JP2005303380A - Automatic metering system of wireless communications system, and communication terminal therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently collect data when adopting a wireless communications system utilizing a wireless packet network. <P>SOLUTION: In the automatic metering system adopting the wireless communication system provided with a plurality of communication terminals 6 for collecting read meter data from meters 7 for measuring quantities to be metered, and a center apparatus 1 for collecting and managing the metering data from a plurality of the wireless communication terminals 6 via the wireless packet network 4, wireless communication between the communication terminals 6 and the center apparatus 1 under superior radio wave environment uses a communication protocol which is different from a communication protocol, used by wireless communication between the communication terminals 6 and the center apparatus 1 under worsened radio wave environment. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a wireless communication type automatic meter reading system and a communication terminal device thereof that automatically measure the amount of metered metering such as electricity, gas, and water using a communication method using a wireless packet network.

  In general data transmission using a conventional wireless packet network, as seen in, for example, Japanese Patent Application Laid-Open No. 2002-152835 (Patent Document 1), the received electric field strength is measured by a mobile terminal device, The communication link is controlled by a transport layer (TCP (Transmission Control Protocol)) according to the situation.

  In addition, in a wireless access system using a conventional wireless packet network as shown in Patent Document 1, a mobile terminal device is provided with a function of monitoring a wireless line status by measuring received field strength, for example, A communication link control is performed for the layer (TCP) to determine communication maintenance, temporary interruption, or cancellation according to the state of the wireless line. Access is maintained as long as wireless communication status is good and stable communication is guaranteed, and when the wireless communication status is judged to deteriorate, the throughput of the TCP link (Throughput) is remarkably lowered and temporarily suspended. Alternatively, if the wireless line condition does not recover for a long time, control is performed so that the TCP link is disconnected, and transmission of packets that cannot be reached from the server is suppressed, thereby improving the throughput of the entire network.

JP 2002-152835 A (columns 7-8, FIGS. 1-8)

  The wireless access system using the wireless packet network disclosed in Patent Document 1 performs wireless communication in a state where a line is connected for a long time between a mobile terminal device and a server for the purpose of using Internet services, for example. It is effective for. However, this wireless access system uses TCP, and when the wireless access system is to be applied to an automatic meter reading system, in collecting meter reading data, a center device that collects and manages meter reading data and a plurality of communication terminal devices 1-to-1 communication is required, but the meter reading frequency is, for example, once / month. Therefore, the communication frequency is small, once / month, and the amount of meter reading data is small. If not, it is desirable to disconnect the line for the purpose of reducing the load on the communication network. Therefore, a transport layer (TCP) connection is generated each time meter reading data is collected from the center device to each communication terminal device. . Therefore, when performing wireless communication between the center device and a plurality of communication terminal devices in the automatic meter reading system, there is a problem that data collection time is increased due to the occurrence of the connection, and efficient data collection cannot be performed.

  In addition, when trying to apply a conventional wireless access system using TCP as described above to automatic meter reading, efficient data collection cannot be performed, so instead of the conventional wireless access system using TCP as described above, For example, in an automatic meter reading system, it is possible to use UDP (User Datagram Protocol) for the transport layer. Since UDP has a higher data transmission efficiency than TCP, when the communication terminal device in the automatic meter reading system is in a good radio wave environment, efficient meter reading data can be collected. However, since UDP is inferior to TCP in communication reliability, complicated retry processing by the application layer is required. When the communication terminal device in the automatic meter reading system is in a deteriorated radio wave environment, the application layer The number of retries will increase. Therefore, in the automatic meter reading system, when UDP is used for the transport layer, the efficiency of data collection is worse than when TCP is used when the proportion of communication terminal devices in a deteriorated radio wave environment is increased. There was a problem that it could be.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to realize a wireless communication type automatic meter reading system capable of efficiently collecting data.

  A wireless communication type automatic meter reading system according to the present invention includes a plurality of communication terminal devices that collect meter reading data from a meter that measures the amount of a meter to be measured, and a wireless packet network that reads meter reading data from the plurality of communication terminal devices. A wireless communication type automatic meter reading system including a center device that collects and manages the wireless communication between the communication terminal device and the center device in a good radio wave environment, and the radio wave Different communication protocols are used for the wireless communication between the communication terminal apparatus and the center apparatus in a deteriorated environment.

  The present invention relates to a plurality of communication terminal devices that collect meter reading data from a meter that measures the amount of meter to be measured, and a center device that collects and manages meter reading data from the plurality of communication terminal devices via a wireless packet network. A wireless communication type automatic meter reading system comprising: a wireless communication between the communication terminal device and the center device in a good radio wave environment, and the communication in a deteriorated radio wave environment Since different communication protocols are used for the wireless communication between the terminal device and the center device, it is possible to realize a wireless communication type automatic meter reading system capable of efficiently collecting data.

Embodiment 1 FIG.
Embodiment 1 of the present invention will be described below with reference to FIGS. 1 is a block diagram showing an example of a system configuration of a wireless communication type automatic meter reading system, FIG. 2 is a block diagram showing a functional configuration of each communication terminal device in FIG. 1, and FIG. 3 is a received electric field in the communication terminal device in FIG. FIG. 4 is a flowchart showing an example of an intensity measurement method, FIG. 4 is a diagram showing an example of a sequence for transmitting received field strength information from the communication terminal device to the center device in FIG. 1, and FIG. FIG. 6 is a diagram illustrating an example of a sequence in which the center device collects data from the communication terminal device using UDP in FIG. 1, and FIG. It is a figure which shows an example of the sequence in which a center apparatus collects data from a communication terminal device using.

  Embodiment 1 of the present invention is a wireless communication type automatic meter reading system using a wireless packet network such as a Dopa (registered trademark of NTT DOCOMO) network. Data is transmitted from a center device to a plurality of communication terminal devices. When collecting data, it is possible to efficiently collect data without increasing the data collection time.

  Embodiment 1 of the present invention will be specifically described below.

  As shown in FIG. 1, a wireless communication type automatic meter reading system includes a center device 1 having an electric field strength information creation unit 11, a LAN 2, a router 3, and a wireless packet network 4 such as the Dopa network. And a plurality of base stations 5, a plurality of communication terminal devices 6 each having an antenna 67, and a plurality of meters 7 for measuring the amount of needles to be measured such as electricity, gas, and water.

  In the case of FIG. 1, the case where there are five meters 7 is illustrated in relation to the case of the electric field intensity information table described later, and each of the meters 7, 7, 7, 7, 7 is shown as an example. The communication terminal devices 6 attached one-to-one are “communication terminal device A”, “communication terminal device B”, “communication terminal device C”, “communication terminal device D”, “communication terminal device E”, and This is shown in the figure.

  The center device 1 is connected to the router 3 connected to the wireless packet network 4 via the LAN 2.

  The plurality of communication terminal devices 6 “communication terminal device A”, “communication terminal device B”, “communication terminal device C”, “communication terminal device D”, and “communication terminal device E” are connected to the wireless packet network 4. Has been.

  The center device 1 performs transmission and reception for collecting and managing meter-reading data via the communication terminal devices 6 and the base station 5 of the wireless packet network 4.

  Each of the communication terminal devices 6 collects the weighing data (the data on the amount of the test needle) of the corresponding meter 7 connected to the communication terminal device 6.

  As shown in FIG. 2, the communication terminal device 6 includes a radio unit 61 having a reception electric field processing unit 611, a radio I / F (Interface) unit 62, a PPP (Point A point-to-point protocol (Point-to-Point Protocol) processing unit 63, an IP (Internet Protocol) processing unit 64, a TCP processing unit 651, and a UDP processing unit 652 Layer 65, an application processing unit 66 that functions as a radio wave environment discrimination function unit, which will be described later, and an antenna 67 for wireless communication with the base station 5 (see FIG. 1).

  In the communication terminal device 6, line connection is performed with the base station 5 (see FIG. 1) via the antenna 67 and the radio unit 61.

  The wireless unit 61 is connected to the upper layer PPP processing unit 63 via the wireless I / F unit 62, the PPP processing unit 63 is connected to the IP processing unit 64, and the IP processing unit 64 Connected to the transport layer 65. Further, the transport layer 17 is connected to the application processing unit 14 as an upper layer.

  The reception electric field processing unit 611 in the radio unit 61 performs signals at the timing of signals transmitted from the base station 5 (see FIG. 1) (general call channel (PCH), dedicated cell signaling channel (SCCH), etc.). The received field strength is measured by the intermittent reception operation.

  The received electric field processing unit 611 and the application processing unit 66 are connected, and the received electric field strength measurement value can be transferred from the received electric field processing unit 611 to the application processing unit 14.

  When a call is made from the communication terminal device 6 to the center device 1 (see FIG. 1), a call is made from the application processing unit 66 connected to the wireless I / F unit 62 to the wireless I / F unit 62. Call requests can be forwarded.

  Hereinafter, the operation in the first embodiment will be described.

As shown in FIG. 3, the communication terminal device 6 monitors the radio wave environment, and when the reception electric field strength measurement time (for example, once / one hour) is reached in the idle state (steps ST201 and ST202), the application processing is performed. The unit 66 collects the received electric field strength measurement value from the received electric field processing unit 611 (step ST203),
The collected received field strength measurement value is compared with a preset threshold value (step ST204).

  Here, the threshold is a reception field strength value sufficient for the communication terminal device 6 and the base station 5 to perform wireless communication.

If the received electric field strength measurement value measured by the received electric field processing unit 611 is less than the threshold value and the received electric field strength measurement value of the previous measurement is greater than or equal to the threshold value, the received electric field measurement timing in the received electric field processing unit 611 is determined. Shortened (eg reduced from once / hour to once / 10 seconds),
The received field strength measurement is performed a plurality of times (N times) in a certain period (for example, 60 seconds),
If the measured value is less than the threshold value, it is determined that the radio wave environment has deteriorated (steps ST204 to ST207).
Thereafter, the reception electric field measurement timing is returned to normal (for example, measured once / hour).

  Thus, when the received field strength measurement value is less than the threshold value and the previous received field strength measurement value is greater than or equal to the threshold value, the reception field measurement timing is immediately shortened and N measurements are performed (steps ST204 and ST205). Therefore, it is possible to determine a case where the electric field strength is instantaneously reduced due to noise or the like.

  If the received field strength measurement value is equal to or greater than the threshold value and the previous received field strength measurement value is less than the threshold value and is equal to or greater than the threshold value for a certain period (similarly, the received field strength measurement is performed a plurality of times) Is in a good state (steps ST204, ST209 to ST211).

  If the radio wave environment deteriorates, the flag of the received electric field strength information is registered as ON (step ST208). If the radio wave environment becomes favorable, the flag of the received electric field strength information is registered as OFF (step ST212). Then, the information is notified to the center device 1 (see FIG. 1) (steps ST213 and ST214).

  As shown in FIG. 4, in the communication terminal device 6, the application processing unit 66 uses the received electric field strength measurement value S <b> 10 collected from the wireless unit 61 as the radio wave environment determination processing S <b> 11 described in FIG. 3. As a result, when it is necessary to notify the center apparatus 1 (see FIG. 1), a call request S12 is transmitted to the wireless I / F unit 62, and the wireless packet network (the Dopa network) 4 ( 1) and line connection S13, and the PPP processing unit 63 performs PPP connection S14. The reception processing field strength information S15 is transmitted from the application processing unit 66 to the center apparatus 1 (see FIG. 1) using the UDP processing unit 652 of the transport layer 65.

  Thus, since the communication terminal device 6 immediately notifies the center device 1 (see FIG. 1) when the radio wave environment changes, the meter reading data collection time is longer than when notifying the change of the radio wave environment at the time of meter reading. And the concentration of communication load on the network can be leveled.

  When transmitting the received electric field information (flag ON or OFF) to the center device 1 (see FIG. 1), the TCP processing unit 651 may be used, but the received electric field information is the flag (ON or OFF) information. Since communication is small and the amount of data packets is small, there is little problem of communication errors (communication failure and application retries increase), and transmission by the UDP processing unit 652 is preferable from the viewpoint of packet charges and communication efficiency.

  As shown in FIG. 4, the center device 1 receives from the communication terminal device 6 via the router 3 (see FIG. 1) via the transport layer (UDP) 15 of the center device 1. Based on the received field strength information S15, the application processing unit 16 of the center device 1 creates a field strength information table S16 corresponding to each communication terminal device 6.

  The field strength information table S16 of the center device 1 is a communication protocol determined based on the received field strength information S15 and the received field strength information S15 in each of the communication terminal devices A to E, for example, as shown in FIG. It is a table of (transport layer). The transport layer 15 of the center device 1 employs TCP for a communication terminal device (received electric field strength information is ON) determined to be in a state where the radio wave environment has deteriorated, and the radio wave environment is in a good state UDP is adopted for the communication terminal device (received electric field strength information is OFF) determined to be. When the center device 1 collects data held in the communication terminal device 6 or the meter 7 for each communication terminal device 6, the transport layer (TCP or UDP) selected and determined by each communication terminal device 6 is used. ) Select and use.

  As shown in FIG. 6 (illustrated in the case where there are two communication terminal devices 6), the center device 1 does not communicate with the communication terminal device determined to have a good radio wave environment. The application processing unit 16 transmits a protocol setting request S20 to its own transport layer 15 to set UDP.

  Next, in response to a line connection request S21, a line between the wireless packet network (Dopa network) 4 and the communication terminal device 6 is connected S22, and a PPP connection S23 is established.

  Thereafter, a meter-destined message S24 is transmitted from the application processing unit 16 to the communication terminal device 6, and when the communication terminal device 6 receives the message S24, it communicates with the stored data or the meter 7 and obtains it. The transmitted data is transmitted to the center apparatus 1 as a meter-addressed response power S25.

  Here, the meter-addressed request message S24 and the meter response message S25 have a maximum of 500 bytes, and data of a larger size is divided and transmitted.

  It is assumed that the line and the PPP are disconnected due to a timeout (usually after 10 minutes) of the disconnection timer of the wireless packet network (Dopa network) 4.

  Further, as shown in FIG. 7 (illustrated as an example in the case of one communication terminal device), the center device 1 is connected to the communication terminal device 6 that is determined to have a deteriorated radio wave environment. Transmits a protocol setting request S30 from its own application processing unit 16 to its own transport layer 15 to set TCP.

  Next, in response to a line connection request S31, a line between the wireless packet network (Dopa network) 4 and the communication terminal device 6 is connected S32, and a PPP connection S33 is established.

  Next, the center device 1 performs a TCP connection S34 with the communication terminal device 6 and transmits a meter-desired request message. The communication terminal device 6 sends the stored data or the data acquired from the meter 7 to the meter-addressed response. It transmits as a message (S35-S36).

  Note that the line, PPP, and TCP are disconnected by timeout (usually after 10 minutes) of the disconnection timer of the wireless packet network (Dopa network) 4.

  The center device 1 performs line connection and PPP connection to the communication terminal device 6 according to the field strength information table created from each received field strength information received from a plurality of communication terminal devices 6, and has been described above. As described above, a meter-addressed response message for the meter-addressed request message transmission is received using the communication protocol (transport layer) selected and determined as described above, and data is sequentially collected from the plurality of communication terminal devices 6 in the same manner.

  As described above, the communication terminal device 6 has the function of measuring the received electric field strength and the radio wave environment discrimination function, and the received electric field strength information transmitted from the plurality of communication terminal devices 6 to the center device 1. The center device 1 selects and determines a communication protocol (transport layer) according to the radio wave environment when collecting data for the plurality of communication terminal devices 6 for the purpose of meter reading and the like, and the transport layer Uses TCP only for communication terminal devices that are in a deteriorated radio wave environment, and data transmission / reception is reliably performed through confirmation by ACK signal and retransmission control for transmission data, ensuring high communication reliability. . For a communication terminal apparatus having a good radio wave environment, efficient data collection can be performed by using UDP with low communication reliability but good transmission efficiency.

  For example, when considering a system in which 6,000 customers with the communication terminal device 6 and the meter 7 are installed for one center device 1, the center device 1 has a frequency of once a month. If the request message addressed to the meter (less than 500 bytes) is transmitted from and the collected data (less than 10 kbytes) of the meter 7 is collected via each communication terminal device 6, the TCP is used. In this case, the communication time per house is about 25 seconds. However, when the UDP is used, the communication time can be reduced by about 3 seconds because there is no ACK signal for the TCP connection and transmission data. Assuming that 20% of the communication terminal apparatuses 6 in the state where the radio wave environment has deteriorated among 6,000 houses, the communication time when collecting data from all the communication terminal apparatuses 6 is about 38 hours. When all TCP is used in automatic meter reading like conventional general data transmission, it takes about 42 hours. Therefore, all TCP is used as before in one meter reading for all consumers. Compared to the case, it can be shortened by about 4 hours.

  Further, considering the number of wireless packets between the wireless packet network (Dopa network) 4 and the communication terminal device 6 from the viewpoint of communication cost, the meter-destined request message transmitted from the center device 1 is defined as one message. When the response message addressed to the meter from the communication terminal device 6 is 20 messages, when TCP is used, the wireless packet is connected to the TCP connection in the communication terminal device per house as compared with the case of using UDP. 3 packets necessary for the transmission and 21 packets by the ACK signal (1 packet) for each message are transmitted in excess [(21 + 3) packets × 48 bytes / packet = 1152 bytes; 48 per packet using PPP and TCP Part-Time Job].

  Further, as in the example of the first embodiment, in the communication terminal device 6 in a state where the radio wave environment is deteriorated, the received electric field strength information (one packet) is transmitted to the center device 1 at a frequency of five times per month per house. Sent [1 packet x (48 + 4) bytes x 5 times = 260 bytes; PPP and TCP (48 bytes) per packet and 52 bytes in the application layer (4 bytes) representing radio environment deterioration], out of 6,000 Assuming that 20% of the communication terminal devices 6 are in a deteriorated radio wave environment [(1152 + 260) bytes × 6000 houses × 20% / 128 bytes = 13238 packets], for all 6,000 communication terminal apparatuses 6 When TCP is used for all automatic meter readings as in the conventional general data transmission, [1152 bytes / equivalent x 6000 e / 128 bytes = 54000 packets Compared to per month 40762 [= 54000-13238] packet content can be reduced, it is possible to suppress the communication cost of the entire system. Here, [] indicates the calculation of the number of bytes and the number of packets. The number of packets was calculated by dividing the total number of bytes used in a month by 128 bytes (according to NTT's charge calculation method).

  To summarize Embodiment 1 of the present invention, as described above, the communication terminal device 6 is provided with a function for measuring received electric field strength and a radio wave environment discrimination function, and is transmitted from each communication terminal device 6 by the radio wave environment discrimination function. When the center device 1 collects data for the plurality of communication terminal devices 6 based on the received electric field strength information, the center device 1 determines a communication protocol (transport layer) corresponding to the radio wave environment state. The transport layer uses TCP with high communication reliability in which reliable data transmission / reception is performed by ACK signal response to transmission data and retransmission control only for communication terminal devices in a state where the radio wave environment has deteriorated. Communication reliability is low for communication terminal devices with good environment, but use UDP with good transmission efficiency, and therefore collect data efficiently. A.

  Further, when the first embodiment of the present invention is changed from a viewpoint, the communication terminal device 6 includes a reception field strength measurement function and a radio wave environment discrimination function, and the radio wave environment discrimination function changes the radio wave environment. The received field strength information is transmitted to the center device 1, and the center device 1 creates a field strength information table (illustrated in FIG. 6) based on the received field strength information transmitted from the plurality of communication terminal devices 6. Since the wireless communication type automatic meter reading system using the communication protocol (transport layer) corresponding to the radio wave environment is used for each communication terminal device 6 based on the electric field strength information table, efficient data collection is possible. Can be performed, and the number of packets to be transmitted can be reduced, so that the data collection time can be shortened and the communication cost of the entire system can be suppressed. A.

  Further, when the first embodiment of the present invention is further changed and arranged, data communication is performed between the center apparatus 1 and the communication terminal apparatus 6 via a wireless packet network charged according to the amount of packets. An automatic meter reading system of a wireless communication system to perform, wherein the communication terminal device 6 is provided with a function for measuring the received electric field strength and a radio wave environment discrimination function, and the communication terminal device 6 changes in the radio wave environment by the radio wave environment discrimination function. If there is, transmit the received field strength information to the center device 1, the center device 1 creates a field strength information table (illustrated in FIG. 6) based on the received field strength information received from the plurality of communication terminal devices, A function to determine the communication protocol (transport layer) between the center unit and multiple communication terminal units according to the radio wave environment based on the field strength information table. It was said to be an automatic meter reading system of the wireless communication system.

  In the system, the communication protocol (transport layer) is the communication terminal device 6 in the state where the radio wave environment is deteriorated based on the received electric field strength information transmitted from the communication terminal device 6 in the center device 1. When performing data communication, it can be said that TCP is used and the communication terminal device 6 in a favorable radio wave environment has a function of using UDP.

  Further, in the system, it can be said that the communication terminal device 6 immediately transmits a received electric field strength signal when the radio wave environment changes.

  Further, when the first embodiment of the present invention is further changed and arranged, the communication terminal device 6 wirelessly communicates meter reading data with the center device 1 through a wireless packet network charged according to the amount of packets. The communication terminal device 6 has a plurality of communication protocols (transport layers), has a reception field strength measurement function and a radio wave environment discrimination function, and the radio wave environment discrimination function changes the radio wave environment. The received field strength information is transmitted to the center device, and the meter reading data is transmitted to the center device using the communication protocol (transport layer) designated by the center device when the meter reading data is requested from the center device 1 It can be said that.

  Further, when the first embodiment of the present invention is arranged in a superordinate concept, the plurality of communication terminal devices 6 that collect meter-reading data from the meter 7 that measures the amount of needle to be measured, and the plurality of communication terminal devices 6 is a wireless communication type automatic meter reading system including the center device 1 that collects and manages meter reading data from the wireless packet network 4 and the communication terminal device 6 and the center in a good radio wave environment. -Automatic wireless communication system with different communication protocols for wireless communication with the device 1 and wireless communication between the communication terminal device 6 and the center device 1 in a state where the radio wave environment has deteriorated It can be said that it is a meter reading system.

  Further, when the first embodiment of the present invention is arranged in a higher level concept from a different viewpoint, the plurality of communication terminal devices 6 that collect meter reading data from the meter 7 that measures the amount of needle to be measured, and these A wireless communication type automatic meter reading system including the center device 1 that collects and manages meter reading data from a plurality of communication terminal devices 6 via a wireless packet network 4, and the communication terminal is in a favorable radio wave environment. The communication protocol for wireless communication between the device 6 and the center device 1 is determined from the communication protocol for wireless communication between the communication terminal device 6 and the center device 1 in a state where the radio wave environment is deteriorated. It can be said that this is a wireless communication type automatic meter reading system that uses a communication protocol with good meter reading data collection efficiency.

  Further, in the system, the communication terminal of the wireless communication between the communication terminal device 6 and the center device 1 in a good radio wave environment is set to UDP, and the communication terminal in a deteriorated radio wave environment It can be said that the communication protocol for wireless communication between the device 6 and the center device 1 is TCP.

  Further, in the system, the radio wave environment state of each communication terminal apparatus based on the electric field intensity information table (illustrated in FIG. 6) created from the information of the received electric field intensity of each of the plurality of communication terminal apparatuses 6 is determined. It can be said that this is something to be determined.

  Further, when the first embodiment of the present invention is further rearranged and arranged in a superordinate concept, the meter reading data is collected from the meter 7 for measuring the amount of the meter to be inspected, and the collected meter reading data is used as the meter reading data. The center device 1 that collects and manages meter-reading data and the communication terminal device 6 of a wireless communication system that transmits the data via the wireless packet network 4 are selected and specified by the center device 1 according to the state of the radio wave environment. It can be said that this is a wireless communication type communication terminal device that performs the transmission of the meter reading data using a communication protocol.

Embodiment 2. FIG.
The second embodiment of the present invention will be described below with reference to FIG. 8 showing another example of the electric field strength information table. Although the system configuration and the functional configuration of the communication terminal apparatus in the second embodiment of the present invention are not shown, the system configuration in FIG. 1 and the function of the communication terminal apparatus in FIG. 2 in the first embodiment of the present invention described above. It may be the same as the configuration.

  In the above-described first embodiment of the present invention, the center device 1 (see FIG. 1) creates the electric field strength created based on the received electric field strength information transmitted from the plurality of communication terminal devices 6 (see FIG. 1). Although the case where the communication protocol (transport layer) is determined in accordance with the information table and the order of collecting data for the plurality of communication terminal devices 6 is exemplified in the registration order, the second embodiment of the present invention is as follows. The data collection order for a plurality of communication terminal devices is determined from the electric field intensity information table at the time of starting data collection, so that more efficient data collection can be performed.

  As shown in FIG. 8, with respect to the communication terminal device A, the communication terminal device C, and the communication terminal device E that are in the OFF state (the radio wave environment is good) in the received electric field strength information at the start of data collection. , Data collection is performed preferentially using the UDP. For the communication terminal device B and communication terminal device D that are in the ON state (the radio wave environment has deteriorated) in the received electric field strength information, the communication terminal device A, the communication terminal device C, and the communication that are in the OFF state Data collection is performed after all data collection of the terminal device E is completed.

  For example, in the above-described first embodiment of the present invention, the time required to collect data of the communication terminal device 6 targeting 6,000 houses from the center device 1 is about 38 hours, and 4 to 4 per night per day. If data is collected in 5 hours, it takes about 8 days. It takes about 6 days for data collection from the center device 1 to each communication terminal device 6 in a good radio wave environment, but in the communication terminal device 6 in a state where the radio wave environment has deteriorated during that period, it is good. If the state changes, the number of eaves that use the communication protocol (transport layer) between the center device 1 and the communication terminal device 6 as UDP increases, further reducing the data collection time and the transmission packet. It can be reduced.

  To summarize Embodiment 2 of the present invention, as described above, the communication terminal device 6 is provided with a reception field strength measurement function and a radio wave environment discrimination function, and is transmitted from each communication terminal device 6 by the radio wave environment discrimination function. When the center device 1 collects data for the plurality of communication terminal devices 6 based on the received electric field strength information, the center device 1 determines a communication protocol (transport layer) corresponding to the radio wave environment state. The transport layer uses TCP with high communication reliability in which reliable data transmission / reception is performed by ACK signal response to transmission data and retransmission control only for communication terminal devices in a state where the radio wave environment has deteriorated. Although communication reliability is low for communication terminal devices with good environment, in the automatic meter reading system of wireless communication method using UDP with good transmission efficiency, Data acquisition order from the center apparatus 1 for a plurality of communication terminal device 6, it can be said that by the electric field strength information table (illustrated in FIG. 8) in which priority is given to communication terminal apparatus in a good condition of the radio wave environment.

  When the second embodiment of the present invention is arranged in a superordinate concept, as described above, the plurality of communication terminal devices 6 that collect meter reading data from the meter 7 that measures the amount of needle to be measured, and the plurality of these communication terminal devices 6 A wireless communication type automatic meter reading system including the center device 1 that collects and manages meter reading data from the communication terminal device 6 via the wireless packet network 4, and the communication terminal device is in a favorable radio wave environment. 6 and wireless communication between the center device 1 and wireless communication between the communication terminal device 6 and the center device 1 in a state where the radio wave environment is deteriorated. In the communication-type automatic meter-reading system, the order of data collection from the center device to the plurality of communication terminal devices is such that the communication terminal devices in a good radio wave environment are in a deteriorated radio wave environment. It can be said that it is intended to override the certain communication terminal device.

Embodiment 3 FIG.
The third embodiment of the present invention will be described below with reference to FIG. 9 showing still another example of the electric field strength information table. Although the system configuration and the functional configuration of the communication terminal apparatus according to Embodiment 3 of the present invention are not shown, the system configuration of FIG. 1 and the function of the communication terminal apparatus of FIG. 2 according to Embodiment 1 of the present invention described above. It may be the same as the configuration.

  In the above-described second embodiment of the present invention, the data collection order from the center device 1 (see FIG. 1) to each of the communication terminal devices 6 (see FIG. 1) is determined in the state of the field strength information table at the time of starting data collection. In the third embodiment of the present invention, the received field strength information transmitted from each communication terminal device 6 (see FIG. 1) and the date of reception in the center device 1 (see FIG. 1) are shown. At the same time, it is recorded in the electric field strength information table, and the data collection order from the center device 1 to each of the communication terminal devices 6 is determined in consideration of the fluctuation situation of the past radio wave environment. Data collection can be performed.

  As shown in FIG. 9, the center device 1 creates a field strength information table in which the received field strength information from each communication terminal device 6 and the received date are recorded. The data collection order to the terminal device 6 is such that the received electric field strength information is currently in the OFF state (the radio wave environment is good) because communication is performed in a stable radio wave environment when the radio wave environment varies. The most recent change from ON to OFF (change from a poor radio wave environment to a good state) is preferentially performed. If there is a change from ON to OFF (change from a poor radio wave environment to a good state) on the same day, priority is given to the one that has been ON for a long time.

  For example, in the case where the field strength information table is as shown in FIG. 9, assuming that the current day is one day, the communication terminal devices currently in the OFF state are the communication terminal devices A, B, C and E, of which the most Since it is the communication terminal apparatus E that has newly changed from the ON state to the OFF state, the communication terminal apparatus E has the first data collection order. Next, those that have changed from ON to OFF are communication terminal devices B and C that have changed on the 20th, but those that have a long ON period are communication terminal devices B that have been in the ON state for 20 days. The transmission terminal apparatus B is the second, and the transmission terminal apparatus C that has been in the ON state for 11 days is the third. Subsequently, the communication terminal device A that has changed from the ON state to the OFF state on the 13th is the fourth, and finally the communication terminal device D that is in the ON state is the fifth.

  As described above, in the third embodiment of the present invention, the data collection order for each communication terminal device 6 from the center device 1 is determined according to the past fluctuation state of the radio wave environment in each communication terminal device 6. As a result, even in the communication terminal device 6 in which the radio wave environment fluctuates, data can be collected in a stable radio wave environment state. As a result, the communication protocol (transport layer) between the center device 1 and the communication terminal device 6 is UDP. As a result, the number of the communication terminal devices 6 that use is increased, and the data can be collected more efficiently.

  To summarize Embodiment 2 of the present invention, as described above, the communication terminal device 6 is provided with a reception field strength measurement function and a radio wave environment discrimination function, and is transmitted from each communication terminal device 6 by the radio wave environment discrimination function. When the center device 1 collects data for the plurality of communication terminal devices 6 based on the received electric field strength information, the center device 1 determines a communication protocol (transport layer) corresponding to the radio wave environment state. The transport layer uses TCP with high communication reliability in which reliable data transmission / reception is performed by ACK signal response to transmission data and retransmission control only for communication terminal devices in a state where the radio wave environment has deteriorated. Although communication reliability is low for communication terminal devices with good environment, in the automatic meter reading system of wireless communication method using UDP with good transmission efficiency, The data collection order from the center device 1 to the communication terminal device 6 is to record the past radio wave environment state in the electric field strength information table (illustrated in FIG. 9) and collect data from the center device to the communication terminal device. It can be said that priority is given to the communication terminal device 6 in which the radio wave environment is in a favorable state and the change in the radio wave environment has occurred most recently.

  When the second embodiment of the present invention is arranged in a superordinate concept, as described above, the plurality of communication terminal devices 6 that collect meter reading data from the meter 7 that measures the amount of needle to be measured, and the plurality of these communication terminal devices 6 A wireless communication type automatic meter reading system including the center device 1 that collects and manages meter reading data from the communication terminal device 6 via the wireless packet network 4, and the communication terminal device is in a favorable radio wave environment. 6 and wireless communication between the center device 1 and wireless communication between the communication terminal device 6 and the center device 1 in a state where the radio wave environment is deteriorated. In a communication-type automatic meter reading system, the past radio wave environment state is also recorded in the electric field strength information table, and based on the record, a new radio wave environment change occurs in a good radio wave environment. Said preferentially from the communication terminal device 6, it is from the center apparatus 1 to perform the collection of meter reading data to the plurality of communication terminal device 6 and.

  In the system, when there is a change in the radio wave environment, the communication terminal device 6 having the change transmits the received electric field strength signal, and the electric field strength information is based on the transmitted received electric field strength signal. It can be said that the information of the received electric field intensity after the change is recorded in a table (illustrated in FIG. 9).

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows Embodiment 1 of this invention, and is a block diagram which shows an example of the system configuration | structure of the automatic meter-reading system of a radio | wireless communication system. It is a figure which shows Embodiment 1 of this invention, and is a block diagram which shows the function structure of each communication terminal device in FIG. It is a figure which shows Embodiment 1 of this invention, and is a flowchart which shows an example of the received electric field strength measuring method in the communication terminal device of FIG. It is a figure which shows Embodiment 1 of this invention, and is a figure which shows an example of the sequence which transmits receiving field strength information from a communication terminal device to a center apparatus in FIG. It is a figure which shows Embodiment 1 of this invention, and is a figure which shows an example of the electric field strength information table produced in the electric field strength information table preparation part in FIG. It is a figure which shows Embodiment 1 of this invention, and is a figure which shows an example of the sequence which a center apparatus collects data from a communication terminal device using UDP in FIG. It is a figure which shows Embodiment 1 of this invention, and is a figure which shows an example of the sequence which a center apparatus collects data from a communication terminal device using TCP in FIG. It is a figure which shows Embodiment 2 of this invention, and is a figure which shows another example of the electric field strength information table in a center apparatus. It is a figure which shows Embodiment 3 of this invention, and is a figure which shows another example of the electric field strength information table in a center apparatus.

Explanation of symbols

1 center device,
15 Transport layer,
16 application processing unit,
2 LAN,
3 routers,
4 wireless packet network (Dopa network),
5 base stations,
6 communication terminal device,
7 meters,
61 Radio section,
611 reception electric field processing unit,
62 wireless I / F processing unit,
63 PPP processing unit,
64 IP processing unit,
65 transport layer,
651 TCP processing unit,
652 UDP processing unit,
66 Application processing unit,
67 Antenna.

Claims (8)

  A wireless communication device including a plurality of communication terminal devices that collect meter-reading data from a meter that measures the amount of meter-reading, and a center device that collects and manages meter-reading data from the plurality of communication terminal devices via a wireless packet network A communication type automatic meter reading system, wherein wireless communication between the communication terminal device and the center device in a good radio wave environment, the communication terminal device in a deteriorated radio wave environment, and the An automatic meter reading system of a wireless communication system that uses different communication protocols for wireless communication with a center device.   The wireless communication type automatic meter reading system according to claim 1, wherein a communication protocol of wireless communication between the communication terminal device and the center device in a good radio wave environment is in a deteriorated state of the radio wave environment. A wireless communication type automatic meter reading system characterized in that the communication protocol has a better efficiency in collecting the meter reading data than the communication protocol for wireless communication between the communication terminal device and the center device.   2. The wireless communication type automatic meter reading system according to claim 1, wherein a communication protocol of wireless communication between the communication terminal device and the center device in a good radio wave environment is UDP, and the radio wave environment is deteriorated. A wireless communication type automatic meter reading system, characterized in that TCP is used as a communication protocol for wireless communication between the communication terminal device and the center device in a state of being performed.   The wireless communication type automatic meter reading system according to any one of claims 1 to 3, wherein each communication based on a field strength information table created from information of a received field strength of each of the plurality of communication terminal devices. A wireless communication type automatic meter reading system characterized by determining whether the radio wave environment of a terminal device is good or bad.   4. The wireless communication type automatic meter-reading system according to claim 1, wherein the order of data collection from the center device to the plurality of communication terminal devices is a communication terminal in a favorable radio wave environment. A wireless communication type automatic meter reading system characterized in that a device is given priority over a communication terminal device in a state where the radio wave environment has deteriorated.   5. The wireless communication type automatic meter reading system according to claim 4, wherein a past radio wave environment state is also recorded in the electric field intensity information table, and based on the record, the radio wave environment is in a good state and the radio wave environment changes. A wireless communication type automatic meter reading system, wherein the meter data is collected from the center device to the plurality of communication terminal devices in preference to the newly generated communication terminal device.   In the wireless communication type automatic meter reading system according to any one of claims 4 and 6, when there is a change in the radio wave environment, a communication terminal device having the change transmits the received electric field strength signal. A wireless communication type automatic meter reading system, wherein information on the received electric field intensity after the change is recorded in the electric field intensity information table based on the transmitted received electric field intensity signal.   A wireless communication system communication terminal that collects meter reading data from a meter that measures the amount of the meter to be measured, and transmits the collected meter reading data via a wireless device and a center device that collects and manages the meter reading data. A wireless communication type communication terminal device that performs the transmission of the meter reading data using a communication protocol selected and specified by the center device according to the state of a radio wave environment.

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