JP4198548B2 - Communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication device that communicates with another communication device in a communication mode corresponding to a relative relationship with the other communication device.
[0002]
[Prior art]
In a conventional radio base station, a radio unit is installed at a high altitude in order to secure a radio area. The operation unit of the radio main unit is installed separately in a place where the operator can easily operate. The operation unit and the wireless device main body are electrically connected using a dedicated line. When the wireless device main body becomes abnormal, the wireless device main body provides information indicating the abnormality to the operation unit via the dedicated line. The operation unit notifies the operator of the given information. Thus, the operator recognizes that the radio main body is abnormal (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-4382
[Problems to be solved by the invention]
In the conventional radio base station, the operator can recognize that the radio unit is abnormal, but cannot recognize the abnormal part. Since the operator cannot identify an abnormal part, it takes a long time to restore the radio main body.
[0005]
Accordingly, an object of the present invention is to provide a communication device capable of issuing an alarm when a specific part of the communication device is abnormal.
[0006]
[Means for Solving the Problems]
The present invention relates to a communication device that communicates with another communication device in a communication mode according to a relative relationship with the other communication device.
Transmitting means for transmitting a group of information including preset main information and reset information for adjusting the communication mode;
Receiving means for receiving the information group;
Input / output means for inputting / outputting main information;
An adjustment command generating means for generating an adjustment command for instructing adjustment of the communication form for each predetermined first period ;
Command means for transferring reset information received by the receiving means to the adjustment command generating means ;
Control means for controlling the transmission means to transmit the main information input by the input / output means, and for controlling the input / output means to output the main information received by the reception means ,
The adjustment command generation unit further generates an adjustment command based on the reset information from the command unit, sends the generated adjustment command to the command unit,
The command means transfers the adjustment command from the adjustment command generation means to the control means,
The control means adjusts the communication mode based on the adjustment command from the command means and controls the transmission means to transmit the reset information, and whether the command means is abnormal based on the adjustment command from the command means. or it determines, when determined to be abnormal, a communication device, wherein the benzalkonium control the output means to emit an alarm.
[0007]
According to the present invention, since the communication mode is adjusted based on the adjustment command from the command means, the communication mode can be adjusted according to the relative relationship with other communication devices. In addition, since the transmission unit is controlled so as to transmit the reset information every first period, the communication mode can be adjusted according to the relative relationship with other communication devices. If it is determined that the command means is abnormal based on the adjustment command from the command means, an alarm is issued. Thus, the operator can recognize that there is an abnormality in the command means. Therefore, the operator can repair the communication device in a short time by removing the abnormality of the command means.
[0008]
Further, the present invention is characterized in that the control means determines that the command means is abnormal when no adjustment command is given from the command means over a second period larger than the first period.
[0009]
According to the present invention, when the adjustment command is not given from the command means over a second period larger than the first period, it is determined that the command means is abnormal. Since the command unit gives an adjustment command to the control unit every first period, there is a possibility that some abnormality has occurred when the adjustment command is not given from the command unit over the second period. Therefore, when the adjustment command is not given from the command means over the second period, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0010]
Further, the present invention is characterized in that the control means determines that the instruction means is abnormal when the adjustment instruction is continuously given from the instruction means over a predetermined third period.
[0011]
According to the present invention, when the adjustment command is continuously given from the command means over a predetermined third period, it is determined that the command means is abnormal. Since the period during which the adjustment command is continuously given from the command means is a short period, there is a possibility that some abnormality has occurred in the command means if it is a long time. Therefore, when the adjustment command is continuously given over the predetermined third period, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0012]
Further, according to the present invention, when the reset information is received by the receiving means, the control means is given a reception notice from the receiving means, and when the reception notice is given, there is a command shortage in which no adjustment instruction is given from the command means. When it occurs, the command means is determined to be abnormal.
[0013]
According to the present invention, when the reset information is received by the receiving means, a reception notification is given from the receiving means, and when there is a shortage of commands when this reception notification is given, it is determined that the command means is abnormal. . The adjustment command generation unit generates an adjustment command based on the reset information transferred from the command unit . Therefore, when reset information is received by the receiving means, if the adjustment instruction based on the reset information is not given to the control means, there is a possibility that some abnormality has occurred in the command means. Therefore, when the command shortage occurs, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0014]
Further, the present invention is characterized in that the control means determines that the command means is abnormal when the command shortage occurs for a predetermined number of times.
[0015]
According to the present invention, it is determined that the command means is abnormal when a predetermined set number of commands are insufficient. As a result, when there is some abnormality in the command means and there is a temporary shortage of commands, it is not determined to be abnormal. When there is a command shortage of the set number of times, there is an extremely high possibility that an abnormality has occurred in the command means. Therefore, when the set number of commands is insufficient, it is determined that the command means is abnormal, so that the operator can recognize the abnormality of the command means.
Further, the present invention provides a communication device that communicates with another communication device in a communication mode corresponding to a relative relationship with the other communication device.
Transmitting means for transmitting a group of information including reset information for adjusting a predetermined communication form;
Receiving means for receiving the information group;
An adjustment command generating means for generating an adjustment command for instructing adjustment of the communication form for each predetermined first period ;
Command means for transferring reset information received by the receiving means to the adjustment command generating means ;
Control means,
The adjustment command generation unit further generates an adjustment command based on the reset information from the command unit, sends the generated adjustment command to the command unit,
The command means transfers the adjustment command from the adjustment command generation means to the control means,
The control means adjusts the communication mode based on the adjustment command from the command means and controls the transmission means so as to transmit the reset information to another communication device. Based on the adjustment command from the command means, the command means a communication device, wherein the benzalkonium be determined whether or not abnormal.
According to the present invention, since the communication mode is adjusted based on the adjustment command from the command means, the communication mode can be adjusted according to the relative relationship with other communication devices. In addition, since the transmission unit is controlled so as to transmit the reset information every first period, the communication mode can be adjusted according to the relative relationship with other communication devices. Further, it is possible to determine whether or not the command unit is abnormal based on the adjustment command from the command unit. As a result, the operator can repair the communication device in a short time by removing the abnormality of the command means when the command means is abnormal.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing an electrical configuration of a communication apparatus 1 according to an embodiment of the present invention. The communication device 1 includes a communication device main body 2, an operation console 3, and a host terminal 4. The communication device main body 2 includes a transmission unit 5, a reception unit 6, an operation unit 7, a signal processing unit 8, and a control unit 9. The communication device 1 is, for example, a base station radio, and communicates with other communication devices in a communication mode corresponding to a relative relationship with another communication device, for example, a mobile station such as a taxi. The communication device main body 2 is installed in a place where a communication mode with other communication devices can be secured, for example, in a high place. The console 3 and the host terminal 4 are installed separately in a place where the operator can easily operate.
[0017]
The transmission means 5 includes a transmitter 10 and a transmission antenna 11. The transmitter 10 gives the information group to the transmitting antenna 11 so as to transmit the information group including preset main information and reset information for adjusting the communication mode. The main information is, for example, audio information, and the reset information is, for example, reply information and setting information. The reply information is information that is transmitted to another communication device of the transmission source in order to indicate that the communication device 1 has received the information group when the communication device 1 has received the information group from the other communication device. The setting information is information based on the relative relationship with other communication devices, for example, the radio wave frequency, radio channel, radio wave intensity, and the like. The transmitting antenna 11 is electrically connected to the transmitter 10 and transmits the information group given from the transmitter 10 to another communication device.
[0018]
The receiving means 6 includes a receiver 12 and a receiving antenna 13. The receiving antenna 13 gives a group of information given by another communication device to the receiver 12. The receiver 12 receives the information group given from the receiving antenna 13. The receiver 12 provides the main information to the control unit 9 and the reset information to the signal processing unit 8 in the received information group.
[0019]
The operation unit 7 is an input / output unit and is electrically connected to the console 3. The operation unit 7 converts the main information given from the control unit 9 and the console 3, for example, performs amplification and mute, and gives the information to the console 3 and the control unit 9. The console 3 is input / output means for inputting / outputting main information. The console 3 includes sound output means such as a speaker and sound input means such as a microphone. The operator inputs voice using the console 3 and gives the operation unit 7 information based on the input voice. In addition, the console 3 outputs information given from the operation unit 7 using sound. When the main information is given from the console 3, the operation unit 7 gives reset information to the signal processing unit 8 so as to transmit the main information.
[0020]
The signal processing unit 8 is a command unit, and the host terminal 4 is an adjustment command generation unit, and the signal processing unit 8 and the host terminal 4 are electrically connected. The signal processor 8 gives reset information given from the receiver 12 to the host terminal 4. The host terminal 4 generates an adjustment command based on the given reset information. Further, the host terminal 4 generates an adjustment command for instructing adjustment of the communication mode every predetermined first period, for example, about 30 seconds. The host terminal 4 gives the generated adjustment command to the signal processing unit 8. The signal processing unit gives the given adjustment command to the control unit 9. If the host terminal 4 determines that the information provided from the signal processing unit 8 is abnormal, the host terminal 4 notifies the operator that the communication device main body 2 is abnormal.
[0021]
The control unit 9 controls the transmission means 5 so as to transmit main information input by the console 3. The control unit 9 controls the transmission unit 5 to adjust the communication mode based on the adjustment command from the signal processing unit 8 and to transmit the reset information. The control unit 9 also controls the operation unit 7 so as to output the main information received by the receiving unit 6. Based on the adjustment command from the signal processing unit 8, the control unit 9 determines whether or not the signal processing unit 8 is abnormal. If the control unit 9 determines that the control unit 9 is abnormal, the control unit 9 controls the operation unit 7 to issue an alarm. .
[0022]
Accordingly, the communication device 1 adjusts the communication mode based on the adjustment command from the signal processing unit 8, and thus can adjust the communication mode according to the relative relationship with other communication devices. Moreover, since the control part 9 controls the transmission means 5 to transmit reset information for every 1st period, it can adjust to the communication form according to the relative relationship with another communication apparatus. If it is determined that the signal processing unit 8 is abnormal based on the adjustment command from the signal processing unit 8, an alarm is issued. Thus, the operator can recognize that the signal processing unit 8 is abnormal. Since the signal processing unit 8 is connected to the transmission unit 5, the reception unit 6, the operation unit 7, the host terminal 4, and the control unit 9, the load on the signal processing unit 8 increases. Therefore, the signal processing unit 8 is more likely to be abnormal as compared to other parts. Since the communication device 1 can detect the abnormality of the signal processing unit 8, the communication device 1 can detect the abnormality of the communication device 1 at an early stage. Therefore, the operator can repair the communication device 1 in a short time by removing the abnormality of the signal processing unit 8.
[0023]
FIG. 2 is a flowchart showing a first determination procedure in the communication apparatus 1 according to the present embodiment, and is a flowchart showing a flow of a series of processes of the control unit 9. In step a0, this flowchart is started, and the process proceeds to step a1. In step a1, the control unit 9 determines whether or not an adjustment command for instructing adjustment of the communication form is given from the signal processing unit 8. In other words, the control unit 9 determines whether or not there is a press talk (Press To Talk abbreviation: PTT) which is a command for transmitting an adjustment command from the signal processing unit 8. If there is an adjustment command PTT from the signal processing unit 8, the process proceeds to step a6. If there is no adjustment command PTT, the process proceeds to step a2.
[0024]
In step a2, the controller 9 increases the time i by 1 and proceeds to step a3. The time i is a value based on the time when there is no adjustment command PTT from the signal processing unit 8 to the control unit 9. In step a3, the control unit 9 determines whether or not the time i is equal to the second period X. If the time i is equal to the second period, the process proceeds to step a4. If the time i is different from the second period, the process proceeds to step a5. The second period X is a value based on a period longer than the first period, for example, about 60 seconds.
[0025]
In step a5, as in step a1, the control unit 9 determines whether or not there is an adjustment command PTT from the signal processing unit 8. If there is an adjustment command PTT from the signal processing unit 8, the process proceeds to step a6. If there is no adjustment command PTT, the process returns to step a2. In step a4, the control unit 9 controls the operation unit 7 to issue an alarm, and proceeds to step a7. In step a6, the initial value 0 is substituted for time i, and the process proceeds to step a7. In step a7, this flowchart ends.
[0026]
Thus, in the first determination procedure, when the adjustment command is not given from the signal processing unit 8 over the second period larger than the first period, it is determined that the signal processing unit 8 is abnormal. Since the signal processing unit 8 gives an adjustment command to the control unit 9 every first period, there is a possibility that some abnormality has occurred when the adjustment command is not given from the signal processing unit 8 over the second period. Therefore, when no adjustment command is given from the signal processing unit 8 over the second period, the control unit 9 determines that the signal processing unit 8 is abnormal. Thus, the operator can recognize the abnormality of the signal processing unit 8.
[0027]
FIG. 3 is a flowchart showing a second determination procedure in the communication apparatus 1, and is a flowchart showing a flow of a series of processes of the control unit 9. In step b0, this flowchart is started, and the process proceeds to step b1. In step b1, the control unit 9 determines whether or not there is a PTT which is a command for transmitting an adjustment command from the signal processing unit 8. If there is an adjustment command PTT from the signal processing unit 8, the process proceeds to step b2, and if there is no adjustment command PTT, the process proceeds to step b6.
[0028]
In step b2, the control unit 9 increases the time j by 1 and proceeds to step b3. The time j is a value based on the time during which the adjustment command PTT continues from the signal processing unit 8 to the control unit 9. In step b3, the control unit 9 determines whether or not the time j is equal to the third period Y. If the time j is equal to the third period, the process proceeds to step b4. If the time j is different from the third period, the process proceeds to step b5.
[0029]
In step b5, as in step b1, the control unit 9 determines whether or not there is an adjustment command PTT from the signal processing unit 8. If there is an adjustment command PTT from the signal processing unit 8, the process returns to step b2, and if there is no adjustment command PTT, the process proceeds to step b6. In step b4, the control unit 9 controls the operation unit 7 to issue an alarm, and proceeds to step b7. In step b6, the initial value 0 is substituted for time j, and the process proceeds to step b7. In step b7, this flowchart is terminated.
[0030]
Thus, in the second determination procedure, when the adjustment command is continuously given from the signal processing unit 8 over a predetermined third period, it is determined that the signal processing unit 8 is abnormal. Since the period during which the adjustment command is continuously given from the signal processing unit 8 is a short period, there is a possibility that some abnormality has occurred in the signal processing unit 8 if it is a long period. Therefore, when the adjustment command is continuously given over a predetermined third period, for example, about 60 seconds, it is determined that the signal processing unit 8 is abnormal. Thus, the operator can recognize the abnormality of the signal processing unit 8.
[0031]
FIG. 4 is a flowchart showing a third determination procedure in the communication device 1, and is a flowchart showing a flow of a series of processes of the control unit 9. In step c0, this flowchart is started, and the process proceeds to step c1. In step c1, the receiving means 6 receives reset information, for example, data code information, and proceeds to step c2. When receiving the reset information, the receiver 12 gives a reception notification indicating that it has been received to the control unit 9.
[0032]
In step c2, the control unit 9 determines whether or not there is an adjustment command based on the reset information received from the signal processing unit 8, for example, a PTT that is a command for transmitting reply information. When there is an adjustment command PTT from the signal processing unit 8, the process proceeds to step c7, and when there is no adjustment command PTT, the process proceeds to step c3.
[0033]
In step c3, the control unit 9 increases the time k by 1, and proceeds to step c4. The time k is a value based on the time when there is no PTT of the adjustment command from the signal processing unit 8 to the control unit 9. In step c4, the controller 9 determines whether or not the time k is equal to the fourth period Z. When the time k is equal to the fourth period Z, the process proceeds to step c5, and when the time k is different from the fourth period Z, the process proceeds to step c6.
[0034]
In step c6, as in step c2, the control unit 9 determines whether there is an adjustment command PTT from the signal processing unit 8. When there is an adjustment command PTT from the signal processing unit 8, the process proceeds to step c7, and when there is no adjustment command PTT, the process returns to step c3. In step c5, the control unit 9 controls the operation unit 7 to issue an alarm, and proceeds to step c8. In step c7, an initial value 0 is substituted for time k, and the process proceeds to step c7. In step c7, this flowchart is terminated.
[0035]
As described above, in the third determination procedure, when the reset information is received by the receiver 12, a reception notification is given from the receiver 12 to the control unit 9, and when a command shortage occurs when this reception notification is given. The signal processing unit 8 is determined to be abnormal. In other words, the control unit 9 determines that the signal processing unit 8 is abnormal when the adjustment instruction is not given from the signal processing unit 8 for a fourth period, for example, about 30 seconds after the reception notification is given from the receiver 12. judge. The host terminal 4 generates an adjustment command based on the reset information received by the receiver 12 and gives it to the signal processing unit 8. Therefore, when reset information is received by the receiver 12, if the adjustment command based on the reset information is not given to the control unit 9, there is a possibility that some abnormality has occurred in the signal processing unit 8. Therefore, when the command shortage occurs, it is determined that the signal processing unit 8 is abnormal. Thus, the operator can recognize the abnormality of the signal processing unit 8.
[0036]
FIG. 5 is a flowchart showing a fourth determination procedure in the communication apparatus 1, and is a flowchart showing a flow of a series of processes of the control unit 9. In step d0, this flowchart is started, and the process proceeds to step d1. In step d1, the control unit 9 starts timing and proceeds to step d2. In step d2, the receiving means 6 receives reset information, for example, data code information, and proceeds to step d3. When receiving the reset information, the receiver 12 gives a reception notification indicating that it has been received to the control unit 9.
[0037]
In step d3, the control unit 9 substitutes an initial value 0 for time k. Proceed to step d4. In step d4, the control unit 9 determines whether or not there is an adjustment command based on the reset information received from the signal processing unit 8, for example, a PTT that is a command for transmitting reply information. If there is an adjustment command PTT from the signal processing unit 8, the process returns to step d2, and if there is no adjustment command PTT, the process proceeds to step d5.
[0038]
In step d5, the control unit 9 increases the time k by 1, and proceeds to step d6. The time k is a value based on the time when there is no PTT of the adjustment command from the signal processing unit 8 to the control unit 9. In step d6, the control unit 9 determines whether or not the time k is equal to the fourth period Z. When the time k is equal to the fourth period Z, the process proceeds to step d7, and when the time k is different from the fourth period Z, the process proceeds to step d8.
[0039]
In step d8, as in step d4, the control unit 9 determines whether there is an adjustment command PTT from the signal processing unit 8. If there is an adjustment command PTT from the signal processing unit 8, the process returns to step d2. If there is no adjustment command PTT, the process returns to step d5.
[0040]
In step d7, the controller 9 increments the number m by 1 and proceeds to step d9. The number of times m is a value based on the number of times that a command shortage has occurred. In step d9, the control unit 9 determines whether or not the number m is equal to the set number W. If the number m is equal to the set number W, the process proceeds to step d10. If the number m is different from the set number W, the process returns to step d2.
[0041]
In step d10, the control unit 9 compares the magnitude relationship between the time t and the set time T. If the time t is greater than the set time T, the process proceeds to step d12. If the time t is not greater than the set time T, the process proceeds to step d11. In step d11, the control unit 9 controls the operation unit 7 to issue an alarm, and proceeds to step d13. In step d12, an initial value 0 is substituted for time m, and the process proceeds to step d13. In step d13, this flowchart is terminated.
[0042]
As described above, in the fourth determination procedure, the signal processing unit 8 determines that the signal processing unit 8 is abnormal when a predetermined set number W of commands is insufficient. As a result, when a shortage of commands occurs temporarily due to some abnormality in the signal processing unit 8, it is not determined that the abnormality is occurring. When the command shortage of the set number W occurs within a predetermined set time, for example, 24 hours, there is a very high possibility that an abnormality has occurred in the signal processing unit 8. Therefore, when the command shortage of the set number W occurs, it is determined that the signal processing unit 8 is abnormal, so that the operator can recognize the abnormality of the signal processing unit 8.
[0043]
In this embodiment, the abnormality of the signal processing unit 8 is detected, but the abnormality of the host terminal may be detected by the same method.
[0044]
Moreover, in this Embodiment, abnormality of the signal processing part 8 can be detected based on the communication state of the communication apparatus 1 and another communication apparatus. Therefore, it is not necessary to perform a special operation for detecting an abnormality, and convenience can be improved. Moreover, the presence or absence of abnormality can be determined using the first to third determination procedures or the first, second, and fourth determination procedures simultaneously. Thereby, the abnormality of the signal processing unit 8 can be detected more reliably. Moreover, the communication apparatus 1 of this Embodiment is realizable by incorporating the determination program in the control part 9, without changing a structure largely with the communication apparatus of a prior art. Therefore, the communication device 1 of the present embodiment can be easily realized.
[0045]
In addition, the host terminal 4 is configured to change the form of notifying the operator depending on whether the communication device 1 is abnormal or when the control unit 9 determines that the signal processing unit 8 is abnormal. Also good. Thus, the operator can recognize whether the signal processing unit 8 is abnormal or whether the remaining part excluding the signal processing unit 8 is abnormal.
[0046]
【The invention's effect】
As described above, according to the present invention, the operator can recognize that there is an abnormality in the command means. Therefore, the operator can repair the communication device in a short time by removing the abnormality of the command means.
[0047]
According to the present invention, when the adjustment command is not given from the command means over the second period, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0048]
According to the invention, when the adjustment command is continuously given over the third period, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0049]
According to the present invention, when the command shortage occurs, it is determined that the command means is abnormal. As a result, the operator can recognize the abnormality of the command means.
[0050]
Further, according to the present invention, when the set number of commands is insufficient, it is determined that the command means is abnormal, so that the operator can recognize the abnormality of the command means.
Further, according to the present invention, when there is an abnormality in the command means, the operator can repair the communication device in a short time by removing the abnormality in the command means.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a communication apparatus 1 according to an embodiment of the present invention.
FIG. 2 is a flowchart showing a first determination procedure in the communication apparatus 1 according to the present embodiment, and is a flowchart showing a flow of a series of processes of a control unit 9;
FIG. 3 is a flowchart showing a first determination procedure in the communication apparatus 1 of the present embodiment, and is a flowchart showing a flow of a series of processes of a control unit 9;
4 is a flowchart showing a first determination procedure in the communication apparatus 1 according to the present embodiment, and is a flowchart showing a flow of a series of processes of the control unit 9. FIG.
FIG. 5 is a flowchart showing a first determination procedure in the communication apparatus 1 according to the present embodiment, and is a flowchart showing a flow of a series of processes of the control unit 9;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Communication apparatus 3 Console 4 Host terminal 5 Transmission means 6 Reception means 7 Operation part 8 Signal processing part 9 Control part

Claims (6)

In a communication device that communicates with another communication device in a communication mode according to the relative relationship with the other communication device,
Transmitting means for transmitting a group of information including preset main information and reset information for adjusting the communication mode;
Receiving means for receiving the information group;
Input / output means for inputting / outputting main information;
An adjustment command generating means for generating an adjustment command for instructing adjustment of the communication form for each predetermined first period ;
Command means for transferring reset information received by the receiving means to the adjustment command generating means ;
Control means for controlling the transmission means to transmit the main information input by the input / output means, and for controlling the input / output means to output the main information received by the reception means ,
The adjustment command generation unit further generates an adjustment command based on the reset information from the command unit, sends the generated adjustment command to the command unit,
The command means transfers the adjustment command from the adjustment command generation means to the control means,
The control means adjusts the communication mode based on the adjustment command from the command means and controls the transmission means to transmit the reset information, and whether the command means is abnormal based on the adjustment command from the command means. or determines, when determined to be abnormal, the communication device comprising a benzalkonium control the output means to emit an alarm.   2. The communication apparatus according to claim 1, wherein the control unit determines that the command unit is abnormal when the adjustment command is not given from the command unit over a second period larger than the first period.   3. The communication apparatus according to claim 1, wherein the control unit determines that the command unit is abnormal when an adjustment command is continuously given from the command unit over a predetermined third period.   When the reset information is received by the receiving means, the control means is given a reception notification from the receiving means, and when there is a command shortage in which an adjustment command is not given from the command means when this reception notification is given, The communication apparatus according to claim 1, wherein the means is determined to be abnormal.   5. The communication apparatus according to claim 4, wherein the control unit determines that the command unit is abnormal when a predetermined set number of commands are insufficient. In a communication device that communicates with another communication device in a communication mode according to the relative relationship with the other communication device,
Transmitting means for transmitting a group of information including reset information for adjusting a predetermined communication form;
Receiving means for receiving the information group;
An adjustment command generating means for generating an adjustment command for instructing adjustment of the communication form for each predetermined first period ;
Command means for transferring reset information received by the receiving means to the adjustment command generating means ;
Control means,
The adjustment command generation unit further generates an adjustment command based on the reset information from the command unit, sends the generated adjustment command to the command unit,
The command means transfers the adjustment command from the adjustment command generation means to the control means,
The control means adjusts the communication mode based on the adjustment command from the command means and controls the transmission means so as to transmit the reset information to another communication device. Based on the adjustment command from the command means, the command means communication device comprising a benzalkonium be determined whether or not abnormal.

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