JP2807771B2 - Wireless telephone system and wireless communication device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio telephone system and a radio communication device, and more particularly to a radio telephone system and a radio communication device of a multi-channel access radio connection system.

[0002]

2. Description of the Related Art Conventionally, a mobile station having a radio transmitting / receiving section;
A wireless transmission / reception unit for transmitting / receiving an information signal to / from the wireless transmission / reception unit of the mobile device, and a plurality of communication channels connected to a telephone line and transmitting / receiving the information signal to / from the transmission / reception unit of the mobile device. Select an empty channel from
A fixed device of a multi-channel access wireless connection system for transmitting data on the selected empty channel via a control channel, and a transmission / reception unit of the fixed device and transmission / reception of the mobile device by an algorithm stored in the fixed device. 2. Description of the Related Art A wireless telephone system for accessing a communication channel connected to a communication unit is known.

In such a radio telephone system, an algorithm stored in the fixed device for allocating a communication channel for connecting between a transmitting / receiving unit of the fixed device and a transmitting / receiving unit of the mobile device is provided at the time of the allocation. The communication channel is allocated by determining whether or not the communication channel is free. That is, whether or not to allocate the communication channel is determined only by determining whether or not the communication channel is free, and what the past connection history of the communication channel is is completely different. Was not taken into account.

[0004] Therefore, when a call is made using an empty communication channel specified by the control channel, connection (establishment) of the communication channel fails due to noise, hardware failure, or environmental conditions at the installation location of the hardware. ,
The connection operation was cut off, another vacant communication channel was searched for, and the control channel connection was restarted based on the search. At this time, the selection of the communication channel by starting over from the connection of the control channel is performed according to the algorithm determined from the beginning of the system design, and does not take into account the connection history of the communication channel after the system is installed.

[0005] For this reason, communication channels that are clearly considered to be unreachable due to the installation conditions of each system,
There is a possibility that a noisy communication channel whose connection has failed previously may be re-assigned.

Further, the selection algorithm cannot cope with a system-specific environment when the system is installed or a change in the installation environment after the system is installed.

Further, in the conventional algorithm, when connection is not possible after several retries in response to connection failure of a communication channel, another free communication channel is allocated and a similar connection attempt is performed. I was doing.

Conventionally, in order to avoid intermodulation between wireless telephone systems, allocation of a communication channel having a frequency such as an odd-numbered harmonic has been prohibited. However, in any case, since the algorithm predicted from the beginning of the system design is programmed in advance, the information after the operation of the system is completely irrelevant.

Furthermore, the situation peculiar to the system at the time of installation of the system is not reflected. For this reason, a system that stops accessing the communication channel for a known reason, that is, a frequency that cannot be communicated without conducting a test or operation of the communication channel connection at the investigation stage before the system is activated. A system has been proposed in which the installer inputs a channel to be prohibited as installation data when the system is installed when the information is known.

[0010]

As in the prior art described above, when the environment specific to the system at the time of system installation and the environment unique to the system at the time of system installation or the installation environment after the system installation changes, the change cannot be made. When assigning communication channels according to a possible algorithm, certain communication channels cannot always be connected due to changes in the environment specific to the system at the time of system installation or changes in the installation environment after system installation. The problem is that during a certain period of time, a certain communication channel may have a poor S / N ratio, deteriorate the communication quality, or become unreachable due to the use of equipment unrelated to the telephone system. On the other hand, it is not possible to perform the most appropriate action, that is, to make the communication channel unavailable and not to perform the assignment in the time zone. Therefore, by repeating unnecessary access for connecting a communication channel, there is a problem in communication quality such as lowering the efficiency of system operation and causing a communication under a communication channel having a very bad S / N ratio. Had occurred.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and a first object of the present invention is to improve system operation efficiency and communication quality by useless access for connection of a communication channel. Another object of the present invention is to provide a wireless telephone system capable of automatically responding to environmental changes after system installation.

A second object of the present invention is to provide a radio telephone system which can use the resources of the system, that is, the communication channel without waste.

[0013] Further, the third object of the present invention, either the number of times the channel is continuously determined unsuitable for wireless communication reaches a predetermined value, the integrated value of the number of times it is judged unsuitable for wireless communication It is an object of the present invention to provide a wireless communication device capable of releasing access at an appropriate time depending on whether or not reaches a predetermined value.

[0014]

Radio telephone system according to the first aspect of the present invention for achieving the above Symbol first object, according to an aspect of includes a mobile device having a radio transceiver, the radio transceiver of the mobile station A wireless transmission / reception unit for transmitting / receiving an information signal to / from the mobile station, and selecting an empty channel from a plurality of communication channels when transmitting / receiving an information signal to / from the transmission / reception unit of the mobile device; A fixed device of a multi-channel access wireless connection system for transmitting data on the empty channel via a control channel, and a transmitting / receiving unit of the fixed device and a transmitting / receiving unit of the mobile device, with an algorithm stored in the fixed device. in a wireless telephone system for access communication channel that connects the front <br/> Symbol algorithm, a transceiver of the mobile station and the transceiver unit of the fixed unit When the number of consecutive connection failure count between is higher than the predetermined set number of times, and is characterized in that it has to stop the access of the said communication channel.

[0015] In addition, the present onset in order to achieve the first object
A wireless telephone system according to claim 2,
Between the mobile device having a wireless transmission and reception unit of the mobile device
Telephone having a wireless transmitting and receiving unit for transmitting and receiving information signals
Information connected to the line and with the transceiver of the mobile device
When transmitting or receiving signals, empty among multiple communication channels
Channels are selected and data on the selected empty channels is
Multi-channel device that sends data over the control channel.
And a wireless connection type fixed machine.
The transmitting and receiving unit of the fixed machine and the
Activate the call channel that connects to the transceiver of the mobile device.
A wireless telephone system for accessing
The transmission / reception unit of the fixed device and the transmission / reception unit of the mobile device
The total number of connection failures between
When the access to the communication channel is stopped,
It is characterized by having made it.

In order to achieve the first object, the present invention
The wireless telephone system according to the third aspect of the present invention is the second aspect of the present invention.
In the wireless telephone system of
The connection between the transmission / reception unit of the fixed device and the transmission / reception unit of the mobile device.
Both the number of consecutive failures and the total number of integration failures are preset
If the number is equal to or greater than the number of times,
Is stopped .

In order to achieve the second object, the present invention
The wireless telephone system according to claim 4 is a wireless telephone system.
Information between a mobile device having a communication unit and a transmission / reception unit of the mobile device.
Telephone having a wireless transmission / reception unit for transmitting / receiving a notification signal
Information connected to the line and with the transceiver of the mobile device
When transmitting or receiving signals, empty among multiple communication channels
Channels are selected and data on the selected empty channels is
Multi-channel device that sends data over the control channel.
And a wireless connection type fixed machine.
The transmitting and receiving unit of the fixed machine and the
Activate the call channel that connects to the transceiver of the mobile device.
A wireless telephone system for accessing
Is caused by noise that changes over time.
To suspend access to the call channel for which the
So that it will be released after a predetermined set time has elapsed since the stop
It is characterized by having done .

[0018] Further, the the present invention for achieving the third object
6. A wireless communication device according to claim 5, wherein the wireless communication device performs wireless communication via any one of a plurality of channels. If the integrated value of the number of times one of the channels is determined to be inappropriate for wireless communication exceeds the first threshold, access to that channel is prohibited, and if one of the plurality of channels is Prohibiting means for prohibiting access to the channel when the number of times determined to exceed the second threshold value, wherein the prohibiting means calculates the integrated value of the number of times determined to be inappropriate for wireless communication. When the first time elapses after exceeding one threshold, the prohibition of access to the channel is released, and the number of times continuously determined to be inappropriate for wireless communication exceeds the second threshold. A second time has passed since It releases the prohibition of access of the channel, wherein the first time, is characterized in that longer than the second time.

[0019]

First, in the wireless telephone system according to the first aspect, the number of continuous connection failures of the communication channel connecting the transmission / reception unit of the fixed unit and the transmission / reception unit of the mobile unit is equal to or greater than a predetermined number.
At this time, access to the communication channel stops. That is,
By notifying the mobile device of the communication channel whose access is to be stopped according to the number of connection failures of the communication channel, the mobile device determines that the mobile device does not access the connection of the communication channel, and the fixed device allocates the communication channel. Has the same effect as stopping. This eliminates waste time due to unnecessary access for connection of the communication channel, and avoids the use of a poor quality wireless communication channel.

[0020]

In the wireless telephone system according to the second aspect, when the number of times of connection failure exceeds a predetermined number, access to the communication channel is stopped.

In the wireless telephone system according to a third aspect of the present invention, the access to the communication channel is stopped when both the number of consecutive times of connection failure and the number of times of integration exceed a predetermined number of times.

According to a fourth aspect of the present invention, when the access to the communication channel by the algorithm is stopped due to noise that changes with time,
When a predetermined time, that is, a time during which the noise is generated elapses from the stop, the access stop of the communication channel is released. As a result, the use of the communication channel can be optimally managed, and the communication channel, which is a resource of the system, can be used without waste.

[0024]

[0025]

[0026]

[0027] Further, the wireless communication apparatus according to claim 5, in response to a detection of the detecting means for detecting the state of a plurality of channels, inhibiting means, one of the plurality of channels is determined unsuitable for wireless communication If the integrated value of the number exceeds the first threshold, access to the channel is prohibited, and the number of times that one of the plurality of channels is continuously determined to be inappropriate for wireless communication exceeds the second threshold And ban access to that channel,
When the first time elapses after the integrated value of the number of times determined to be unsuitable for wireless communication exceeds the first threshold value, the prohibition of access to the channel is released, and it is continuously determined that the channel is unsuitable for wireless communication. When the second time shorter than the first time elapses after the number of times determined to exceed the second threshold value, the prohibition of access to the channel is released.

[0028]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram of a wireless telephone system according to a first embodiment of the present invention. This system is a key telephone system to which a cordless telephone is connected. (e.g., six) mobile unit and a (cordless telephone) 2 _{1, 2} 2, 2 _3, 2 _4, 2 _5, 2 _6. The fixed machine 1 has one main unit 3 and a plurality of units (for example, 2 units).
) Base unit (cordless telephone wireless terminal) 4 ₁ ,
4 _2, telephone 5 _1, 5 ₂ of a plurality (e.g., three),
5 ₃ The main device 3 has an exchange function and a storage function (storage means) for storing management data required for access management. The main unit 3 includes a general subscriber line,
PBX telephone line 6 such as a (private branch exchange) extension, the base unit 4 _1,
4 _2, and dedicated telephone 5 ₁ to 5 ₃ are connected. Base unit 4 _1, 4 ₂ are connected with the mobile station 2 ₁ to 2 ₆ wirelessly.

FIG. 2 shows the configuration of the base units 4 ₁ and 4 ₂ which are cordless telephone wireless terminals. In FIG.
Is a speech network connected to the main unit of the fixed machine 1 via the connection line 8, and a line interface unit including a dialer. The line interface unit 7 is connected to a wireless circuit unit (transmitter / receiver) 10 having a transmitting unit 10a and a receiving unit 10b via an audio processing circuit 9 including a limiter and a compander. A control unit 11 is connected to the wireless circuit unit 10, and a modem 12,
An ID / ROM 13 storing an ID (identification code) and the line interface unit 7 are connected to each other. The modem 12 is connected to the audio processing circuit 9. In FIG. 2, reference numeral 14 denotes a power supply unit for supplying power to each unit,
Reference numeral 15 denotes an antenna for transmitting and receiving a radio signal.

The line interface unit 7, the audio processing circuit 9, and the wireless line unit 10 are controlled by the control unit 11. The control data is input and output between the audio processing circuit 9 and the control unit 11 via the modem 12. Also, ID
The ID stored in the ROM 13 is read by the control unit 11. The power supply unit 14 has a commercial AC voltage 10
0V is supplied.

[0032] showing a configuration of a mobile station 2 ₁ to 2 ₆ is a cordless telephone set in Fig. In the figure, reference numeral 16 denotes a receiver,
Reference numeral 17 denotes a transmitter, and these receiver 16 and transmitter 17
Is an audio processing circuit 18 including a limiter and a compander.
Is connected to a wireless circuit unit (transmission / reception unit) 19 having a transmission unit 19a and a reception unit 19b. A control unit 20 is connected to the radio circuit unit 19, and the control unit 20 includes a modem 21, an ID ROM storing an ID (identification code).
22 and a keyboard 23 are connected to each other.
The modem 21 is connected to the audio processing circuit 18. In FIG. 2, reference numeral 24 denotes a power supply unit that supplies power to each unit, and 25 denotes an antenna that transmits and receives wireless signals.

Then, the audio processing circuit 18 and the radio circuit unit 1
9 is controlled by the control unit 20. Information from the keypad 23 is input to the control unit 20. The control data is input and output between the audio processing circuit 18 and the control unit 20 via the modem 21. The ID stored in the ID / ROM 22 is read by the control unit 20. The power supply unit 24 is supplied with a battery voltage.

Next, a radio telephone connection control procedure according to the multi-channel access method in the radio telephone system of the present invention will be described with reference to FIGS. In this multi-channel access method, two control channels and 87 communication channels are provided. This control is performed under the control of the main unit 3 in FIG. 1 to operate the master units 4 ₁ and 4 ₂ .

FIGS. 4 and 5 are flow charts showing the control procedure. In FIG. 4, in step 1, it is determined whether or not the communication channel access permission table as shown in FIG. Determine whether to use. This call channel access permission table is input to a storage medium such as a RAM or a floppy disk, and can be rewritten during system operation. As a result, it is possible to control the unique channel assignment according to the dynamic installation environment of the system. As shown in FIG. 6, the communication channel access permission table is filled with a communication channel number, an integrated number of connection failure times and a continuous number, and an access permission threshold value.

If it is determined in step 1 that the communication channel access permission table has been set, that is, if it is determined that the communication channel access permission table is to be used, the flow advances to step 2 to initialize the communication channel access permission table. That is, in the present embodiment, the integrated frequency term and the continuous frequency term of the number of connection failures are each set to 0, and then the access permission threshold in the communication channel access permission table is set. As the setting method, a method of inputting from the outside by the system installer and various other methods are adopted. In this embodiment, it is assumed that a predetermined default value is input. As the default value, the threshold of the number of times of integration is set to eight times, and the threshold of the number of times of continuousness is set to four times. This means that the communication channel is closed, that is, the access is stopped, when the number of times of connection failure becomes 8 or more, and when the number of consecutive times becomes 4 or more, respectively.

When it is determined in step 1 that the communication channel access permission table has not been set, and after the communication channel access permission table has been initialized in step 2,
Proceeding to step 3, the next call is assigned to the wireless communication channel assignment request of the system, and the communication channel number is set to 1. Here, the frequency indicated by the communication channel number 1 is 380.21 for the frequencies emitted by the master units 4 ₁ and 4 _2.
25 MHz, the firing frequency of the mobile station 2 ₁ to 2 ₆ 25
3.86 MHz. It is assumed that each time 12.5 kHz is added to these frequencies, the communication channel number is incremented by one.

In this embodiment, for simplicity of description in FIG. 6, the communication channel numbers are assigned from 1 to 87 in order of lower frequency, but this is not essential.

Next, proceeding to step 4, a communication channel number to be allocated to the next communication event is set (allocated). Next, in step 5, an instruction is issued to make _one of the master units 4 ₁ and 4 ₂ check whether or not the communication channel is free. In step 6, it is determined whether or not the communication channel is free. I do. If the result of the determination is that the call channel is in use, the process proceeds to step 7 and the call channel number is incremented by one.
It is determined whether or not the call channel number exceeds the upper limit “87” of the call channel number permitted in the low power cordless telephone. If it is over, go back to step 3; if it is not over,
Return to step 4.

On the other hand, if it is determined in step 6 that the call channel to be allocated to the next call event is free, the process proceeds to step 9 where the control program of the main unit 3 of the fixed machine 1 shown in FIG. It is determined whether or not a communication channel access permission table written in a storage medium such as a RAM or a floppy disk is set. If the call channel access permission table is set, the process proceeds to step 10 to determine whether the call channel can be set.
That is, it is determined whether or not access is possible. In step 10, the past connection history of the communication channel can be known by examining the numerical values of the cumulative number of connection failures and the continuous number of times in the communication channel access permission table. Further, by comparing with a preset threshold value, it can be determined whether or not the communication channel is usable. That is, as shown in FIG. 6, when the communication channel access permission table is input to a predetermined storage medium, it is determined in step 10 whether the communication channel of the number set in step 4 can be used according to the permission table. It is to determine.

In the example shown in FIG. 6, the communication channel numbers 4 and 5 are closed by the total number of connection failures, and the communication channel numbers 1 and 4 are closed by the continuous number.

If it is determined in step 10 that the call channel cannot be accessed,
Proceed to step 7. When it is determined in step 9 that the communication channel access permission table is not set, and when it is determined in step 10 that the communication channel can be accessed, the process proceeds to step 11. Then, it is determined whether there is a request event to which the call channel is assigned. If there is no request event, step 11 is executed until there is.

When there is a request event, in step 12 the request destination master units 4 ₁ and 4 ₂ are notified of the communication channel number, and based on the numbers, the master units 4 ₁ and 4 ₂ communicate with the child units. the mobile station 2 ₁ to 2 ₆ to start the communication path connecting a machine (step 13). Then, the process proceeds to a step 14, wherein it is determined whether or not a communication channel access permission table is set. If it is determined in step 14 that the communication channel access permission table is not set, that is, if the access of the communication channel is not performed based on the communication channel access permission table, the process proceeds to step 7. This is because the communication channel for the next communication event is uniquely determined regardless of whether the connection of the communication path is successful or not.

If it is determined in step 14 that the communication channel access permission table is set, that is, if access to the communication channel is restricted based on the communication channel access permission table, the next step 15 is executed. Proceed to
It is determined whether or not the connection of the communication channel is successful.
If the connection is successful, the flow proceeds to step 7 after setting the number of consecutive connection failures in the traffic channel access permission table for the traffic channel to 0 in step 17.

If the connection has failed, step 16
Then, after setting both the number of continuous connection failures and the number of integration times of the number of connection failures in the pertinent traffic channel access permission table of the pertinent traffic channel to +1, the process returns to step 7.

As described above, in this embodiment, a part of the existing communication channel allocation algorithm is determined by determining the threshold of use permission according to the installation environment at the time of system installation. Can be set without the intervention of human operation.

As another embodiment incorporating the concept of the present invention, there is also a method of taking into account not only the number of connection failures but also the success in the algorithm for determining the speech channel access permission. .

Next, a wireless telephone connection control procedure according to the multi-channel system in the wireless telephone system according to the second embodiment of the present invention will be described with reference to FIGS.

In the second embodiment, the same parts as those in the first embodiment will be described by attaching the same reference numerals to the drawings. In the second embodiment, as shown in FIG.
Steps 18 to 21 are added to the flowchart of the embodiment, and the access stop time, the access stop release elapsed time, and the current time are additionally written in the communication channel access permission table of the first embodiment as shown in FIG. This is different from the first embodiment. In the initialization of the communication channel access permission table in step 2, in this embodiment, the integrated number term, the continuous number term, and the access stop time of the number of connection failures in FIG. When the access stop time is 00:00:00, it indicates that the access to the communication channel is not stopped.

Next, the threshold value of the access permission in the permission table is set, and the access stop release elapsed time is set. As a method of this setting, a method of inputting from the outside by the system installer and various other methods are adopted. In the present embodiment, it is assumed that a predetermined default value is input. Here, the default value is eight times as the number of accumulations, 24 hours as the elapsed time of canceling the access stop by the accumulation, four times as the number of consecutive times, and 6 hours as the elapsed time of the cancellation of the continuous access stop.

This means that the total number of connection failures is 8
If the number of times is equal to or more than the number of times, the communication channel is closed, that is, the access is stopped, and this means that the stop is released 24 hours after the stop. Similarly, if the connection failure occurs four times in a row, access to the communication channel is stopped, and if six hours have elapsed since the stop, the stop is released.

The difference between the elapsed time of the access stop release elapsed time based on the total number of times and the elapsed time of the access stop release elapsed time based on the continuous number of times differs depending on the installation status and environment of the system.
In general, access stop due to integration often depends on the basic installation environment, and access stop in the case of continuous access is bursty due to a specific failure.

The current time is not set in the table of FIG. 9, but may be somewhere in the entire system, and is included in the communication channel access permission table for convenience of explanation. This is necessary in order to determine the access suspension release elapsed time by comparing with the access suspension time.

In FIGS. 7 and 8, steps 1 to 17 are the same as those in the first embodiment described above, so that the description thereof will be omitted, and steps 18 to 21 will be described.

If it is determined in step 10 that the communication channel cannot be accessed, that is, although the communication channel is an empty channel, access is not permitted by the communication channel access permission table. In this case, the process proceeds to step 18. In this step 18, it is determined whether or not the access stop time in the communication channel access permission table is 00:00:00. When the access stop time is 00:00:00, it indicates that this access has been stopped for the first time.
In, it is determined that the access has been stopped for the first time by judging the number of times of integration and the number of continuous times of the number of connection failures.
In this case, the process proceeds to the next step 19, where the current time is written in the access stop time column of the communication channel access permission table, and then the process proceeds to step 20.

On the other hand, if it is determined in step 18 that the access stop time is not 00:00:00,
In step 19, the access stop time is written in the access stop time column of the communication channel access permission table.
Go to step 20 without executing. In this step 20, the current time of the system is compared with the access stop time, and it is further determined whether the cause is due to the number of times of integration or the number of continuous times. It is determined whether or not has elapsed. If the time to release the access suspension has not elapsed, the process proceeds to step 7. If the time to be released has elapsed, the process proceeds to the next step 21. After setting the access stop time, the number of integration times, and the number of continuous times of the communication channel to 0 in this step 21, the process proceeds to step 11.

Here, when the time to release the access suspension has elapsed, the access suspension release elapsed time may be based on the total number of connection failures, the continuous number of times, or the like. Depending on various factors, various methods such as initializing them, that is, leaving the number of integration times at 0 instead of setting them to 0, and setting only the number of continuous times to 0 are advantageous in terms of system operation. It is arbitrarily conceivable.

As described above, in the second embodiment, the operation of the system is made more efficient by suspending access to the communication channel according to the environment after the system is installed.
By resuming the suspension of the communication channel after the elapse of a predetermined time, it is possible to eliminate disturbance or the like due to the influence of a periodic noise source which is normally considered.

Next, a third embodiment of the present invention will be described with reference to FIGS. In the third embodiment, the same parts as those in the first embodiment described above will be described by attaching the same reference numerals to the drawings. This third embodiment is, as shown in FIG. 10, connected to the main unit 3 of the fixed machine 1 of the first embodiment to manage data, that is, the reason for stopping access to the communication channel,
And a display (display means) 26 for displaying the ratio of the number of access-stopped communication channels to the total number of communication channels, and the like, as shown in FIG. 11 and FIG. As shown in FIG. 13, the point that Steps 18 to 23 have been added by deleting Step 14 and FIG.
The point is that the access stop time and the current time are additionally entered in the communication channel access permission table of the first embodiment.

The display 26 is a CRT display or LC
Any means such as a display such as a D display, a recording output by a printer or a facsimile, an output by voice, etc. may be adopted. In short, as long as it can recognize information by appealing to human perception, Anything is acceptable.

The display 26 of this embodiment is composed of a CRT display. Further, the display 26 is not limited to the one directly connected to the main device 3, and may be configured to output from a terminal located at a remote place from the main device 3. It may be configured to transmit to a facsimile and output.

In step 2, when the system is installed, the communication channel access permission table as shown in FIG. 13 stored in the storage unit of the main unit 3 of the fixed machine 1 in FIG. 10 and the communication of the system as shown in FIG. A table in which a threshold for outputting data of the reason for stopping the communication channel access that determines whether or not to output the management data to the display 26 according to the status of the use of the channel and the status, that is, in this embodiment,
Initialize the stopped call channel ratio table as shown in FIG.

In this embodiment, the integrated number of connection failures, the continuous number, and the access stop time are set to 0 in FIG. When the access stop time is 00:00:00, it means that the communication channel has not been stopped.

Next, an access permission threshold in the communication channel access permission table is set. Here, as in the first embodiment, this default value is eight times as the number of times of integration and four times as the number of continuous times.

Similarly, in FIG. 14, the number of access-stopped communication channels is 0, and the ratio of the number of access-stopped communication channels to the total number of communication channels is 0. In addition, it writes the total number of traffic channels available to the system. This number is usually fixed, and in this embodiment is the upper limit "87" of the communication channel number permitted in the low power cordless telephone.

Further, an output threshold of a communication channel access permission table for outputting these management data to the display 26 is set. Although this threshold is a trigger for outputting data of the reason for stopping the access of the communication channel, in the present embodiment, the default value given at the time of design inside the system is the number of the access stop number of communication channels with respect to the total number of communication channels. It is set as a case where the ratio becomes 50% or more. However, the threshold value is not limited to the ratio of the number of access-stopped communication channels to the total number of channels, and can be set even when the number of stopped channels exceeds a certain number.

In this embodiment, a trigger for outputting data of the reason for stopping the assignment of the communication channel is provided in the system so that the trigger can be automatically determined. is not limited only to those of the system inside the threshold as base unit 4 ₁ of FIG. 10 system administrator or the like as needed, 4 _2, or a keyboard 23 of the mobile station 2 ₁ to 2 _6, etc. There are various other ways of triggering, such as giving an instruction by an external input from the PC or outputting an instruction every certain time.

In this embodiment, a description will be given assuming that the system has a defined default value. Further, in this embodiment, the communication channel access permission table shown in FIG. 13 is considered as the reason data of the access stop of the communication channel. However, data of other formats may be considered. For example, if the intensity of noise or the like in which the assignment of the communication channel is stopped can be measured by a measuring instrument, it is conceivable to store and output it.

The current time is not set in the table of FIG. 13, but may be somewhere in the whole system. For convenience of explanation, it is included in the communication channel access permission table. This is necessary in order to determine the access suspension release elapsed time by comparing with the access suspension time.

After initialization as described above, step 3
Proceed to.

Steps 3 to 17 are the same as those in the first embodiment, so that the description thereof will be omitted, and steps 18 to 23 will be described.

If it is determined in step 10 that the communication channel cannot be accessed, that is, even if the communication channel is a free channel, access is not permitted by the communication channel access permission table. In this case, the process proceeds to step 18. This step 18
Then, it is determined whether or not the access stop time in the communication channel access permission table is 00:00:00.

When the access stop time is 00:00:00, it indicates that the current access has been stopped for the first time. In step 10, the accumulated number of connection failures and the number of consecutive connections are determined. Indicates that the access has been suspended for the first time. In this case, the next step 19
Then, the current time is written in the access stop time column of the communication channel access permission table, and then the process proceeds to step 20.

On the other hand, if it is determined in step 18 that the access stop time is not 00:00:00, the process proceeds to step 7. In step 20, the number of access-stop channels in the stop channel ratio table, which is the output management table of the call channel access permission table shown in FIG. 14, is increased by +1 and the ratio of the stop channel to the total number of channels is calculated. Rewrite the value in the stop speech channel ratio column of the speech channel ratio table.

As shown in FIG. 14, the stopped call channel ratio table describes the number of access stopped call channels, the total number of call channels, the stopped call channel ratio, and the output threshold of the call channel access permission table. .
Next, the process proceeds to step 21, where the ratio of the number of stopped channels to the total number of channels calculated in step 20 and the reason for stopping access to the communication channel according to the communication channel access permission table are output to the display 26 shown in FIG. 10 and displayed. .

Next, in step 22, it is determined whether or not the stop channel ratio has exceeded the output threshold value of the communication channel access permission table in the table of FIG. 14, and if it has, the process proceeds to step 23 and further proceeds to FIG. After outputting the table to the display 26, the process proceeds to step 7. On the other hand, if the stop channel ratio does not exceed the output threshold of the channel access permission table in step 22, the process proceeds to step 7. The display 26 in FIG. 10 continues to display data, which can be monitored by the administrator to estimate how many call channels have been suspended and what the cause is. become.

For example, by examining the table shown in FIG. 14, since the connection of the communication channel number 1 has not been successful four times before 10:05 on March 10, the communication channel has been restarted. , Although the connection possibility is weak, the call channel number 5 is noisy compared to this,
It turns out that the connection is possible. By accumulating such tables every day, the temporal change of the installation environment of the system can be understood.

In this way, based on the table output and displayed on the display 26, the administrator can know which of the closed communication channels should be restarted and when. By outputting the table of FIG. 14 to the display 26,
The communication channel access suspension rate of the system is determined, and thereby the operating efficiency of the system is determined.

[0079]

As evident from the foregoing description, according to the radio telephone system according to claim 1 of the present invention, communication of connection failure frequency of the speech channel
When the number of continuations is equal to or more than a predetermined number of times , access to the communication channel is stopped, so that use of the communication channel can be optimally managed, and the dead time due to unnecessary access for connection of the communication channel can be reduced. As a result, the operation efficiency of the system is improved, and the use of a poor quality wireless communication channel is avoided, so that the communication quality is improved.

[0080]

According to the wireless telephone system of claim 2 , when the number of times of connection failure is equal to or greater than a predetermined number, access to the communication channel is stopped. I can do it reliably.

According to the third aspect of the present invention, the access to the communication channel is stopped when both the continuous number of connection failures and the integration number are equal to or greater than a predetermined number. More reliable management of channel usage.

[0083] Further, according to the radio telephone system according to claim 4, releases the access stop the traffic channel access because noise which changes with time is stopped, after a predetermined set time has elapsed from the stop time Since the release means is provided, the use of the communication channel can be optimally managed, and as a result, the communication channel, which is a resource of the system, can be used without waste.

[0084]

[0085]

[0086] Further, according to the radio communication apparatus according to claim 5,
Appropriate release of access depending on whether the number of times the channel is determined to be inappropriate for wireless communication continuously reaches a predetermined value or the integrated value of the number of times the channel is determined to be inappropriate for wireless communication reaches a predetermined value Can be done at any time.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a wireless telephone system according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a master unit in FIG.

FIG. 3 is a block diagram of the mobile device in FIG. 1;

FIG. 4 is a flowchart showing a traffic channel assignment algorithm of the system in FIG. 1;

FIG. 5 is a flowchart showing a traffic channel assignment algorithm of the system in FIG. 1;

FIG. 6 is a table diagram of a traffic channel access permission table used in the system in FIG. 1;

FIG. 7 is a flowchart illustrating a speech channel allocation algorithm of the system according to the second embodiment of the present invention.

FIG. 8 is a flowchart showing a speech channel allocation algorithm of the system according to the second embodiment of the present invention.

FIG. 9 is a table diagram of a communication channel permission table used in the system.

FIG. 10 is a view similar to FIG. 1 of a system according to a third embodiment of the present invention.

FIG. 11 is a flowchart showing a traffic channel assignment algorithm of the system.

FIG. 12 is a flowchart showing a traffic channel assignment algorithm of the system.

FIG. 13 is a table diagram of a communication channel access permission table used in the system.

FIG. 14 is a table diagram of an access stop communication channel ratio table used in the system.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 Fixed device 2 _{1 to} 2 ₆ Mobile device 3 Main device (storage unit) 6 Telephone line 10 Wireless circuit unit (wireless transmitting / receiving unit) 19 Wireless circuit unit (wireless transmitting / receiving unit) 26 Display (display unit)

Claims (5)

(57) [Claims] 1. A mobile device having a wireless transmitting / receiving unit, a wireless transmitting / receiving unit for transmitting / receiving an information signal to / from a wireless transmitting / receiving unit of the mobile device, and connected to a telephone line and connected to a transmitting / receiving unit of the mobile device. When transmitting and receiving information signals between the plurality of communication channels to select an empty channel, comprising a fixed device of a multi-channel access wireless connection method of transmitting data on the selected empty channel via a control channel, in a wireless telephone system for access communication channel that connects between the fixed unit to the transceiver unit of the mobile station and the transceiver of the station set with the stored algorithm, before Symbol algorithm transceiver of the fixed unit When the continuous number of connection failures between the communication unit and the transmission / reception unit of the mobile device is equal to or greater than a predetermined number of times, the access to the communication channel is stopped. No <br/> line telephone system that is characterized in that so as to. 2. A mobile station having a radio transmitting / receiving section,
A radio that transmits and receives information signals to and from the radio transceiver
It has a transmitting / receiving unit and is connected to a telephone line and
When transmitting and receiving information signals to and from the
An empty channel is selected from the number of
The data on the released empty channel is transmitted via the control channel.
Of the wireless connection method for multi-channel access
With a fixed machine, with the algorithm stored in the fixed machine
Between the transceiver of the fixed device and the transceiver of the mobile device.
A wireless telephone system that accesses the call channel to be connected
In the system, the algorithm stops the access of the communication channel when the integrated number of connection failures between the transceiver of the fixed device and the transceiver of the mobile device is equal to or greater than a predetermined number of times. The wireless telephone system according to claim 1, wherein: 3. The algorithm according to claim 2, wherein when both the continuous number of connection failures and the cumulative number of connection failures between the transmission / reception unit of the fixed device and the transmission / reception unit of the mobile device are equal to or greater than a predetermined number of times, 3. The wireless telephone system according to claim 2 , wherein access to the channel is stopped. 4. A mobile station having a wireless transmission / reception unit, and a wireless transmission / reception unit for transmitting / receiving an information signal to / from the transmission / reception unit of the mobile station, and connected to a telephone line and connected to a transmission / reception unit of the mobile station. A multi-channel access wireless connection type fixed device for selecting an empty channel from among a plurality of communication channels when transmitting and receiving information signals between the plurality of communication channels and transmitting data on the selected empty channel via a control channel. A wireless telephone system for accessing a communication channel connecting a transceiver of the fixed device and a transceiver of the mobile device with an algorithm stored in the fixed device, wherein the algorithm changes over time. Release the suspension of access to the speech channel whose access has been suspended due to noise after a lapse of a predetermined time from the suspension. A wireless telephone system characterized in that: 5. A wireless communication apparatus for performing wireless communication via any one of a plurality of channels, comprising: detecting means for detecting a state of the plurality of channels; and detecting one of the plurality of channels according to the detection of the detecting means. If the integrated value of the number of times determined to be inappropriate for wireless communication exceeds the first threshold, access to the channel is prohibited, and the number of times that one of a plurality of channels is continuously determined to be inappropriate for wireless communication. Has a prohibition means for prohibiting access to the channel when exceeds a second threshold value, wherein the prohibition means calculates the integrated value of the number of times determined to be inappropriate for wireless communication by the first threshold value. When the first time elapses after exceeding the period, the prohibition of access to the channel is released, and the number of times continuously determined to be inappropriate for wireless communication exceeds the second threshold value for the second time period. Elapses, the channel Wireless communication device, wherein the first time is longer than the second time.