JP3461779B2 - Packet signal transmitter in digital wireless communication system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital radio communication system in which a frequency band is shared by a plurality of radio systems, and in particular, a CSMA / CA which shares the same frequency band with other systems transmitting pulse waves is used. The present invention relates to a packet signal transmission device in a digital wireless communication system, which is capable of performing communication without affecting other systems in the best effort communication system.

[0002]

2. Description of the Related Art In a wireless LAN, C is one of access control methods for realizing sharing of a wireless medium by a plurality of terminals.
SMA / CA (Carrier Sence Multiple Access / Collisi)
on Aviodance) method (reference: Draft International Sta
ndard ISO / IEC 8802-11, IEEE P802.11 / D8.0,1 May 199
There is 8). In the CSMA / CA method, the channel is observed before transmission, and after confirming that no other station is transmitting,
Sends a packet. Immediately after the packet transmission of a certain terminal is completed, the collision probability of simultaneous packet transmission by a plurality of wireless stations that have suspended transmission increases, so each terminal stops transmitting for a random time and the channel becomes idle after the random time elapses. After confirming that, packet transmission is performed.

FIG. 6 is a block diagram showing the internal structure of a conventional packet signal transmitting apparatus. In FIG. 6, the reception signal (a) is input to the reception circuit 61, where amplification and frequency conversion are performed and the reception circuit output signal (b) is output. The reception circuit output signal (b) is the reception signal level detection circuit 62.
The received signal level detection circuit 62 measures the received signal level and outputs the received signal level (c). The received signal level (c) is input to the level determination circuit 63, and the level determination circuit 63 determines whether or not the received signal level (c) exceeds a threshold level for determining the idle state of the channel. d) is output. Further, the level determination signal (d) is input to the control circuit 66, and the control circuit 66 outputs the transmission control signal (e) according to the control method such as CSMA / CA described above. The transmission control signal (e) is input to the transmission circuit 67, and the transmission circuit 67
The packet signal (f) is transmitted according to the transmission control signal (e).

As mentioned above, the CSMA /
The CA packet transmission control device can avoid packet collisions on the transmission path in order to transmit after observing the usage state of another station at the desired transmission frequency, and to share the wireless medium without the centralized control. Can be realized.

[0005]

As described above, in the conventional packet signal transmitting apparatus, when each terminal sharing the same frequency transmits according to the procedure of the CSMA / CA system, excellent access avoiding collision is achieved. Control can be realized. Further, even when another system is using the same frequency, if the gap time during which another system is not transmitting is large, communication using that time is possible. At this time, if it is assumed that the other system is a system that starts transmission without performing carrier sense at the time of transmission, it can be predicted that the start of transmission of the other system causes interference with a system operating in the CSMA / CA method. , CSMA
The packet communication method using the / CA method is a best-effort type communication, and it is considered that a certain amount of throughput can be realized by retransmission control or the like even when a packet error occurs due to interference. Further, when the interference waveform from another system is a predictable waveform, it is considered possible to perform the demodulation while avoiding the influence of the interference signal.

One of the systems having such a predictable transmission waveform is a weather radar system. A weather radar usually uses a parabolic antenna having a sharp directivity to transmit a pulse having a width of several microseconds to a target several hundreds of times per second, and receives the reflected wave to receive the target. Measure the position and shape of an object. In addition, the directional antenna of the weather radar is often rotated 360 ° for observation. The transmission output of the weather radar is very large and is generally 25
It is about 0 kW (about 84 dBm). However, since an antenna having a very sharp directivity is used while rotating, the energy radiation in the direction in which the antenna directivity is not good is low. Therefore, there is a possibility that the frequency band of the weather radar can be used for another system in an area where the antenna of the weather radar does not face directly. As a system that shares the frequency band with the weather radar, there are available and unusable times as the antenna of the weather radar rotates.
The best effort type communication system seems to be suitable.

As described above, considering that the frequency band is shared by the weather radar and the best-effort wireless packet communication system, the problem of interference caused by the weather radar in the best-effort wireless packet communication system as described above is a problem. There is a possibility that it can be avoided by applying retransmission control or pulse interference avoidance technology. On the other hand, when the transmission signal of the best-effort wireless packet communication system is received at the reception input terminal of the weather radar at the reception sensitivity level or higher, it is considered that the observation of the weather radar is hindered.

The present invention has been made in view of the above circumstances. By separately measuring the interference level of another system and confirming that it does not interfere with the other system, transmission is performed and then the weather radar and the like are transmitted. When a best-effort wireless packet communication system coexists in the frequency band used by a system that performs pulse waveform transmission, the best-effort wireless packet communication system may cause interference to a wireless communication system such as a weather radar. It is an object of the present invention to provide a packet signal transmission device in a digital wireless communication system that can control the transmission of wireless packets so that there is no wireless packet.

[0009]

In order to solve the above-mentioned problems, a packet signal transmitting apparatus in a digital radio communication system according to claim 1 has a plurality of frequency bands.
Digital wireless communication system shared by line system
At the time of receiving, before sending the packet signal of the local system
Detects the signal level and outputs the received signal level information
Reception signal level detection circuit, and the reception signal level detection circuit
Whether the output signal of the circuit is input and exceeds the set threshold value
Level determination circuit for determining whether or not the level determination circuit
Output signal is input, and the received signal level exceeds the threshold value.
If it is judged that it is not possible, control to allow transmission of own station
Circuit and signal transmission according to the output control signal of the control circuit
And the reception signal is input and the same frequency
Extracts and measures the reception level of other systems that share several bands
Other system interference level detection circuit and the other system
Input the output signal of the interference level detection circuit and set other
The result of judging whether the system interference level is exceeded or not
Equipped with other system interference judgment circuit that inputs to control circuit
The other system interference level detection circuit is
Interference level of other system for which received signal level is set
Comparator circuit that determines whether or not it exceeds the
A pulse width measuring circuit for measuring the pulse width of the signal, and the ratio
The output signal of the comparator circuit and the output signal of the pulse width measurement circuit are
The other received signal level is set.
The pulse width of the received signal exceeds the stem interference level and
If the pulse width is less than the set pulse width threshold, another system
The interference level value is output from the other system interference level detection circuit.
A pulse width determination circuit for inputting a force signal,
Value is set larger than the transmission pulse width of the interference wave of other system
Other system set in the other system interference determination circuit
The interference level is another system interference level below that level.
Is received, the transmission packet signal of the local system
Set to a level that does not affect other systems, and
The control circuit indicates that the interference level of the other system exceeds the threshold value.
If it is determined that the transmission by the system itself
It is characterized in that it is controlled so that it is not permitted. By this, it is possible to separately measure the interference level of the other system and confirm that it does not interfere with the other system before transmitting. For example, there are other systems that perform pulse waveform transmission such as weather radar. When a best-effort wireless packet communication system coexists in the frequency band, the interference level of another system is measured separately, and transmission is performed after confirming that it does not interfere with the other system.
It is possible to control the transmission of wireless packets so that the best-effort wireless packet communication system does not interfere with a system such as a weather radar.
Further, with the above configuration, the pulse width determination circuit is set.
The pulse width threshold is more than the transmission pulse width of other system interference wave.
Since it is set to a large value, the level of the interference wave is specified and measured.
can do.

According to the second aspect of the invention, the frequency band is duplicated.
Digital wireless communication system shared by several wireless systems.
System prior to sending the packet signal of its own system
Then, the received signal level is detected and the received signal level information is displayed.
The received signal level detection circuit for outputting and the received signal level
Output signal of the circuit detection circuit is input and exceeds the set threshold value.
And a level determination circuit for determining whether
The output signal of the constant circuit is input and the received signal level is the threshold value.
If it is judged that the value does not exceed the value, it will be sent by the own system.
Control circuit for permitting communication, and an output control signal of the control circuit
According to the transmission circuit that transmits signals according to
Receives interference signals from other systems separately from the reception circuit that performs reception.
Other system interfering signal receiving circuit that exclusively receives
The output signal of the stem interference signal reception circuit is input and
The reception levels of other systems that share the wave number band are extracted and measured.
Other system interference level detecting means, and the other system
The output signal of the interference level detection means is input and set
The result of judging whether or not it exceeds the interference level of other systems
A system interference determination circuit for inputting to the control circuit is provided.
The other system interference level detection means is input
The signal level exceeds the set other system interference level
And a comparison circuit for determining whether or not the input signal is input.
The pulse width measurement circuit for measuring the pulse width and the comparison circuit
The output signal and the output signal of the pulse width measurement circuit are input.
Other system in which the input signal level is set
Pulse of the input signal exceeding the interference level and
If the width is less than the set pulse width threshold, another system
System interference level value to the other system interference level detection circuit
A pulse width determination circuit for the output signal of
The width threshold is set larger than the transmission pulse width of the interference wave of other system.
Other system, and set in the other system interference determination means.
The system interference level is the level of other system interference below that level.
Packet sent by the local system when a packet is received
Set the signal to a level that does not affect other systems,
In the control circuit, the other system interference level exceeds a threshold value.
If it is determined that it has been received, the transmission by the own system is fixed
The feature is that the period is not allowed.

According to a third aspect of the invention, the frequency band is duplicated.
Digital wireless communication system shared by several wireless systems.
System prior to sending the packet signal of its own system
Then, the received signal level is detected and the received signal level information is displayed.
The received signal level detection circuit for outputting and the received signal level
Output signal of the circuit detection circuit is input and exceeds the set threshold.
And a level determination circuit for determining whether
The output signal of the constant circuit is input, and the received signal level is a threshold value.
If it is determined that the value does not exceed the value, allow the own station to transmit.
Control circuit and a signal according to the output control signal of the control circuit
And a receiving circuit that receives the received signal as input.
Extracts the reception level of other systems that share one frequency band
Other system interference level detection circuit for
Input the output signal of the stem interference level detection circuit and set it.
It is determined whether or not the level of interference with other systems has been exceeded.
Other system interference determination circuit for inputting the result to the control circuit
And the other system interference level detection circuit is
Average level measurement times to measure the average value of the received signal applied
Channel and the peak value of the input received signal
Output from the peak level measurement circuit and the average level measurement circuit
Output the average received level and the peak level measurement circuit
Input the peak reception level to
And a crest factor for calculating the ratio of the average reception level
Arithmetic circuit and output signal of the crest factor arithmetic circuit
Crest factor value and the peak level measuring circuit
Input the peak reception level which is the output signal of
Crest factor value is less than the set crest factor threshold
It is determined whether or not it is above, and the crest factor value is set.
If it is greater than or equal to the specified crest factor threshold, then
The peak reception level is detected by the other system interference level detection times.
Equipped with a crest factor judgment circuit which is used as a road output signal
Well, the crest factor threshold value is for other system interference waves.
Greater than the crest factor value, the crest of your system
Set smaller than the factor value to judge the interference with other systems.
The other system interference level set in the circuit should be below that level.
If another system interference level below is received,
The transmission packet signal of the system affects other systems.
Set to no level, the control circuit will interfere with other systems
If it is determined that the level exceeds the threshold,
Control to prohibit transmission by the system for a certain period.
It characterized the door.

According to the invention of claim 4, the frequency band is duplicated.
Digital wireless communication system shared by several wireless systems.
System prior to sending the packet signal of its own system
Then, the received signal level is detected and the received signal level information is displayed.
The received signal level detection circuit for outputting and the received signal level
Output signal of the circuit detection circuit is input and exceeds the set threshold value.
And a level determination circuit for determining whether
The output signal of the constant circuit is input and the received signal level is the threshold value.
If it is judged that the value does not exceed the value, it will be sent by the own system.
Control circuit for permitting communication, and an output control signal of the control circuit
According to the transmission circuit that transmits signals according to
Receives interference signals from other systems separately from the reception circuit that performs reception.
Other system interfering signal receiving circuit that exclusively receives
The output signal of the stem interference signal reception circuit is input and
The reception levels of other systems that share the wave number band are extracted and measured.
Other system interference level detecting means, and the other system
The output signal of the interference level detection means is input and set
The result of judging whether or not it exceeds the interference level of other systems
A system interference determination circuit for inputting to the control circuit is provided.
The other system interference level detection circuit is
An average level measurement circuit that measures the average value of the signal and the input
Peak level measurement circuit that measures the peak value of the received signal
And the average reception level output from the average level measurement circuit
And the peak reception level output by the peak level measurement circuit
The peak reception level and the average reception level.
Crest factor calculation circuit for calculating the ratio of
The crest signal output from the rest factor calculation circuit
Value and the output signal of the peak level measuring circuit
Enter the peak reception level and enter the crest factor value
Determine whether the value is greater than or equal to the set crest factor threshold.
And the crest factor with the crest factor value set
If it is above the actor threshold, the peak reception level
Is the output signal of the other system interference level detection circuit
And a crest factor determination circuit.
The threshold value is the crest factor value of other system interference wave.
And smaller than the crest factor value of the local system
Other system interference determination means
The system interference level is defined by other system interference levels below that level.
If the bell is received, the packet sent by your system will
Signal level does not affect other systems
And the control circuitry, the other systems interference level threshold
If it is determined that the number exceeds the
The feature is that it is not allowed for a certain period.

[0013]

[0014]

[0015]

1 is a block diagram showing an embodiment of a packet signal transmitting apparatus in a digital radio communication system of the present invention. The packet signal transmission device according to the present embodiment includes a reception circuit 11, a reception signal level detection circuit 12, a level determination circuit 13, another system interference level detection circuit 14, another system interference determination circuit 15, and a control circuit 1.
6 and the transmission circuit 17.

The reception signal a is input to the reception circuit 11, where amplification and frequency conversion are performed and a reception circuit output signal (b) is output. The reception circuit output signal (b) is input to the reception signal level detection circuit 12 and the other system interference level detection circuit 14, and the reception signal level detection circuit 12 measures the reception signal level and outputs the reception signal level (c). To do. The received signal level (c) is input to the level determination circuit 13, and the level determination circuit 13 receives the received signal level (c).
Is above the threshold level for determining the vacant state of the channel, and outputs the level determination signal (d).

On the other hand, the other system interference level detection circuit 14
Outputs the interference signal level (g) by extracting and measuring the interference wave level of another system. Interference signal level (g)
Is input to the other system interference determination circuit 15, and the interference signal level (g) is determined by the threshold value for determining the existence of interference of another system, which is provided separately from the free channel determination threshold value of the own system.
Is above the threshold and outputs an interference level determination signal (h). The level determination signal (d) and the interference level determination signal (h) are respectively input to the control circuit 16, and the control circuit 16 transmits the transmission timing based on the result of the level determination signal (d) according to a control method such as CSMA / CA. And an interference level determination signal (h)
When it is determined that the interference level is higher than the threshold value, control is performed to prohibit transmission for a certain period. Control circuit 16
The control signal (e), which is the output signal of, is input to the transmission circuit 17, and the transmission circuit 17 generates and outputs the packet signal (f) according to the transmission control signal (e).

With the above configuration, the radio packet communication system can detect the interference level of another system in addition to the interference detection level between its own systems, so that the own system transmits within a range that does not interfere with other systems. You can increase opportunities.

FIG. 2 is a block diagram showing another embodiment of the packet signal transmitting apparatus in the digital radio communication system of the present invention. Here, the packet signal transmission device includes a reception circuit 21, a reception signal level detection circuit 22, a level determination circuit 23, another system interference level detection circuit 24,
Other system interference determination circuit 25, control circuit 26, transmission circuit 27, and other system interference signal reception circuit 28 are included. In the embodiment shown in FIG. 2, the received signal (a)
Is input to the receiving circuit 21, where amplification and frequency conversion are performed, and the receiving circuit output signal (b) is output. The reception circuit output signal (b) is input to the reception signal level detection circuit 22, and the reception signal level detection circuit 22 measures the reception signal level and outputs the reception signal level (c). The received signal level (c) is input to the level determination circuit 23, and the level determination circuit 23 determines whether or not the received signal level (c) exceeds a threshold level for determining the idle state of the channel, and performs the level determination. The signal (d) is output.

On the other hand, the received signal (a) is also input to the other system interference reception circuit 28 adjusted to receive the interference wave from the other system, and the other system interference reception circuit 2 is received.
Reference numeral 8 performs amplification and frequency conversion of the other system interference wave, and outputs the other system interference reception circuit output signal (k). The output signal (k) of the other system interference reception circuit is input to the other system interference level detection circuit 24, and the other system interference level detection circuit 24 extracts and measures the interference wave level of the other system to obtain the interference signal level (g ) Is output.

The interference signal level (g) is input to the other system interference determination circuit 25, and a threshold value for determining the presence of interference of the other system, which is provided separately from the free channel determination threshold value of the own system, is used to determine the other system interference determination circuit. 25 determines whether or not the interference signal level (g) exceeds the threshold value and outputs an interference level determination signal (h). The level determination signal (d) and the interference level determination signal (h) are respectively input to the control circuit 26, and the control circuit 26 causes the CSMA /
According to a control method such as CA, transmission timing is generated based on the result of the level determination signal (d), and if the interference level determination signal (h) determines that the interference level is higher than the threshold value, transmission is disabled for a certain period. Performs permission control. Control signal (e) which is an output signal of the control circuit 26
Is input to the transmission circuit 27, and the transmission circuit 27 transmits the packet signal (f) according to the transmission control signal (e).

With the above configuration, the wireless packet communication system can detect the interference level of another system in addition to the interference detection level between its own systems, so that the own system transmits within a range that does not interfere with other systems. You can increase opportunities. Also, only the case where the reception signal received by the same antenna is input to the reception circuit 21 and the other system interference reception circuit 28 is shown, but if the arrival direction of the other system interference is known, it is dedicated to the other system interference. It is also effective to provide an antenna and input to the other system interference reception circuit 28.

FIG. 3 is a block diagram showing an embodiment of the other system interference level detection circuit 14 (24) shown in FIGS. In FIG. 3, the other system interference level detection circuit 14 includes a comparison circuit 141 and a pulse width measurement circuit 14.
2. The pulse width determination circuit 143. The other system interference level detection circuit 24 is similarly configured, and here,
To avoid duplication, only the other system level detection circuit 14 shown in FIG. 1 will be described in detail.

The receiving circuit output signal (b) input to the other system interference level detecting circuit 14 is input to the comparing circuit 141 and the pulse width measuring circuit 142. The pulse width measurement circuit 142 measures the pulse width of the input reception circuit output signal (b) and outputs the pulse width measurement result (q).
The comparison circuit 141 receives the input reception circuit output signal (b).
The received signal level detected when exceeding the threshold is output as the comparison circuit output signal (p). The pulse width measurement result (q) and the comparison circuit output signal (p) are input to the pulse width determination circuit 143, and the pulse width determination circuit 143 has the pulse width measurement result (q) equal to or less than the set pulse width threshold. in case of,
The comparison circuit output signal (p) is used as the output signal (g) of the other system interference level detection circuit 14. Here, since the pulse width threshold value set in the pulse width determination circuit 143 is set to be larger than the transmission pulse width of the other system interference wave, the level of the interference wave can be specified and measured.

FIG. 4 is a block diagram showing another embodiment of the other system interference level detection circuit 14 (24) shown in FIGS. In FIG. 4, the other system interference level detection circuit 14 includes an average level measurement circuit 144, a crest factor calculation circuit 145, a peak level measurement circuit 146,
It is composed of a crest factor determination circuit 147. The other system interference level detection circuit 24 is also configured in the same manner. Here, only the other system level detection circuit 14 shown in FIG. 1 will be described in detail to avoid duplication.

The receiving circuit output signal (b) input to the other system interference level detecting circuit 14 is input to the average level measuring circuit 144 and the peak level measuring circuit 146. The average level measuring circuit 144 measures the average level of the input receiving circuit output signal (b) and outputs the average level measurement result (r). Peak level measuring circuit 146
Measures the peak level of the input receiving circuit output signal (b) and outputs the peak level measurement result (s). Average level measurement result (r) and peak level measurement result (s)
Are both input to the crest factor calculation circuit 145,
The crest factor calculation circuit 145 calculates the ratio between the peak level measurement result (s) and the average level measurement result (r), and outputs the crest factor calculation result (t).

The peak level measurement result (s) is further input to the crest factor determination circuit 147. The crest factor calculation result (t) is also input to the crest factor determination circuit 147. Crest factor determination circuit 147
Determines whether the input crest factor calculation result (t) is greater than or equal to a preset crest factor threshold value, and if the crest factor calculation result (t) is greater than or equal to the set crest factor threshold value, The peak level measurement result (s) is used as the other system interference level detection circuit 1
4 output signal (g). Here, the crest factor threshold value set in the crest factor determination circuit 147 is
Since it is set to be larger than the crest factor value of the interference wave of the other system and smaller than the crest factor value of the own system, the level of the interference wave can be specified and measured.

FIG. 5 is a block diagram showing still another embodiment of the other system interference level detection circuit 14 (24) shown in FIGS. In FIG. 5, the other system interference level detection circuit 14 is composed of a repetition cycle detection circuit 148 and a repetition signal level measurement circuit 149. The other system interference level detection circuit 24 is also configured in the same manner. Here, only the other system level detection circuit 14 shown in FIG. 1 will be described in detail to avoid duplication.

The reception circuit output signal (b) input to the other system interference level detection circuit 14 is input to the repetition period detection circuit 148 and the repetition signal level measurement circuit 149. The repetition cycle detection circuit 148 measures the repetition cycle of the input reception circuit output signal (b) and outputs the repetition cycle measurement result (u). The repetition cycle measurement result (u) is input to the repetition signal level measurement circuit 149, and the repetition signal level measurement circuit 149 receives the repetition cycle (u) of the input reception circuit output signal (b).
The level of the signal component that is repeated in step S1 is extracted by an integration operation or the like, and the level of the repeated signal component is used as the output signal (g) of the other system interference level detecting means. Here, since the range of the repetition cycle detected by the repetition cycle detection circuit is set so as to include the repetition cycle that the other system interference wave can take, the level of the interference wave can be specified and measured.

[0030]

As described above, according to the packet signal transmitting method and apparatus in the digital radio communication system of the present invention, the best effort type radio packet communication is in the frequency band used by the system for transmitting the pulse waveform such as the weather radar. When systems coexist, it is possible to control the transmission of wireless packets so that the best-effort wireless packet communication system does not interfere with systems such as weather radar.

Further, the digital wireless communication system can detect the interference level of another system in addition to the interference detection level between its own systems, and as a result, the transmission of its own system can be performed within the range where it does not interfere with other systems. You can increase the opportunity to do. Further, when the arrival direction of the other system interference is known, it is also effective to provide an antenna dedicated to the other system interference and input it to the other system interference receiving circuit. Furthermore, the pulse width threshold set in the pulse width determination circuit built into the other system interference level detection circuit is
The crest factor threshold set in the crest factor determination circuit built into the other system interference level detection circuit is set to be larger than the crest factor value of the other system interference wave by setting it larger than the transmission pulse width of the other system interference wave. By setting the crest factor value smaller than the own system, the level of the interference wave can be specified and measured. Further, the range of the repetition cycle detected by the repetition cycle detection circuit incorporated in the other system interference level detection circuit is set to include the repetition cycle that the other system interference wave can take. Can be measured.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a block diagram showing another embodiment of the present invention.

FIG. 3 is a block diagram showing an embodiment of the other-system interference level detection circuit shown in FIGS. 1 and 2.

FIG. 4 is a block diagram showing another embodiment of the other system interference level detection circuit shown in FIGS. 1 and 2.

5 is a block diagram showing still another embodiment of the other system interference level detection circuit shown in FIGS. 1 and 2. FIG.

FIG. 6 is a block diagram showing an internal configuration of a packet signal transmission device in a conventional digital wireless communication system.

[Explanation of symbols]

11 (21) ... Reception circuit, 12 (22) ... Reception signal level detection circuit, 13 (23) ... Level determination circuit, 14 (2)
4) ... Other system interference level detection circuit, 15 (25) ...
Other system interference determination circuit, 16 (26) ... Control circuit, 1
7 (27) ... Transmitting circuit, 28 ... Other system interference signal receiving circuit, 141 ... Comparison circuit, 142 ... Balus width measuring circuit,
143 ... Pulse width determination circuit, 144 ... Average level measurement circuit, 145 ... Crest factor calculation circuit, 146 ... Peak level measurement circuit, 147 ... Crest factor determination circuit, 148 ... Repetition cycle detection circuit, 149 ... Repetition signal level measurement circuit

─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Tetsuya Shiramizu 2-3-1, Otemachi, Chiyoda-ku, Tokyo Inside Nippon Telegraph and Telephone Corporation (72) Mitsuhiro Baba 2-3-1, Otemachi, Chiyoda-ku, Tokyo No. Nippon Telegraph and Telephone Corp. (72) Inventor Noriyuki Nagamatsu 2-3-1, Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corp. (56) Reference JP-A-6-37762 (JP, A) JP 5-130053 (JP, A) (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04L 12/28 300

Claims (4)

(57) [Claims] 1. In a digital wireless communication system in which a frequency band is shared by a plurality of wireless systems, a received signal level detection circuit for detecting a received signal level prior to the packet signal transmission of its own system and outputting the received signal level information. An output signal of the reception signal level detection circuit is input, and a level determination circuit that determines whether or not the threshold value exceeds a set threshold value; and an output signal of the level determination circuit is input, and the reception signal level exceeds the threshold value. If it is determined that there is no, the control circuit that permits the transmission of its own station, the transmission circuit that transmits the signal according to the output control signal of the control circuit, the received signal is input, and the same frequency band is shared. Another system interference level detection circuit for extracting and measuring the reception level of the system, and an output signal of the other system interference level detection circuit The other system interference determination circuit for inputting and determining the result of determining whether or not the other system interference level that has been set is input to the control circuit , the other system interference level detection circuit, the input received signal A comparison circuit for determining whether or not the level exceeds the set other system interference level, a pulse width measurement circuit for measuring the pulse width of the input reception signal, an output signal of the comparison circuit and the pulse width measurement circuit When the output signal of is input, the input received signal level exceeds the set other system interference level, and the received signal pulse width is less than the set pulse width threshold, the other system interference level value is set. A pulse width determination circuit as an output signal of the other system interference level detection circuit, wherein the pulse width threshold is larger than the transmission pulse width of the other system interference wave. The other system interference level set in the other system interference determination circuit is set to a level at which the transmission packet signal of the own system does not affect the other system when the other system interference level below that level is received. If the control circuit determines that the interference level of the other system exceeds the threshold value, the control circuit performs control to prohibit transmission by the own system for a certain period of time. Signal transmitter. 2. A digital signal communication system in which a plurality of radio systems share a frequency band, and a reception signal level detection circuit for detecting a reception signal level prior to the packet signal transmission of the own system and outputting the reception signal level information. An output signal of the received signal level detection circuit is input, and a level determination circuit for determining whether or not the set threshold value is exceeded, and an output signal of the level determination circuit is input, and the received signal level exceeds the threshold value. If it is determined that there is no other system, a control circuit that permits transmission by the own system, a transmission circuit that transmits a signal according to the output control signal of the control circuit, and a reception circuit that receives the own system signal and exclusively performs other system interference signal receiving circuit to receive the interference signal, the output signal of the other system interference signal receiving circuit is input The other system interference level detecting means for extracting and measuring the reception level of the other system sharing the same frequency band, and the output signal of the other system interference level detecting means are input to exceed the set other system interference level. Another system interference determination circuit for inputting a result of determination of whether or not the other system interference level detection means determines whether or not the input signal level exceeds the set other system interference level. A comparison circuit for determining, a pulse width measurement circuit for measuring the pulse width of the input signal, the output signal of the comparison circuit and the output signal of the pulse width measurement circuit are input, the input signal level is If the set other system interference level is exceeded and the pulse width of the input signal is less than or equal to the set pulse width threshold, the other system is set. A pulse width determination circuit that sets the interference level value as an output signal of the other system interference level detection circuit, the pulse width threshold is set to be larger than the transmission pulse width of the other system interference wave, and is set in the other system interference determination means The other system interference level is set to a level at which the packet signal transmitted by the own system does not affect the other system when the other system interference level equal to or lower than the other system interference level is received. A packet signal transmitting apparatus in a digital wireless communication system, wherein transmission by the own system is prohibited for a certain period when it is determined that the interference level exceeds a threshold value. 3. In a digital wireless communication system in which a frequency band is shared by a plurality of wireless systems, a received signal level detection circuit for detecting a received signal level prior to the packet signal transmission of its own system and outputting the received signal level information. An output signal of the reception signal level detection circuit is input, and a level determination circuit that determines whether or not the threshold value exceeds a set threshold value; and an output signal of the level determination circuit is input, and the reception signal level exceeds the threshold value. If it is determined that there is no, the control circuit that permits the transmission of its own station, the transmission circuit that transmits the signal according to the output control signal of the control circuit, the received signal is input, and the same frequency band is shared. Another system interference level detection circuit for extracting and measuring the reception level of the system, and an output signal of the other system interference level detection circuit The other system interference determination circuit for inputting and determining the result of determining whether or not the other system interference level that has been set is input to the control circuit, the other system interference level detection circuit, the input received signal An average level measuring circuit for measuring the average value of the input signal, a peak level measuring circuit for measuring the peak value of the input received signal, an average receiving level output by the average level measuring circuit and the peak level measuring circuit output A crest factor calculation circuit that inputs a peak reception level and calculates a ratio of the peak reception level and the average reception level, a crest factor value that is an output signal of the crest factor calculation circuit, and an output signal of the peak level measurement circuit. Enter the certain peak reception level, the crest factor threshold set by the crest factor value Whether or not it is above, if the crest factor value is greater than or equal to the set crest factor threshold, a crest factor determination circuit that uses the peak reception level as an output signal of the other system interference level detection circuit, and The crest factor threshold value is larger than the crest factor value of the other system interference wave and is set smaller than the crest factor value of the own system, and the other system interference level to be set in the other system interference determination circuit is equal to or lower than the level. When the other system interference level is received, the transmission packet signal of the own system is set to a level that does not affect the other system, and the control circuit determines that the other system interference level exceeds the threshold value. Is a feature that controls that the transmission by the local system is not permitted for a certain period. A packet signal transmitting device in a digital wireless communication system. 4. In a digital wireless communication system in which a frequency band is shared by a plurality of wireless systems, a received signal level detection circuit for detecting a received signal level prior to transmitting a packet signal of its own system and outputting the received signal level information. An output signal of the received signal level detection circuit is input, and a level determination circuit for determining whether or not the set threshold value is exceeded, and an output signal of the level determination circuit is input, and the received signal level exceeds the threshold value. If it is determined that there is no other system, a control circuit that permits transmission by the own system, a transmission circuit that transmits a signal according to the output control signal of the control circuit, and a reception circuit that receives the own system signal and exclusively performs other system interference signal receiving circuit to receive the interference signal, the output signal of the other system interference signal receiving circuit is input The other system interference level detecting means for extracting and measuring the reception level of the other system sharing the same frequency band, and the output signal of the other system interference level detecting means are input to exceed the set other system interference level. The other system interference determination circuit for inputting the result of determination whether or not to the control circuit, the other system interference level detection circuit, and an average level measurement circuit for measuring the average value of the input signal, A peak level measuring circuit for measuring the peak value of the signal, an average receiving level outputted by the average level measuring circuit and a peak receiving level outputted by the peak level measuring circuit are inputted, and the peak receiving level and the average receiving level are inputted. And a crest factor calculation circuit that is an output signal of the crest factor calculation circuit. Input the peak reception level that is the output signal of the peak level measurement circuit, and determines whether the crest factor value is greater than or equal to the set crest factor threshold value, and the crest factor value is set crest factor. If a factor threshold or more, the crest factor determination circuit having the peak reception level as an output signal of the other system interference level detection circuit, and the crest factor threshold value is greater than the crest factor value of the other system interference wave. , A smaller than the crest factor value of the own system, the other system interference level to be set in the other system interference determination means, when the other system interference level below that level is received, the packet signal transmitted by the own system is Set to a level that does not affect other systems, the control circuit A packet signal transmitting apparatus in a digital radio communication system, wherein when the other system interference level is determined to exceed a threshold value, transmission by the own system is prohibited for a certain period.