller than the simultaneously connectable number of the area with the smallest number of simultaneously connectable terminals.

  Next, operation | movement of the meter-reading system 5 of this embodiment is demonstrated using the sequence chart of FIG.

  In the operation example of FIG. 10, the meter reading terminal 51a is newly installed, the meter reading server 52 assigns the return timer value to the meter reading terminal 51a, and the time point when the network connection between the meter reading terminal 51a and the meter reading server 52 is established. It is an operation performed in

  The communication means 512 of the meter-reading terminal 51a transmits the position information of the own terminal 51a to the meter-reading server 52 when the connection with the meter-reading server 52 is established (S1001).

  The communication means 522 of the meter reading server 52 receives the position information transmitted from the meter reading terminal 51a (S1002).

  Based on the received position information, the position determination means 523 of the meter-reading server 52 determines the area where the meter-reading terminal 51a is located and the adjacent area adjacent to the area (S1003). At this time, the position determination unit 523, for example, based on the position information received from the meter reading terminal 51a and the position information of the communication area of the base station stored in the meter reading server 52, The adjacent area adjacent to the service area is determined.

  The timer setting unit 524 of the meter-reading server 52 accesses the user management DB 54, and selects and assigns an assignable return timer value based on the information in the user management DB 54 and the area information of the meter-reading terminal 51a (S1004). . At this time, the timer setting unit 524 allocates the information based on the information on the area and adjacent area determined in S1003, the area information 81 in the user management DB 54, the number of simultaneously connectable units 82, the adjacent area information 83, and the return timer value 85. Select and assign possible return timer values. More specifically, the timer setting means 524 obtains the number of meter reading terminals to which the same return timer value as the selected return timer value is assigned in the area where the meter reading terminal 51a is located and its adjacent area. Then, the timer setting means 524 determines that the return timer value selected when the obtained number is smaller than the smallest simultaneously connectable number of the above-mentioned area and its adjacent areas is assigned, and performs the assignment.

  The communication means 522 of the meter-reading server 52 transmits the return timer value assigned by the timer setting means 524 to the meter-reading terminal 51a (S1005). The communication unit 522 transmits information on the assigned return timer value and information on the area where the meter reading terminal 51a is located and the adjacent area to the user management DB 54. The user management DB 54 stores the information transmitted from the meter reading server 52.

  The communication means 512 of the meter-reading terminal 51a receives the return timer value transmitted from the meter-reading server 52 (S1006).

  The storage means 513 of the meter-reading terminal 51a stores the received return timer value (S1007). For example, when the power failure is restored, the control unit 511 of the meter reading terminal 51a waits for the time specified by the return timer value stored in the storage unit 513, and then starts the network connection to the meter reading server 52. To control.

  In FIG. 10, the meter reading terminal 51a is newly installed, and the meter reading server 52 assigns a return timer value to the meter reading terminal 51a. When the network connection between the meter reading terminal 51a and the meter reading server 52 is established. This is an example of the operation to be performed, but is not limited to this. For example, the communication unit 512 of the meter reading terminal 51 periodically transmits the position information acquired by the position acquisition unit 516 to the meter reading server 52. And the position determination means 523 of the meter-reading server 52 determines whether or not the area in which the meter-reading terminal 51 is located based on the position information transmitted from the meter-reading terminal 51 and the area information 81 managed by the user management DB 54. Determine. When the position determination unit 523 determines that the area where the meter-reading terminal 51 is located has changed, the timer setting unit 524 may select and assign a return timer value to the meter-reading terminal 51. At this time, the timer setting means 524 uses the above-described determination condition based on the information on the return timer value allocation status and the number of simultaneously connectable devices in the area where the meter-reading terminal 51 is located and its adjacent area after the change. Assign the return timer value.

  Next, operation | movement of the meter-reading system 5 of this embodiment when a power failure generate | occur | produces and a power failure recovers is demonstrated using the sequence chart of FIG.

  In the example of FIG. 11, it is assumed that the meter reading terminals 51a and 51b are connected to the meter reading server 52, and different return timer values are set in the meter reading terminals 51a and 51b, respectively.

  It is assumed that a power failure has occurred at a certain time (S1101). At this time, the meter reading terminals 51a and 51b are turned off, and the network connection between each meter reading terminal 51 and the meter reading server 52 is cut off.

  Next, it is assumed that the power failure is restored at a certain point after the power failure (S1102). That is, the power sources of both meter-reading terminals 51 are turned on all at once.

  The measuring means 514 of the meter-reading terminals 51a and 51b starts measuring time (recovery timer) from the power failure recovery point (when the meter-reading terminal is turned on) (S1103).

  After the start of the time measurement, the measuring means 514 of each meter reading terminal 51 determines whether or not the measuring time has reached the time specified by the return timer value stored in the storage means 513 of each meter reading terminal 51. Is determined (S1104, S1105).

  Here, for example, when the measuring means 514 of the meter reading terminal 51a determines that the time specified by the return timer value has been reached (S1104, YES), the communication means 512 of the meter reading terminal 51a is connected to the meter reading server 52 via a network. A request is transmitted (S1106).

  If the measuring means 514 of the meter reading terminal 51b determines that the time specified by the return timer value has been reached at a time later than the return timer value of the meter reading terminal 51a after the measurement of the time (S1105, YES). The communication means 512 of the terminal 51b transmits a network connection request to the meter reading server 52 (S1107).

  When the measuring means 514 of each meter reading terminal 51 determines that the time specified by the return timer value has not been reached (S1104 is NO, S1105 is NO), the measuring means 514 of each meter reading terminal 51 Measurement is continued, and it is determined whether or not the return timer value has been reached.

  The communication unit 522 of the meter reading server 52 that has received the network connection request sequentially starts network connection processing from the meter reading terminal 51 that has received the request (S1108, S1109).

  As described above, in the present embodiment, when the connection between the meter-reading terminal 51 and the meter-reading server 52 is established, the meter-reading server 52 specifies the area where the meter-reading terminal is located from the position information of the meter-reading terminal 51. . The meter-reading server 52 selects an assignable return timer value based on the return timer value and the number of other meter-reading terminals 51 located in the area in which the meter is located and its adjacent area, the number of simultaneously connectable terminals in the area, A return timer value is assigned to the meter reading terminal 51. When the power failure is restored, the meter-reading terminal 51 waits for the time specified by the assigned return timer value and then starts connection with the meter-reading server 52.

  Therefore, according to the present embodiment, even when the meter reading terminals 51 are turned on all at once after the power failure is restored, congestion associated with the simultaneous connection is prevented. Connection with 52 resumes normally. Furthermore, even after the power failure is restored, the connection between each meter reading terminal 51 and the meter reading server 52 is normally established, and the meter reading values can be reliably collected from each meter reading terminal 51. Does not occur.

  Moreover, although the said embodiment demonstrated the case where the network load generate | occur | produced when the power supply of a meter-reading terminal was all turned on after a power failure restoration was demonstrated, it does not restrict to this. For example, the network load can also be distributed by assigning a transmission timer value for adjusting the transmission timing in the same manner for the transmission timing for transmitting the meter reading information measured by each meter reading terminal to the meter reading server.

  Next, the reassignment operation of the return timer value assigned by the meter reading server 52 will be described. In the case of the above-described example, when setting the return timer value, the timer setting unit 524 of the meter-reading server 52 sequentially selects the return timer value candidates from the smallest value to determine the assignable return timer value. .

  In the case of such a method for selecting and assigning the return timer value, there may be a bias in the assignment of the return timer value as the number of connected devices increases. Similarly, when a meter-reading terminal that has been assigned a specific return timer value is reconnected to another area (when there is a change in the area where the service area is located), there may be a bias in assigning the return timer value. . From the viewpoint of more effectively distributing the network load, the meter reading server 52 desirably reassigns the return timer value.

  Accordingly, the timer setting unit 524 of the meter-reading server 52 determines the bias of the regularly assigned return timer value, and when the timer setting unit 524 determines that the allocation is biased, the reset timer value is reset. Make an assignment.

  An example of a method for determining the bias will be described in detail.

  The timer setting means 524 of the meter-reading server 52 obtains the average x and the standard deviation σ of the number of return timer values assigned to the area to be reassigned. The timer setting means 524 determines that there is a bias when the value of the standard deviation σ exceeds a threshold value preset in the meter-reading server 52 by the meter-reading system administrator. Then, the timer setting means 524, for example, assigns a recovery timer value (for example, x-2σ or less) having a low usage frequency to a recovery timer value (for example, x + 2σ or more) having a high usage frequency, so that σ is within a threshold value. Try to keep.

  Therefore, according to the present embodiment, the timer setting means 524 of the meter reading server 52 periodically determines the bias of the return timer value. When the timer setting means 524 determines that there is a bias in the allocation of the return timer value, the timer setting means 524 reassigns the return timer value. For this reason, according to the present embodiment, after the power failure is restored, it is possible to connect to the meter-reading server at a timing that does not congest with other meter-reading terminals, and the load on the network can be more effectively reduced.

<Modification of Second Embodiment>
In the second embodiment, the return timer value is assigned when the network connection between the meter-reading terminal 51 and the meter-reading server 52 is established. In this modification, a recovery timer value is set in advance in the meter-reading terminal 51 in preparation for a case where a power failure occurs before the network connection is established.

  When the meter-reading terminal 51 is installed or in the manufacturing process of the meter-reading terminal 51, the storage unit 513 of the meter-reading terminal 51 stores a reserved return timer value by an input from an external device that can be connected to the meter-reading terminal 51. For example, the external device is managed by a meter reading system administrator or the like, and the meter reading system administrator sets a reserved return timer value in the meter reading terminal 51 using the external device. For example, when the meter-reading terminal 51 is installed, the meter-reading system administrator sets a less frequently used return timer value assigned to another meter-reading terminal 51 in the installation area as a reserved return timer value. In addition, when the meter reading terminal 51 is manufactured, a reserved return timer value may be set based on the manufacturing number. Further, the meter reading system administrator separately manages the reserved return timer value so that it does not overlap with the assigned return timer value described in the second embodiment, and selects the reserved return timer value from among them. Good. The command command from the external device is analyzed by an external command processing unit (not shown) in the meter reading terminal 51, and the storage unit 513 stores the reserved return timer value as the return timer value of the corresponding meter reading terminal 51.

  When a power failure occurs before connection with the meter-reading server 52, the meter-reading terminal 51 performs network connection processing after recovery from the power failure using the reserved return timer value stored in the storage unit 513. The operation related to the connection after restoration of the power failure is the same as that of the second embodiment in which the return timer value is replaced with the reserved return timer value, and the details are omitted.

  The reserved return timer value may be managed by a meter reading system administrator, a meter reading terminal manufacturer, or the like. In other words, the metering server 52 manages it as different from the return timer value assigned when the network connection with the metering terminal 51 is established. By doing in this way, meter-reading terminal 51 can utilize a reserved return timer value at the time of network connection, without overlapping with a return timer value assigned to meter-reading terminal 51. For example, the reserved return timer value is stored in advance in a storage unit (not shown) of the meter reading server 52 or the user management DB 54. When the meter reading server 52 assigns the return timer value, the return timer value may be selected and assigned by excluding the reserved return timer value.

  In the case where a power failure has not occurred before the network connection is established, the meter-reading terminal 51 deletes the reserved return timer value from the storage means 513 of the own terminal 51, and the return timer assigned after the network connection is established. The value may be stored in the storage unit 513.

  In this modification, when a power failure occurs before the network connection between the meter-reading terminal 51 and the meter-reading server 52 is established, the meter-reading terminal 51 uses the reserved return timer value stored in advance in the meter-reading terminal 51 to Perform network connection operation.

  According to this modification, even if a power failure occurs before the network connection between the meter reading terminal 51 and the meter reading server 52 is established, the meter reading terminal 51 performs a network connection with the meter reading server 52 after the power failure is restored. Can do. Further, by setting the reserved return timer value different from the return timer value assigned by the meter-reading server 52, even when the meter-reading terminals 51 are turned on all at once after a power failure recovery, Congestion is prevented. Accordingly, the connection between each meter reading terminal 51 and the meter reading server 52 resumes normally even after the power failure is restored. Furthermore, even after the power failure is restored, the connection between each meter reading terminal 51 and the meter reading server 52 is normally established, and the meter reading values can be reliably collected from each meter reading terminal 51. Does not occur.

  As mentioned above, although each embodiment of this invention was described, this invention is not limited to each above-described embodiment. The present invention can be implemented based on modifications, substitutions, and adjustments of the embodiments. That is, the present invention includes various modifications and corrections that can be realized in accordance with all the disclosed contents and technical ideas of the present specification. In addition, the drawing reference numerals attached to each drawing are added to each element for convenience as an example for facilitating understanding, and are not intended to limit the present invention to the illustrated embodiment.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
Each of the base stations according to the location is in charge of the communication means for transmitting predetermined information to the management apparatus via the base station in charge after the standby time has elapsed, and stores the set standby time A plurality of information communication devices each provided with storage means for
Based on the communication means for receiving the predetermined information from the plurality of information communication devices via the respective base stations in charge, and the connection processing capability of the base station in charge of the plurality of information communication devices, the information A management device comprising timer setting means for determining the standby time for each communication device and setting the determined standby time to each of the plurality of information communication devices;
An information transmission / reception system comprising:

(Appendix 2)
The predetermined information is a connection request;
The information transmission / reception system according to claim 1, wherein the plurality of information communication devices transmit the connection request after the standby time has elapsed when a new connection is started.

(Appendix 3)
The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The management device
Select the waiting time to be set in the information communication device,
The selected standby time is set based on the connection processing capability of the base station that manages the communication area to which the information communication apparatus to which the selected standby time belongs and the communication area adjacent to the communication area to which the information communication apparatus belongs. 3. The information transmission / reception system according to appendix 1 or 2, wherein the information communication apparatus sets the selected standby time when it is determined whether or not the setting is possible and the determined waiting time is set in the information communication apparatus.

(Appendix 4)
The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The management device
Select the waiting time to be set in the information communication device,
Among the connection processing capacities of the base station having jurisdiction over the communication area to which the information communication apparatus for setting the selected waiting time belongs and the base station having jurisdiction over the communication area adjacent to the belonging communication area, the smallest connection processing capability is obtained. Identify,
In the communication area to which it belongs and in the adjacent communication area, obtain the total value of the number of information communication devices in which the selected standby time is set,
When the total value of the obtained number of information communication devices is smaller than the specified minimum connection processing capacity value, it is determined that the selected standby time can be set, and the selected standby time is set as the information communication device. The information transmission / reception system according to appendix 1 or 2, characterized in that:

(Appendix 5)
When the management device determines that the communication area of the base station to which the information communication device belongs has changed based on the notification of the location information received from the information communication device, the management device sets the standby The information transmission / reception system according to appendix 3 or 4, wherein the time is updated.

(Appendix 6)
When the management device determines a bias in the set number of standby times set in the information communication device, and determines that there is a bias, the management device determines that the number of information communication devices set for each standby time is 6. The information transmission / reception system according to any one of appendices 3 to 5, wherein the standby time is reset so as to be substantially equal.

(Appendix 7)
The information transmission / reception system according to appendix 6, wherein the management device obtains an average and a standard deviation of a set number of standby times set in the information communication device, and determines a deviation of the set number of standby times.

(Appendix 8)
An information communication device under jurisdiction of a base station according to a location,
A communication means for transmitting predetermined information to the management device via the jurisdiction base station after the standby time has elapsed;
Storage means for storing the waiting time set by the management device;
An information communication device comprising:

(Appendix 9)
9. The information communication according to appendix 8, wherein the predetermined information is a connection request, and the information communication apparatus transmits the connection request after the standby time has elapsed when a new connection is started. apparatus.

(Appendix 10)
A communication means for receiving predetermined information from a plurality of information communication devices via respective base stations with jurisdiction;
Timer setting means for determining a standby time for each of the information communication devices based on connection processing capability of a base station having jurisdiction over the plurality of information communication devices, and setting the determined standby times in the plurality of information communication devices, respectively ,
A management apparatus comprising:

(Appendix 11)
The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The timer setting means includes
Select the waiting time to be set in the information communication device,
The selected standby time is set based on the connection processing capability of the base station that manages the communication area to which the information communication apparatus to which the selected standby time belongs and the communication area adjacent to the communication area to which the information communication apparatus belongs. The management apparatus according to appendix 10, wherein the management apparatus sets the selected waiting time in the information communication apparatus when it is determined whether or not the setting is possible.

(Appendix 12)
The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The timer setting means includes
Select the waiting time to be set in the information communication device,
Among the connection processing capacities of the base station having jurisdiction over the communication area to which the information communication apparatus for setting the selected waiting time belongs and the base station having jurisdiction over the communication area adjacent to the belonging communication area, the smallest connection processing capability is obtained. Identify,
In the communication area to which it belongs and in the adjacent communication area, obtain the total value of the number of information communication devices in which the selected standby time is set,
When the total value of the obtained number of information communication devices is smaller than the specified minimum connection processing capacity value, it is determined that the selected standby time can be set, and the selected standby time is set as the information communication device. Item 11. The management device according to appendix 10, wherein

(Appendix 13)
The timer setting means includes
When it is determined that the communication area of the base station to which the information communication device belongs is changed based on the notification of the position information received from the information communication device, the timer setting unit updates the set standby time Item 13. The management device according to appendix 11 or 12, wherein

(Appendix 14)
The timer setting means determines the bias of the set number of standby times set in the information communication device, and when the timer setting means determines that there is a bias, the timer setting means determines whether the information communication device is set for each standby time. 14. The management device according to any one of appendices 11 to 13, wherein the waiting time is reset so that the numbers are substantially equal.

(Appendix 15)
15. The management apparatus according to appendix 14, wherein the timer setting unit obtains an average and a standard deviation of a set number of standby times set in the information communication apparatus, and determines a deviation of the set number of standby times.

(Appendix 16)
The plurality of information communication apparatuses each having jurisdiction over the base station according to the position transmits predetermined information to the management apparatus via the jurisdiction base station after the standby time has elapsed, Remember each time,
The management device receives the predetermined information from the plurality of information communication devices via the respective base stations in charge, and based on the connection processing capabilities of the base stations in charge of the plurality of information communication devices, A method for transmitting and receiving information, comprising: determining a standby time for each information communication device and setting the determined standby times to each of the plurality of information communication devices.

(Appendix 17)
It is an information transmission method using information communication devices each having jurisdiction over the base station according to the position,
After the standby time has elapsed, predetermined information is transmitted to the management device via the jurisdiction base station,
An information transmission method comprising storing the waiting time set by the management apparatus.

(Appendix 18)
In the computer of the information communication device that is in charge of the base station according to the location,
A communication process for transmitting predetermined information to the management apparatus via the jurisdiction base station after the standby time has elapsed;
A storage process for storing the waiting time set by the management device;
A program for an information communication apparatus, characterized in that

(Appendix 19)
In the computer of the management device,
A communication process for receiving predetermined information from a plurality of information communication devices via respective jurisdiction base stations;
A timer setting process for determining a standby time for each of the information communication devices based on a connection processing capability of a base station having jurisdiction over the plurality of information communication devices, and setting the determined standby times in the plurality of information communication devices, respectively. ,
A program for a management apparatus, characterized in that

DESCRIPTION OF SYMBOLS 1 Information transmission / reception system 5 Meter-reading system 11 Information communication apparatus 111,513 Storage means 112,122,512,522 Communication means 12 Management apparatus 121,524 Timer setting means 14,91 Base station 51 Meter-reading terminal 511,521 Control means 514 Measuring means 52 Meter Reading Server 523 Position Determination Means 54 User Management Database 92 Area

Claims (10)

Each of the base stations according to the location is in charge of the communication means for transmitting predetermined information to the management apparatus via the base station in charge after the standby time has elapsed, and stores the set standby time A plurality of information communication devices each provided with storage means for
Based on the communication means for receiving the predetermined information from the plurality of information communication devices via the respective base stations in charge, and the connection processing capability of the base station in charge of the plurality of information communication devices, the information A management device comprising timer setting means for determining the standby time for each communication device and setting the determined standby time to each of the plurality of information communication devices;
An information transmission / reception system comprising: The predetermined information is a connection request;
2. The information transmission / reception system according to claim 1, wherein, when a new connection is started, the plurality of information communication apparatuses transmit the connection request after the standby time has elapsed. The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The management device
Select the waiting time to be set in the information communication device,
The selected standby time is set based on the connection processing capability of the base station that manages the communication area to which the information communication apparatus to which the selected standby time belongs and the communication area adjacent to the communication area to which the information communication apparatus belongs. The information transmission / reception system according to claim 1 or 2, wherein the information transmission / reception system is configured to set the selected waiting time in the information communication apparatus when it is determined whether or not the setting is possible. The connection processing capacity is the number of information communication devices that the base station can simultaneously start connection within a predetermined time,
The management device
Select the waiting time to be set in the information communication device,
Among the connection processing capacities of the base station having jurisdiction over the communication area to which the information communication apparatus for setting the selected waiting time belongs and the base station having jurisdiction over the communication area adjacent to the belonging communication area, the smallest connection processing capability is obtained. Identify,
In the communication area to which it belongs and in the adjacent communication area, obtain the total value of the number of information communication devices in which the selected standby time is set,
When the total value of the obtained number of information communication devices is smaller than the specified minimum connection processing capacity value, it is determined that the selected standby time can be set, and the selected standby time is set as the information communication device. The information transmission / reception system according to claim 1, wherein the information transmission / reception system is set.   When the management device determines that the communication area of the base station to which the information communication device belongs has changed based on the notification of the location information received from the information communication device, the management device sets the standby 5. The information transmission / reception system according to claim 3, wherein the time is updated. An information communication device under jurisdiction of a base station according to a location,
A communication means for transmitting predetermined information to the management device via the jurisdiction base station after the standby time has elapsed;
Storage means for storing the waiting time set by the management device;
An information communication device comprising: A communication means for receiving predetermined information from a plurality of information communication devices via respective base stations with jurisdiction;
Timer setting means for determining a standby time for each of the information communication devices based on connection processing capability of a base station having jurisdiction over the plurality of information communication devices, and setting the determined standby times in the plurality of information communication devices, respectively ,
A management apparatus comprising: The plurality of information communication apparatuses each having jurisdiction over the base station according to the position transmits predetermined information to the management apparatus via the jurisdiction base station after the standby time has elapsed, Remember each time,
The management device receives the predetermined information from the plurality of information communication devices via the respective base stations in charge, and based on the connection processing capabilities of the base stations in charge of the plurality of information communication devices, A method for transmitting and receiving information, comprising: determining a standby time for each information communication device and setting the determined standby times to each of the plurality of information communication devices. In the computer of the information communication device that is in charge of the base station according to the location,
A communication process for transmitting predetermined information to the management apparatus via the jurisdiction base station after the standby time has elapsed;
A storage process for storing the waiting time set by the management device;
A program for an information communication apparatus, characterized in that In the computer of the management device,
A communication process for receiving predetermined information from a plurality of information communication devices via respective jurisdiction base stations;
A timer setting process for determining a standby time for each of the information communication devices based on a connection processing capability of a base station having jurisdiction over the plurality of information communication devices, and setting the determined standby times in the plurality of information communication devices, respectively. ,
A program for a management apparatus, characterized in that

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