JP2004015368A - Wireless communication system, wireless master unit, wireless slave unit, communication environment supervisory method, and illegal access supervisory method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless communication system or the like capable of grasping the state of a radio wave environment so as to early enhance the communication state. <P>SOLUTION: A wireless master unit 106 and a wireless slave unit 107 count the number of times for detecting a disturbing radio wave, when the wireless master unit 106 and the wireless slave unit 107 detect the disturbing radio waves for a prescribed number of times or more within a prescribed time, the wireless master unit 106 and the wireless slave unit 107 transmit a fault occurrence telegraphic message or the like to a center 102 so as to make the center 102 always grasp the state of the radio wave environment in wireless communication between the wireless master unit 106 and the wireless slave unit 107. Further, when the wireless master unit 106 and the wireless slave unit 107 transmit the fault occurrence telegraphic text to the center 102, the wireless master unit 106 and the wireless slave unit 107 light/blink LEDs provided to them. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wireless communication system or the like that sends a meter reading value of a gas meter or the like and sends an alarm in conjunction with an alarm device attached to the gas meter or the like, and in particular, a wireless communication system that periodically checks a radio wave environment in a wireless section. The present invention relates to a communication system and the like.
[0002]
[Prior art]
Conventionally, a wireless communication system as shown in FIG. 6 has been known as a system for transmitting a meter reading value of a gas meter or the like to a center or detecting a gas leak or the like in the vicinity of the gas meter or the like and notifying the center to automatically shut off the gas meter or the like. is there. The wireless communication system 601 shown in FIG. 6 includes a center 602, a communication control device 603, a telephone line 605, a wireless master device 606, wireless slave devices 607-1 and 607-2, a meter 608, a detector 609, and the like.
[0003]
The center 602 is connected to the wireless master device 606 via the communication control device 603 and the telephone line 605 to perform communication. The wireless master device 606 and the wireless slave device 607 are wirelessly connected by using a radio wave of a low power wireless standard or the like. Both the wireless master device 606 and the wireless slave device 607 are driven using a battery or a commercial AC power supply as a power supply. The wireless handset 607-1 is connected to a meter 608 such as a gas meter, and the wireless handset 607-2 is connected to a detector 609 for detecting a gas leak or the like.
[0004]
When the meter 608 measures the gas usage or the like, the meter transmits a meter reading signal to the wireless slave device 607-1, and upon receiving the meter reading signal, the wireless slave device 607-1 sends a meter reading signal to the wireless master device 606. Wireless master device 606 analyzes the received information and transmits it to center 602 via telephone line 605. The center 602 grasps the gas usage etc. related to the meter 608 based on the information transmitted from the wireless master device 606.
[0005]
Further, when the detector 609 detects a gas leak or the like, it transmits an alarm signal to the wireless slave 607-2, and when receiving the alarm signal, the wireless slave 607-2 sends an alert signal to the wireless master 606. . Wireless master device 606 analyzes the received information and notifies center 602 via telephone line 605. The center 602 transmits a command for shutting down the gas meter or the like to the wireless slave device 607-1 connected to the meter 608 via the wireless master device 606.
[0006]
[Problems to be solved by the invention]
However, there is a possibility that various devices or the like that generate noise exist around the wireless master device 606 and the wireless slave device 607. After the wireless master device 606 and the wireless slave device 607 are installed in the actual environment, a radio wave shield such as a metal may be placed around each wireless device and in a wireless section. Therefore, even when the radio wave environment is confirmed by performing a communication test at the time of installation, the wireless communication system 601 becomes unable to communicate due to a late event, for example, noise or shielding, and the meter 608 becomes inoperable. In some cases, the meter reading signal cannot be transmitted to the center 602, or the alarm signal from the detector 609 cannot be transmitted to the center 602.
[0007]
The subsequent events that cause the deterioration of the radio wave environment are roughly classified into temporary events and stationary events. Temporary reasons are, for example, the passage of vehicles transmitting illegal radio waves, idling of vehicles, etc., and stationary reasons are, for example, installation of radio wave shields such as metals, installation of sources of interference radio waves, etc. . In particular, in the case of a regular reason, there is a problem that it is necessary to take measures to fundamentally improve the radio wave environment.
[0008]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a wireless communication system and the like that can grasp the state of the radio wave environment and can improve the communication state at an early stage. To provide.
[0009]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, a first invention comprises a wireless master unit connected to a center and a wireless slave unit connected to a meter or a detector, wherein the wireless master unit and the wireless slave unit A wireless communication system in which communication is performed between the center and the meter or the detector by performing communication between the wireless master device, wherein the wireless master device receives a predetermined number of jamming radio waves within a predetermined time. In this case, the wireless communication system includes an abnormality occurrence notifying unit that transmits a signal indicating the occurrence of an abnormality to the center.
[0010]
According to the first aspect, the wireless master device performs carrier sense intermittently or continuously, counts the number of times that jamming radio waves are detected, and when a predetermined number of jamming radio waves are received within a predetermined time period, an abnormality occurs in the center. Send a signal.
The wireless master device monitors the communication environment, for example, monitors, determines, and diagnoses whether the radio wave environment is good, whether or not jamming radio waves are present, and the like. The wireless master unit counts the number of times of detection of jamming radio waves, and transmits an abnormal occurrence message or the like to the center if it detects the jamming waves of a predetermined number or more within a predetermined time. It is possible to grasp the state of the radio wave environment in communication. Note that the wireless master device may include a computer that performs the above processing.
[0011]
A second invention comprises a wireless master unit connected to a center and a wireless slave unit connected to a meter or a detector, and performs communication between the wireless master unit and the wireless slave unit. A wireless communication system in which communication is performed between the center and the meter or the detector, wherein the wireless slave device receives the jamming radio wave a predetermined number of times within a predetermined time, A wireless communication system that includes an abnormality occurrence notifying unit that transmits a signal indicating the occurrence of an abnormality to the center via the communication unit.
[0012]
In the second invention, the wireless handset performs carrier sense intermittently or continuously, counts the number of times that jamming radio waves are detected, and, when a predetermined number of jamming radio waves are received within a predetermined time period, sets the wireless master device to An abnormality occurrence signal is transmitted to the center via the terminal.
The wireless slave monitors the communication environment, for example, monitors, judges, and diagnoses whether the radio wave environment is good, whether or not jamming radio waves are present, and the like. The wireless handset counts the number of times jamming radio waves are detected, and if it detects more than a predetermined number of jamming radio waves within a predetermined time, it sends an error message to the center. It is possible to grasp the state of the radio wave environment in communication. Note that the wireless slave device may include a computer that performs the above processing.
[0013]
A third invention comprises a wireless master unit connected to a center and a wireless slave unit connected to a meter or a detector, and performs communication between the wireless master unit and the wireless slave unit. A wireless communication system in which communication is performed between the center and the meter or the detector, wherein the wireless master device is configured to contact the center when a predetermined number of unauthorized accesses are performed within a predetermined time. The wireless communication system includes an abnormality notification unit that transmits a signal indicating that an abnormality has occurred.
[0014]
In the third invention, the wireless master device monitors the unauthorized access intermittently or continuously, counts the number of times the unauthorized access is detected, and, when the unauthorized access is performed a predetermined number of times within a predetermined time, the wireless base station communicates with the center. Send an error occurrence signal.
The wireless master device monitors unauthorized access, for example, monitors, determines, and diagnoses the presence or absence of unauthorized access. The wireless master device counts the number of times an unauthorized access is detected, and if an unauthorized access is detected a predetermined number of times or more within a predetermined time, an abnormal occurrence message or the like is transmitted to the center. The status of unauthorized access to the communication system can be grasped. Note that the wireless master device may include a computer that performs the above processing.
[0015]
In the first to third inventions, the wireless master device and the wireless slave device can indicate that an abnormality has occurred on a display unit (display means) provided in the wireless master device and the wireless slave device. The display unit displays an abnormality occurrence, a communication abnormality, and the like, and is, for example, a light-emitting display, a blinkable LED (Light Emitting Diode) or the like.
In this case, when the wireless master device and the wireless slave device transmit an error occurrence message to the center, the LEDs provided on the wireless master device and the wireless slave device are turned on and blinked. It is possible to confirm the occurrence of an abnormality and the communication abnormality even at the site where the slave unit is installed.
[0016]
In the first to third inventions, the predetermined time and the predetermined number of times can be arbitrarily set. Therefore, it is possible to grasp and monitor the state of deterioration of the radio wave environment and the state of unauthorized access according to the degree, so that it is possible to efficiently take measures, countermeasures, and the like for occurrence of abnormality, communication abnormality, and unauthorized access.
[0017]
A fourth invention is a wireless master unit that is connected to a center and communicates with a wireless slave unit connected to a meter or a detector to mediate communication between the center and the meter or the detector. The radio base station further comprises an abnormality occurrence notifying means for transmitting a signal indicating occurrence of an abnormality to the center when a predetermined number of jamming radio waves are received within a predetermined time.
[0018]
A fourth invention is an invention relating to a wireless master device in the wireless communication system of the first invention.
[0019]
A fifth invention is a wireless slave unit that is connected to a meter or a detector and communicates with a wireless master unit connected to a center to mediate communication between the center and the meter or the detector. An abnormal occurrence notifying means for transmitting a signal indicating an abnormal occurrence to the center via the wireless master device when a predetermined number of jamming radio waves are received within a predetermined time. It is.
[0020]
A fifth invention is an invention relating to a wireless handset in the wireless communication system of the second invention.
[0021]
A sixth invention is a wireless master device which is connected to a center and communicates with a wireless slave device connected to a meter or a detector to mediate communication between the center and the meter or the detector. A radio base station characterized by comprising an abnormality occurrence notifying means for transmitting a signal indicating the occurrence of an abnormality to the center when a predetermined number of unauthorized accesses are made within a predetermined time.
[0022]
The sixth invention is an invention relating to a wireless master device in the wireless communication system of the third invention.
[0023]
A seventh invention is a communication that is performed by a wireless master device that mediates communication between the center and the meter or the detector by communicating with a wireless slave device connected to a center and connected to a meter or a detector. An environment monitoring method, comprising: when a predetermined number of jamming radio waves are received within a predetermined time, transmitting a signal indicating the occurrence of an abnormality to the center. is there.
[0024]
A seventh invention is an invention relating to a communication environment monitoring method performed by the wireless master device of the fourth invention.
[0025]
An eighth invention is a communication that is performed by a wireless slave unit connected to a meter or a detector and communicating with the wireless master unit connected to the center to mediate communication between the center and the meter or the detector. An environment monitoring method, comprising: a failure occurrence notification step of transmitting a signal indicating the occurrence of a failure to the center via the wireless master device when a predetermined number of jamming radio waves are received within a predetermined time. Is a communication environment monitoring method.
[0026]
An eighth invention is an invention relating to a communication environment monitoring method performed by the wireless slave device of the fifth invention.
[0027]
According to a ninth aspect of the present invention, by communicating with a wireless slave unit connected to a center and connected to a meter or a detector, unauthorized communication performed by a wireless master unit that mediates communication between the center and the meter or the detector is performed. An access monitoring method, comprising: a failure occurrence notification step of transmitting a signal indicating the occurrence of a failure to the center when a predetermined number of unauthorized accesses are made within a predetermined time. is there.
[0028]
A ninth invention is an invention relating to an unauthorized access monitoring method performed by the wireless master device of the sixth invention.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of a wireless communication system according to the present invention will be described in detail with reference to the accompanying drawings. Note that, in the following description and the accompanying drawings, components having substantially the same functional configuration are denoted by the same reference numerals, and redundant description will be omitted.
[0030]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram of a wireless communication system 1 according to an embodiment of the present invention. As shown in FIG. 1, the wireless communication system 101 includes a center 102, a communication control device 103, a telephone line 105, a wireless master device 106, wireless slave devices 107-1 and 107-2, a meter 108, a detector 109, and the like. Be composed.
[0031]
The center 102 and the wireless master device 106 are connected via a telephone line 105, and the wireless master device 106 and the wireless slave devices 107-1 and 107-2 transmit radio waves such as a low-power wireless standard. Use wireless connection. The wireless handset 107-1 is connected to a meter 108 such as a gas meter, and the wireless handset 107-2 is connected to a detector 109 for detecting a gas leak or the like. Each of the wireless master device 106 and the wireless slave devices 107-1 and 107-2 is driven using a battery or a commercial AC power supply as a power supply. The telephone line 105 is a telecommunication line such as a telephone line, and may be a wired or wireless network such as the Internet. The meter 108 is a gas meter, but may be an electric meter or a water meter.
[0032]
When the meter 108 measures the gas usage amount or the like, the meter 108 transmits a meter reading signal to the wireless slave device 107-1. When the meter 108 receives the meter reading signal, the wireless slave device 107-1 sends a meter reading signal to the wireless master device 106. Wireless master device 106 analyzes the received information and transmits it to center 102 via telephone line 105. The center 102 grasps the gas usage etc. related to the meter 108 based on the information transmitted from the wireless master device 106.
[0033]
When the detector 109 detects a gas leak or the like, it sends an alarm signal to the wireless slave device 107-2. When the wireless slave device 107-2 receives the alert signal, it sends an alert signal to the wireless master device 106. The wireless master device 106 analyzes the received information and notifies the center 102 via the telephone line 105. The center 102 transmits a command for shutting down the gas meter or the like to the wireless slave device 107-1 connected to the meter 108 via the wireless master device 106.
[0034]
FIG. 2 is a block diagram illustrating a configuration of the wireless master device 106. The wireless master device 106 includes a network communication control circuit 201, a message information control circuit 202, a radio wave transmission / reception circuit 203, a power supply circuit 204, a timer control circuit 205, an antenna 206, a display unit 207, and the like. The power supply circuit 204 supplies power to each unit. The timer control circuit 205 sends a time signal to the message information control circuit 202 periodically.
[0035]
The message information control circuit 202 creates a message that conveys an operation instruction to the meter or the detector, analyzes a received message from the antenna 206 and the telephone line 105, a received radio wave, an access, etc., generates an abnormal occurrence message, The number of accesses, the reception time, the access time, and the like are recorded. The message information control circuit 202 may include a CPU (Central Processing Unit) having a memory.
[0036]
The antenna 206 is connected to the radio transmission / reception circuit 203, and transmits a reception radio wave from the wireless handset 107 or the like to the radio transmission / reception circuit 203 or transmits a transmission radio wave to the wireless handset 107 or the like. The radio transmission / reception circuit 203 includes a modulation / demodulation circuit, a modulation transmission circuit, and the like, and demodulates a received signal and generates a transmission signal by modulation.
[0037]
The network communication (telephone line) control circuit 201 transmits the received telegram analyzed by the telegram information control circuit 202 to the center 102 via the telephone line 105, and transmits the telegram information and the like from the telephone line 105 to the telegram information control circuit 202. Send to The network communication (telephone line) control circuit 201 may be built in the wireless master device 106 or may be a separate housing. The display unit 207 displays an abnormality occurrence, a communication abnormality, and the like, and is, for example, a light-emitting display, a blinkable LED (Light Emitting Diode), or the like.
[0038]
FIG. 3 is a block diagram illustrating a configuration of the wireless client device 107. The wireless slave device 107 includes a radio wave transmitting / receiving circuit 301, a message information control circuit 302, a device communication control circuit 303, a power supply circuit 304, a timer control circuit 305, an antenna 306, a display unit 307, and the like. The power supply circuit 304 supplies power to each unit. The timer control circuit 305 sends a time signal to the message information control circuit 302 periodically.
[0039]
The telegram information control circuit 302 creates a telegram that conveys information such as meter readings, gas leaks, etc., analyzes the received telegram from the antenna 306, received radio waves, etc., generates an abnormal occurrence telegram, records the number of times of reception, and records the reception time. I do. Note that the message information control circuit 302 may include a CPU (Central Processing Unit) having a memory.
[0040]
The antenna 306 is connected to the radio transmission / reception circuit 301, and sends a reception radio wave from the radio base station 106 or the like to the radio transmission / reception circuit 301 or transmits a transmission radio wave to the radio base station 106 or the like. The radio transmission / reception circuit 301 includes a modulation / demodulation circuit, a modulation transmission circuit, and the like, and demodulates a reception signal and generates a transmission signal by modulation.
[0041]
The device communication control circuit 303 transmits the received telegram analyzed by the telegram information control circuit 302 to the meter 108 or the detector 109, a meter reading signal transmitted from the meter 108, and an alarm signal transmitted from the detector 109. And sends it to the message information control circuit 302.
The display unit 307 displays an occurrence of an abnormality, a communication abnormality, and the like, and is, for example, an LED (Light Emitting Diode) that can be lit and blinked.
[0042]
In the present embodiment, wireless master device 106 and wireless slave device 107 perform carrier sense (detection of radio waves) intermittently or continuously, and count (count) the number of times interference radio waves are detected. When detecting the jamming radio wave more than a certain number of times in a certain period of time, radio base station 106 transmits an abnormal occurrence message to center 102 via telephone line 105 by calling the terminal. When detecting the jamming radio wave more than a certain number of times in a certain period of time, the wireless slave unit 107 attempts to transmit an abnormal occurrence message to the wireless master unit 106. When wireless master device 106 is able to receive the error occurrence message from wireless slave device 107, it transmits the error occurrence message to center 102 via telephone line 105 by calling the terminal.
[0043]
In the carrier sense of the jamming radio wave, for example, the judgment of the jamming wave is made by inserting a synchronization signal into a signal transmitted and received between the wireless base station 106 and the wireless slave unit 107, and transmitting the synchronization signal within a predetermined time. This can be performed by determining whether or not the detection has been successful.
[0044]
Next, the operation procedure of the wireless communication system 101 when notifying the center of the deterioration of the radio wave environment in the present embodiment will be described in detail.
FIG. 4 is a flowchart illustrating the operation of the wireless master device 106 when notifying the center 102 of the occurrence of an abnormality related to jamming radio waves.
[0045]
The wireless master device 106 initializes a number counter and a timer (step 401). The number counter counts the number of times of detection of jamming radio waves. The time counter counts an elapsed time from a predetermined point in time.
Wireless master device 106 performs carrier sense (step 402). Carrier sensing may be performed intermittently (every 20 seconds or the like) or may be performed continuously.
[0046]
When detecting a carrier (YES in step 403), the wireless device 106 determines whether the carrier is caused by jamming radio waves (step 404). When the carrier is not caused by jamming radio waves (NO in step 404), that is, when the carrier is a signal from meter 108 or detector 109, wireless master device 106 performs a receiving operation (step 405).
[0047]
If the carrier is caused by jamming radio waves (YES in step 404), radio base station 106 increments the number counter by 1 (step 406), and if the number counter reaches a predetermined number (step 407), the telephone An abnormal occurrence message indicating deterioration of the radio wave environment is transmitted to the center 102 via the line 105 (step 408).
[0048]
When the timer has reached the predetermined time (YES in step 409), wireless master device 106 initializes the number counter and the timer (step 401), and when the timer has not reached the predetermined time (step 409). NO), the processing from step 402 is repeated.
[0049]
Note that the wireless slave device 107 performs the operations of steps 401 to 409 in the same manner as the wireless master device 106. In this case, in step 408, the wireless slave device 107 attempts to transmit an error occurrence message to the wireless master device 106. When wireless master device 106 is able to receive the error occurrence message from wireless slave device 107, wireless master device 106 sends an error occurrence message indicating deterioration of the radio wave environment to center 102 via telephone line 105.
[0050]
Further, when transmitting the error occurrence message in step 408, the fact is displayed on the display unit provided on the wireless master device 106 and the wireless slave device 107, and the LED provided on the wireless master device 106 and the wireless slave device 107 is displayed. Can be turned on or off.
[0051]
As described above, according to the present embodiment, wireless master device 106 and wireless slave device 107 count the number of times of detection of jamming radio waves, and when the number of jamming waves of a predetermined number of times or more is detected within a predetermined time, center 102 communicates with center 102. Since an abnormal occurrence message or the like is transmitted to the center, the center 102 can always grasp the state of the radio wave environment in the wireless communication between the wireless master device 106 and the wireless slave device 107.
[0052]
In addition, when the wireless master device 106 and the wireless slave device 107 transmit an error occurrence message to the center 102, the LEDs provided on the wireless master device 106 and the wireless slave device 107 are lit and blinked. It is possible to confirm occurrence of an abnormality and communication abnormality even at the site where the master unit and the wireless slave unit are installed.
[0053]
The predetermined time and the predetermined number of times can be arbitrarily set as internal settings of the wireless master device 106 and the wireless slave device 107. This internal setting can be changed from the center 102 and a setting device (not shown). Therefore, by setting the predetermined time and the predetermined number of times as described above, temporary and accidental events (vehicles that transmit illegal radio waves, idling of vehicles, etc.) and stationary events (metal radio waves, etc.) It is possible to distinguish the deterioration of the radio wave environment due to the installation of a shielding object, the installation of an interference radio wave generation source, and the like, so that it is possible to efficiently take measures and countermeasures against the occurrence of abnormalities and communication abnormalities.
[0054]
Next, an operation of the wireless communication system 101 according to another embodiment will be described.
FIG. 5 is a flowchart showing the operation of the wireless master device 106 when notifying the center 102 of the occurrence of an abnormality related to unauthorized access.
[0055]
The wireless master device 106 initializes a number counter and a timer (step 501). The number counter counts the number of unauthorized accesses. The time counter counts an elapsed time from a predetermined point in time.
Wireless master device 106 checks whether there is access from telephone line 105 or the like (step 502). Confirmation of the presence or absence of access may be performed intermittently or continuously.
[0056]
When detecting the access (YES in step 503), the wireless device 106 determines whether the access is unauthorized (step 504).
If the access is not unauthorized (NO in step 504), that is, if the access signal is an instruction signal from the center, the wireless master device 106 responds to the access, performs an operation, and the like (step 505).
[0057]
The determination of unauthorized access is made by, for example, inserting an identification signal into a signal or the like transmitted when accessing the wireless master device 106 and determining whether or not this identification signal has been detected within a predetermined time. It can be carried out.
[0058]
If the access is unauthorized (YES in step 504), wireless master device 106 increments the number counter by 1 (step 506), and if the number counter reaches a predetermined number (step 507), the telephone line An error message indicating unauthorized access is transmitted to the center 102 via the network 105 (step 508).
[0059]
If the timekeeping timer has reached the predetermined time (YES in step 509), wireless master device 106 initializes the number counter and the timekeeping timer (step 501), and if the timekeeping timer has not reached the predetermined time (step 509). NO), the processing from step 502 is repeated.
[0060]
Further, when transmitting the error occurrence message in step 508, the fact can be displayed on the display unit provided in the wireless master device 106, or the LED provided in the wireless master device 106 can be turned on or off.
[0061]
As described above, according to the present embodiment, wireless master device 106 counts the number of times that unauthorized access has been detected, and when the number of unauthorized accesses is equal to or greater than a predetermined number within a predetermined time period, an abnormal occurrence message is sent to center 102. Is transmitted, the center 102 can always grasp the status of unauthorized access to the wireless master device 106.
[0062]
Also, when the wireless master device 106 transmits an error occurrence message to the center 102, the LED provided on the wireless master device 106 is turned on and blinks. Therefore, not only at the center, but also at the site where the wireless master device is installed. It is possible to confirm unauthorized access.
[0063]
The predetermined time and the predetermined number of times can be arbitrarily set as internal settings of the wireless master device 106. This internal setting can be changed from the center 102 and a setting device (not shown). Therefore, by setting the predetermined time and the predetermined number of times as described above, it is possible to distinguish between temporary and accidental unauthorized access and permanent and concentrated unauthorized access. And measures can be taken efficiently.
[0064]
As described above, the preferred embodiments of the wireless communication system and the like according to the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to such examples. It is obvious to those skilled in the art that various changes or modifications can be made within the scope of the technical idea disclosed in the present application, and these naturally belong to the technical scope of the present invention. I understand.
[0065]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide a wireless communication system and the like that can grasp the state of the radio wave environment and can quickly improve the communication state.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a wireless communication system 1 according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a wireless master device 106.
FIG. 3 is a block diagram showing a configuration of a wireless client device 107;
FIG. 4 is a flowchart showing the operation of the wireless master device 106 when notifying the center 102 of the occurrence of an abnormality related to jamming radio waves.
FIG. 5 is a flowchart showing the operation of the wireless master device 106 when notifying the center 102 of the occurrence of an abnormality related to unauthorized access.
FIG. 6 is a schematic configuration diagram of a conventional wireless communication system 601.
[Explanation of symbols]
101 Wireless communication system
102 ... Center
103 communication control device
105 ……… Telephone line
106 ... Wireless master
107 ... Wireless handset
108 meter
109 Detector
201: Network communication control circuit
202, 302... Telegram information control circuit
203, 301: Radio wave transmission / reception circuit
204, 304 Power supply circuit
205, 305 Timer control circuit
206, 306 ... antenna
207, 307 ... Display
303: Device communication control circuit

Claims (18)

A wireless master unit connected to a center, and a wireless slave unit connected to a meter or a detector, and performing communication between the wireless master unit and the wireless slave unit, whereby the center and the meter Or a wireless communication system in which communication is performed with the detector,
The wireless communication system according to claim 1, wherein the wireless master device includes an abnormality occurrence notifying unit that transmits a signal indicating that an abnormality has occurred to the center when receiving a predetermined number of jamming radio waves within a predetermined time. The wireless communication system according to claim 1, wherein the wireless master device includes a display unit that indicates the occurrence of the abnormality. A wireless master unit connected to a center, and a wireless slave unit connected to a meter or a detector, and performing communication between the wireless master unit and the wireless slave unit, whereby the center and the meter Or a wireless communication system in which communication is performed with the detector,
The wireless slave device includes an abnormality occurrence notifying unit that transmits a signal indicating the occurrence of an abnormality to the center via the wireless master device when receiving a predetermined number of jamming radio waves within a predetermined time. Wireless communication system. The wireless communication system according to claim 3, wherein the wireless slave device includes a display unit that indicates the occurrence of the abnormality. A wireless master unit connected to a center, and a wireless slave unit connected to a meter or a detector, and performing communication between the wireless master unit and the wireless slave unit, whereby the center and the meter Or a wireless communication system in which communication is performed with the detector,
The wireless communication system according to claim 1, wherein the wireless master device includes an abnormality notification unit that transmits a signal indicating that an abnormality has occurred to the center when a predetermined number of unauthorized accesses are performed within a predetermined time. The wireless communication system according to claim 5, wherein the wireless master device includes a display unit that indicates the occurrence of the abnormality. A wireless master device that is connected to the center and communicates with the wireless slave device connected to the meter or the detector, thereby mediating communication between the center and the meter or the detector,
A wireless master device comprising: an abnormality occurrence notifying unit that transmits a signal indicating occurrence of an abnormality to the center when a predetermined number of jamming radio waves are received within a predetermined time. The wireless master device according to claim 7, further comprising a display unit that indicates the occurrence of the abnormality. A wireless slave unit that is connected to a meter or a detector and communicates with the wireless master unit connected to the center to mediate communication between the center and the meter or the detector.
A wireless slave unit, comprising: a malfunction notification unit that transmits a signal indicating a malfunction to the center via the wireless master unit when a predetermined number of jamming radio waves are received within a predetermined time. The wireless client device according to claim 9, further comprising a display unit that indicates the occurrence of the abnormality. A wireless master device that is connected to the center and communicates with the wireless slave device connected to the meter or the detector, thereby mediating communication between the center and the meter or the detector,
A wireless master device comprising: an abnormality occurrence notifying unit that transmits a signal indicating that an abnormality has occurred to the center when a predetermined number of unauthorized accesses are made within a predetermined time. The wireless master device according to claim 11, further comprising a display unit that indicates the occurrence of the abnormality. A communication environment monitoring method performed by a wireless master device connected to a center and communicating with the wireless slave device connected to a meter or a detector to mediate communication between the center and the meter or the detector. ,
A communication environment monitoring method, comprising: when a predetermined number of jamming radio waves are received within a predetermined time, transmitting a signal indicating the occurrence of an abnormality to the center. 14. The communication environment monitoring method according to claim 13, further comprising a display step for indicating the occurrence of the abnormality. A communication environment monitoring method performed by a wireless slave unit that is connected to a meter or a detector and communicates with a wireless master unit connected to a center to mediate communication between the center and the meter or the detector. ,
A communication environment monitoring method, comprising: when a predetermined number of jamming radio waves are received within a predetermined time, transmitting a signal indicating the occurrence of an abnormality to the center via the wireless master device. The communication environment monitoring method according to claim 15, further comprising a display step of indicating the occurrence of the abnormality. An unauthorized access monitoring method performed by a wireless master device that communicates with the center and the meter or the detector by communicating with a wireless slave device that is connected to a center and connected to a meter or a detector. ,
An unauthorized access monitoring method, comprising: when an unauthorized access has been performed a predetermined number of times within a predetermined time, transmitting an abnormal occurrence notification signal to the center. 18. The unauthorized access monitoring method according to claim 17, further comprising a display step of indicating the occurrence of the abnormality.

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