JP2001333081A - Wireless communication equipment and computer- readable storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless communication equipment that can reduce the effect of giving/receiving interference to/from other systems in the case that its own system coexists with the other systems using the same frequency as its own system. SOLUTION: An interference signal level detection circuit 107 receives a reception signal s101 in a prescribed frequency received by an antenna circuit 101 via a switch circuit 102 and detects an interference wave for an interference detection period. An interference level decision circuit 108 outputs a level decision circuit output signal s110 when an interference signal level signal s109 exceeds a threshold. A transmission control circuit 105 stops transmission for a prescribed period when receiving the level decision circuit output signal s110 and outputs a transmission control signal s106 when receiving no level decision circuit output signal s110 and the time is within a transmission permission period Ta by a frame setting circuit 109. A signal transmission circuit 106 transmits a signal s107 for the transmission permission period Ta in response to the transmission control signal s106 and stops the transmission for the interference wave detection period or when the interference reception level exceeds the interference wave threshold.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication apparatus as a station suitable for a radio communication system for performing digital radio communication by sharing the same carrier frequency with a plurality of stations, and a computer-readable device used in the apparatus. The present invention relates to a simple storage medium, and particularly to a case where the storage medium coexists with another system using the same carrier frequency as that of the own system.

[0002]

2. Description of the Related Art Conventionally, a time division multiple access (TDM) is used as a communication method used by a plurality of stations in the same network system for time segregation using the same carrier frequency.
A: TimeDivision Muitiple Access) Carrier sensing is performed based on the communication method or received signal level, and it is determined whether or not the frequency to be used is being used by another station. Sending CSMA / CA (Ca
rrier Sence Multiple Access / Collision Aviodance
There is a communication method. Of these, the CSMA / CA communication method is a best-effort communication access method used in packet communication because it transmits a signal after observing the desired transmission frequency for each transmission packet and measuring whether it can be used. Widely used as.

FIG. 9 shows a conventional wireless communication apparatus using the CSMA / CA communication method (reference: Draft International Stanley).
dard ISO / IEC 8802-11, TEEE P802.11 / D8.0.1 May 1998
). In the CSMA / CA communication method, before the own station transmits at a desired transmission frequency, it is monitored whether or not another station is currently transmitting at the same transmission frequency by receiving an incoming wave of that frequency, that is, This is a method that performs carrier sense and can transmit a packet when another station is not transmitting. Immediately after the transmission of a packet from another station has been completed and the radio channel has changed from busy (in use) to idle (vacant), a plurality of stations that have been holding transmission will start transmitting packets at the same time. And interference occurs. In order to reduce this, each station performs carrier sense continuously from the time of receiving a signal from another station. At the time when the other station signal no longer exists, the respective stations successively perform carrier sense at random times at random, and basically perform packet transmission when the radio channel after the lapse of the random time is idle. I have.

[0004] The operation of the conventional radio communication device of FIG. 9 will be described. The antenna circuit 1 receives a reception signal s1 having a predetermined carrier frequency. The antenna circuit output signal s2 is
The signal is input to the reception signal level detection circuit 3 as the switch circuit output signal s3 via the switch circuit 2, and the reception signal level signal s4 is output. Received signal level judgment circuit 4
Determines whether or not the received signal level signal s4 exceeds a set threshold value, and when the signal level exceeds the set threshold value, the level determination circuit output signal s4
5 is output.

When the level control circuit output signal s5 is input, the transmission control circuit 5 determines that transmission cannot be performed because another station is transmitting, and when the level control circuit output signal s5 is not input. Determines that transmission is possible because no other station is transmitting, and outputs a transmission control signal s6 to the signal transmission circuit 6. The signal transmission circuit 6 performs transmission based on CSMA / CA competition control such as transmission of the transmission signal s7 or transmission stop according to the transmission control signal s6. When performing transmission, the transmission signal s7 is transmitted to the signal transmission circuit 6
And transmitted from the antenna circuit 1 via the switch circuit 2 as a transmission signal s8.

As described above, the conventional CSMA / C shown in FIG.
A In a wireless communication device using the communication method, the usage status of another station at the desired transmission frequency is observed, and if it is determined that another station is communicating, transmission is stopped. Can be avoided, and communication suitable for best-effort communication can be performed.

[0007] As described above, the CSMA / CA communication method of performing communication while competing for lines at the same frequency performs time segregation avoiding collision with other stations, and realizes excellent throughput characteristics. it can.

[0008]

However, if there is another system using the same frequency as that of the own system, the signal of the other system becomes an interference wave with respect to the transmission frequency of the own system. In this case, the received signal detection circuit cannot properly detect a signal from an interference station of another system, so that the collision avoidance function does not operate and time separation cannot be realized. Conversely, a signal from the own system station becomes an interference wave with respect to the interfering station, which causes interference.

[0009] In particular, this problem is exacerbated when the radar in which the interference wave is intermittently transmitted as a pulse wave is an interference station. Radar transmission power is very large, for example, about 250 kW
(Approximately 84 dBm), the effect of the interference wave on the own system is large. The radar transmits a pulse wave with a width of several microseconds to the target several hundred times a second while rotating a parabolic antenna with sharp directivity at a fixed period, and receives the reflected wave. By averaging
Since the system accurately captures the target, the pulse wave must not be interfered.

Therefore, in order to suppress the interference and interference between the radar, which is another system, and the own system, the radar is operated while rotating the directivity of the antenna. An effective measure is to measure the reception level of the radar wave when facing the station of the own system, and to stop the transmission of the own station when the reception level value is large, which is an effective measure.

However, when the radar and the own system station face each other, even if an attempt is made to stop the own system station, the radar wave is transmitted using a directional antenna having a steep directivity. There is a maximum of 10 dB of fluctuation in the reception level per pulse period, and the reception level suddenly increases, making it difficult to detect, and the period of the pulse wave is relatively long.

To properly measure the reception level of a radar pulse wave, there are the following problems. (1) A carrier sense time of at least one pulse cycle (about 4 ms) is required. (2) Since the directivity is steep, a fluctuation of about 10 dB at maximum occurs between successive one pulses.

(3) The level of an interference wave cannot be measured by a simple device during transmission from the own system station. (4) It is difficult to measure the level of the radar pulse wave while the own station is receiving a radio wave from another station of the own system which is equal to or higher than the reception level of the interference wave.

That is, in the conventional configuration, mutual interference,
There is a problem that it is difficult to detect an interference wave reception level value required as a trigger for performing a wave stop that suppresses the influence of interference.

The present invention has been made in order to solve the above-mentioned problems, and when performing communication while coexisting with the own system and another system on the same frequency, the influence of mutual interference and interference is reduced. It is an object of the present invention to provide a wireless communication device that can reliably detect an interference wave reception level value required as a trigger for suppressing a wave stop.

[0016]

In order to achieve the above object, in a radio communication apparatus according to the present invention, a frame setting means for periodically setting a transmission permission period for enabling transmission of a signal of a predetermined frequency. For example, the frame setting circuits 109 and 209 in the first and second embodiments) and receiving means (the antenna circuits 101 and 201 and the switch circuits 102 and 20 for receiving the arriving wave signal of the predetermined frequency).
2) and interference signal level detection means for detecting a reception level of an interference signal from another system from the signal received by the reception means (the interference signal level detection circuits 107 and 207).
And an interference signal level judging means for judging whether or not the reception level of the interference signal detected by the interference signal level detecting means has exceeded a threshold value.
8, 209) and when the interference signal level determination means determines that the threshold value has been exceeded, outputs a transmission control signal for stopping transmission for a predetermined period, and when determined that the threshold value has not been exceeded, Transmission control means for outputting a transmission control signal for permitting transmission during the set transmission permission period (the transmission control circuits 105 and 205) and signal transmission means for transmitting the signal in response to the transmission control signal (the same). , Signal transmission circuit 1
06, 206, switch circuits 102 and 202, and antenna circuits 101 and 201).

In another wireless communication apparatus according to the present invention, a signal transmitting means for transmitting a signal of a predetermined frequency (for example, the signal transmitting circuit 30 in the third and fourth embodiments).
6, 406, switch circuits 302, 402, antenna circuits 301, 401) and counter means (counter circuits 310, 410) which are reset when the signal transmission means ends transmission and start counting for a predetermined time. ,
Receiving means for receiving the arriving wave signal of the predetermined frequency
Antenna circuits 301 and 401, switch circuits 302 and 4
02); reception signal level detection means (the reception signal level detection circuits 303 and 403) for detecting a reception level of a signal from a station in the own system from a signal received by the reception means at the predetermined time; Receiving signal level determining means for determining whether or not the receiving level detected by the receiving signal level detecting means has exceeded a threshold value (similarly, the receiving signal level determining circuits 304 and 404); Interference signal level detection means (same as the interference signal level detection circuits 307 and 407) for detecting the reception level of the interference signal from another system from the signal, and the reception level of the interference signal detected by the interference signal level detection means is set to a threshold. Signal level determining means for determining whether or not
When the interference signal level determination circuits 308 and 408) and the reception signal level determination means determine that the threshold value is exceeded, and when the interference signal level determination means determines that the threshold value is exceeded, the signal The next transmission by the transmission means is stopped for each predetermined period, and when the level determination means does not exceed the threshold value, the next transmission by the signal transmission means is performed after the predetermined time measurement by the counter means. Transmission control means (the same as the transmission control circuits 305 and 405) are provided.

Further, in the computer readable storage medium according to the present invention, a frame setting process for periodically setting a transmission permission period for enabling transmission of a signal of a predetermined frequency, and receiving an incoming wave signal of the predetermined frequency Receiving process, an interference signal level detection process for detecting a reception level of an interference signal from another system from a signal received in the reception process, and a reception level of the interference signal detected in the interference signal level detection process is a threshold. An interference signal level determination process for determining whether or not the threshold value has been exceeded, and when it is determined that the threshold value has been exceeded in the interference signal level determination process, a transmission control signal for stopping transmission for a predetermined period is output. When it is determined that there is no transmission control processing to output a transmission control signal that permits transmission during the set transmission permission period,
And a signal transmission process for transmitting the signal in response to the transmission control signal.

In another computer-readable storage medium according to the present invention, a signal transmission process for transmitting a signal of a predetermined frequency, and the transmission is terminated when the signal transmission process is completed to start counting for a predetermined time. Counting processing, receiving processing for receiving the arriving wave signal of the predetermined frequency, and reception signal level detection processing for detecting a reception level of a signal from a station in the own system from a signal received in the reception processing at the predetermined time. And a reception signal level determination process for determining whether the reception level detected in the reception signal level detection process has exceeded a threshold, and an interference signal from another system from the signal received in the reception process at the predetermined time. The interference signal level detection processing for detecting the reception level and the reception level of the interference signal detected in the interference signal level detection processing are Interference signal level determination processing for determining whether or not a value has been exceeded, and when it is determined that the threshold has been exceeded by the reception signal level determination processing, and when it is determined that the threshold has been exceeded by the interference signal level determination processing Next, the next transmission by the signal transmission processing is stopped for each predetermined period, and when it is determined that both the level determination processings do not exceed the threshold, the next transmission by the signal transmission processing is performed after the predetermined time measurement by the counting processing. And a transmission control process for performing the transmission of the data.

[0020]

Embodiments of the present invention will be described below with reference to the drawings. In the first to fourth embodiments of the present invention, the above-described problem is caused by setting the measurement period of the interference wave periodically, or setting the carrier sense period for detecting the interference wave longer than the interference wave cycle time. Has been resolved. During the measurement period of these interference waves, the transmission from the own station is not performed in the carrier sense period, the reception level of the interference wave is measured in this period, and when the reception level exceeds the set threshold,
Control to stop the own system.

In each embodiment, interference wave detection is enabled by taking the following countermeasures against the above four problems (1) to (4). For the problem (1), the measurement period of the interference wave is set to be periodic, or the carrier sense period before transmission is set to be longer than the interference wave period. For the problem (2), the detection accuracy of the radar pulse wave is improved by setting the measurement period for the interference wave.

For the problem (3), the own system does not transmit when detecting the interference wave. Regarding the problem (4), when the arrival time of the interference signal does not coincide with the arrival of the reception signal from another station, the reception level of the interference wave can be detected. The case where the arrival of the system reception signal is allowed and the case where the arrival of the system reception signal are not allowed are separately handled.

FIG. 1 shows a wireless communication apparatus according to a first embodiment of the present invention, and relates to the first aspect of the present invention. In FIG. 1, a reception signal (arriving wave signal) s101 of a predetermined frequency is received by an antenna circuit 101.
The antenna circuit output signal s102 is
Is input to the interference signal level detection circuit 107 as the switch circuit output signal s103 via Here, the signal detection of the interference wave is performed only in the predetermined interference wave detection period Tb, and the interference signal level signal s109 is output. In the interference signal level determination circuit 108, when the interference signal level signal s109 exceeds a set threshold value, the level determination circuit output signal s1
10 is output.

When the output signal s110 of the level determination circuit is input, the transmission control circuit 105 outputs a transmission control signal s106 for controlling transmission to be stopped for a certain period, and receives the output signal s110 of the level determination circuit. And a frame control signal s1 from the frame setting circuit 109.
When 11 indicates the transmission permission period Ta,
A transmission control signal s106 for controlling transmission is output.

The signal transmission circuit 106 has a transmission control signal s1
Transmission of the transmission signal s107 is performed only in the transmission permission period Ta according to 06, and when the interference wave detection period or the interference wave reception level exceeds the interference wave threshold, transmission control for stopping transmission is performed. When transmission is performed, the transmission signal s107 is transmitted as a transmission signal s108 via the signal transmission circuit 106 and the switch circuit 102 and the antenna circuit 101.

In this embodiment, the detection of the interference wave is realized with high accuracy by periodically setting the interference wave detection period Tb. FIG. 2 shows a model of signal transmission and reception according to the present embodiment, and shows one cycle of an interference wave detection period (frame) Tb and a local station transmission permission period (frame) Ta.
FIG. 2 shows a case where the interference wave detection period Tb is set for simplification and the reception level of the interference wave is detected. However, when the signal transmission is completed within the own station transmission permission period Ta, It is possible to detect the interference wave reception level from the end of transmission.

Further, in this embodiment, since it is assumed that operation is performed without frame synchronization between a plurality of stations in the own system, another station (station B in the figure) is set within the interference wave detection period Tb. ) May arrive, but in particular, unless the received signal from the other station coincides with the arrival time of the interference wave and the reception level of the received signal is large,
Interference signal level detection circuit 107 for extracting characteristics of interference waves
, It is possible to detect an interference wave. As the interference wave level detection circuit 107, circuits based on various characteristics of the interference wave can be considered. For example, when the interference wave is a radar pulse wave, the interference level detection circuit 107
A technique of performing measurement using an evaluation criterion such as a crest factor, which is a ratio of the reception peak power of the interference wave to the reception average power, may be used.

FIG. 3 shows a wireless communication apparatus according to a second embodiment of the present invention, and relates to the second aspect of the present invention. 3, a reception signal s201 is received by an antenna circuit 201, and an antenna circuit output signal s202 is transmitted through a switch circuit 202 to a switch circuit output signal s2.
03 is input to the interference signal level detection circuit 207.

On the other hand, a frame synchronization signal s212 for synchronizing a plurality of stations in the own system is input to the frame setting circuit 209. Based on this signal s212, frame synchronization of the transmission permission period Ta and the interference wave detection period Tb between the stations is established, and a frame control signal s211 indicating each period is output.

In the interference signal level detection circuit 207, the interference wave signal is detected only in the interference wave detection period Tb in accordance with the frame control signal s211.
209 is output. The interference signal level determination circuit 208 outputs a level determination circuit output signal s210 when the interference signal level signal s209 exceeds a set threshold.

When the level control circuit output signal s210 is input to the transmission control circuit 205, the transmission control circuit 205 outputs a transmission control signal s206 for controlling transmission to be stopped for a predetermined period, and receives the level control circuit output signal s210. If the frame control signal s211 indicates that the transmission is permitted, the transmission control signal s206 for controlling transmission is output.

In the signal transmission circuit 206, the transmission control signal s
According to 206, the transmission signal s207 only in the transmission permission period Ta
When the interference wave detection period Tb or the interference wave reception level exceeds the interference wave threshold, the transmission is stopped.
When performing transmission, the transmission signal s207 is transmitted by the signal transmission circuit 2
06 as the transmission signal s208 via the switch circuit 20
2, transmitted through the antenna circuit 201.

In the present embodiment, by performing frame synchronization between the stations of the own system, the interference wave detection period Tb and the transmission permission period Ta of each station are switched at the same timing to perform communication. FIG. 4 shows a model of signal transmission and reception according to the present embodiment, and shows one cycle of an interference wave detection period (frame) Tb and a self-other station transmission permission period (frame) Ta.
Since each station is in frame synchronization, the transmission permission period of the other station is
Signal transmission / reception is performed only at Ta. Further, since no signal arrives from the own system in the interference wave detection period Tb, highly accurate interference wave reception level detection is possible.

As the reference signal such as the frame synchronization signal s212 for synchronizing between the own system stations, a method or the like known by radio or wire from the base station can be considered. In addition, it is naturally conceivable that each station synchronizes with a time reference such as GPS (Global Positioning System).

FIG. 5 shows a wireless communication apparatus according to a third embodiment of the present invention, and relates to the third aspect of the present invention. In FIG. 5, a reception signal s301 is received by an antenna circuit 301. Antenna circuit output signal s30
2 is input to the reception signal level detection circuit 303 as the switch circuit output signal s303 via the switch circuit 302, and the reception signal level signal s304 is output. In the reception signal level determination circuit 304, the reception signal level signal s3
When 04 exceeds the set threshold value, a level determination circuit output signal s305 is output.

When the level control circuit output signal s305 is input, the transmission control circuit 305 determines that transmission cannot be performed because another station is transmitting, and when the level control circuit output signal s305 is not input, It determines that transmission is possible because the other station is not transmitting, and outputs a transmission control signal s306 to the signal transmission circuit 306. The signal transmission circuit 306 performs transmission such as transmission of the transmission signal s307 or transmission stop according to the transmission control signal s306. When transmission is performed, the transmission signal s307 is transmitted as a transmission signal s308 via the signal transmission circuit 306 and the switch circuit 302 and the antenna circuit 301.

On the other hand, a transmission confirmation signal s 313 indicating before transmission of the transmission signal s 307 and completion of transmission is input from the signal transmission circuit 306 to the counter circuit 310. The number of the counter value is confirmed by the transmission confirmation signal s313 input before the transmission. And this signal s3
When the measurement time (counter value) at the time when 13 is input is equal to or longer than the fixed time Tb, the counter circuit 310 outputs the transmission permission signal s314 to the transmission control circuit 305, and the measurement time is shorter than the fixed time Tb. Postpone sending when
When the measurement time becomes equal to or longer than Tb, the transmission permission signal s314
Is output.

When the transmission confirmation signal s313 indicates the end of transmission, the measurement time of the counter circuit 310 is reset. The interference level detection circuit 307 receives the switch circuit output signal s303 and detects the reception level of the interference signal. The interference signal level determination circuit 308 outputs a level determination circuit output signal s310 when the interference signal level signal s309 exceeds a set threshold.

When the output signal s310 of the level determination circuit is input, the transmission control circuit 305 outputs a transmission control signal s306 for controlling the transmission to be stopped for a certain period of time, and the output signal s310 of the level determination circuit is not input. And when the transmission permission signal s314 is input, the transmission control signal s306 for performing transmission is output. When performing transmission, the transmission signal s307 is transmitted via the signal transmission circuit 306 to the transmission signal s3.
08 is transmitted through the switch circuit 302 and the antenna circuit 301.

In this embodiment, the detection of the interference wave is realized by performing the carrier sense period Tb for the interference wave before transmitting to the own system. FIG. 6 shows a model of signal transmission and reception according to the present embodiment, and shows how carrier sensing of a fixed time length Tb is performed before signal transmission. Here, it is conceivable that a signal from another station arrives during the carrier sense period. In particular, except when the arrival time of the received signal coincides with the arrival time of the interference wave and the reception level of the reception signal is large, the interference wave Since an interference level detection circuit 307 for extracting the feature of (1) is provided, it is possible to detect an interference wave.

As the interference wave level detection circuit 307, circuits based on various characteristics of the interference wave can be considered.
For example, when the interference wave is a radar pulse wave, the interference level detection circuit may use a method of performing measurement using an evaluation criterion such as a crest factor, which is a ratio of a reception peak power of the interference wave to a reception average power.

FIG. 7 shows a wireless communication apparatus according to a fourth embodiment of the present invention, and relates to the invention of claim 4. In FIG. 7, a reception signal s401 is received by an antenna circuit 401. Antenna circuit output signal s40
2 is input to the reception signal level detection circuit 403 as the switch circuit output signal s403 via the switch circuit 402, and the reception signal level signal s404 is output. In the reception signal level determination circuit 404, the reception signal level signal s4
When 04 exceeds the set threshold value, a level determination circuit output signal 405 is output.

When the output signal s405 of the level judgment circuit is input, the transmission control circuit 405 judges that transmission cannot be performed because another station is transmitting, and when the output signal s405 of the level judgment circuit is not input, It determines that transmission is possible because the other station is not transmitting, and outputs a transmission control signal s 406 to the signal transmission circuit 406. The signal transmission circuit 406 performs control such as transmission of the transmission signal s407 or stop of transmission in accordance with the transmission control signal s406.

On the other hand, in the counter circuit 410, the transmission confirmation signal s before transmission and after transmission is transmitted from the signal transmission circuit 406.
413 is input. When the transmission acknowledgment signal s413 is input before the transmission, the number of the counter value is checked. If the measurement time (counter value) at the time when the signal s413 is input is equal to or longer than the fixed time Tb, the counter circuit 410 sends the transmission permission signal s414 to the transmission control circuit 4
05, and when the measurement time is shorter than the fixed time Tb, the transmission is postponed, and when the measurement time becomes equal to or longer than Tb, the transmission permission signal s414 is output. When the transmission confirmation signal s413 indicates the end of signal transmission, the measurement time of the counter circuit 410 is reset.

Further, in the present embodiment, the level determination circuit output signal s405 is also input to the counter circuit 410, and when a received signal of the own system is received, the counter value is reset. In this case, the measurement is restarted after the reception of the reception signal is completed.

The interference signal level detection circuit 407 receives the switch circuit output signal s403 and detects the reception level of the interference signal. The interference signal level determination circuit 408 outputs a level determination circuit output signal s410 when the interference signal level signal s409 exceeds a set threshold.

When the level control circuit output signal s410 is input, the transmission control circuit 405 outputs a transmission control signal s406 for controlling to stop transmission for a certain period of time.
When the level determination circuit output signal s410 is not input and the transmission permission signal s414 is input, a transmission control signal s406 for performing transmission is output. When transmission is performed, the transmission signal s407 is transmitted through the signal transmission circuit 406 to the transmission signal s407.
Switch circuit 402 and antenna circuit 401 as 408
Sent through.

In this embodiment, the detection of the interference wave is realized by performing the carrier sense period for the interference wave before transmitting to the own system. FIG. 8 shows a model of signal transmission and reception according to the present embodiment, in which carrier sensing is performed until a fixed time length Tb is secured before signal transmission, and then transmission is performed. As shown in FIG. 8, when a received signal from another station of the own system arrives during the carrier sense period for interference waves, the carrier sense period measured by the counter circuit 410 is reset, and again, Carrier sense is performed until the fixed time Tb is secured. As described above, since transmission is performed after confirming that there is no interference wave during the fixed time Tb, the reception level of the interference wave can be detected.

Next, a computer-readable storage medium according to an embodiment of the present invention will be described. A storage medium storing a program for executing a process based on the above-described operation of the wireless communication device according to each embodiment by a CPU in the wireless communication device constitutes a computer-readable storage medium according to the present invention.

As the storage medium, a magneto-optical disk,
An optical disk, a semiconductor memory, a magnetic recording medium, or the like can be used, and these may be configured and used in a ROM, a RAM, a CD-ROM, a floppy disk, a memory card, or the like.

The storage medium is a fixed memory such as a volatile memory such as an internal RAM of a computer system serving as a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. The one that holds the time program is also included.

The above-mentioned program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium.
The transmission medium refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.

The above program may be for realizing a part of the functions described above. Furthermore, what can realize the above-described function in combination with a program already recorded in the computer system, that is, a so-called difference file (difference program) may be used.

Accordingly, a computer-readable storage medium according to the present invention can be used as an apparatus or a device having a configuration other than the configurations shown in FIGS. 1, 3, 5, and 7 of the first to fourth embodiments. By using the system, the object of the present invention can be achieved.

[0055]

As described above, according to the present invention, when performing communication while coexisting with the other system different from the own system at the same carrier frequency, the effects of mutual interference and interference are suppressed. It is possible to accurately detect an interference wave reception level value required as a trigger for stopping the wave.

In particular, the provision of the interference signal level detection means and the interference signal level determination means makes it possible to accurately detect an interference wave reception level value of another system, for example, by a radar wave, and to reduce the influence thereof. be able to.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a wireless communication device according to a first embodiment of the present invention.

FIG. 2 is a timing chart for explaining the first embodiment.

FIG. 3 is a block diagram showing a wireless communication device according to a second embodiment of the present invention.

FIG. 4 is a timing chart for explaining a second embodiment.

FIG. 5 is a block diagram showing a wireless communication device according to a third embodiment of the present invention.

FIG. 6 is a timing chart for explaining a third embodiment.

FIG. 7 is a block diagram illustrating a wireless communication device according to a fourth embodiment of the present invention.

FIG. 8 is a timing chart for explaining a fourth embodiment.

FIG. 9 is a block diagram showing a conventional wireless communication device.

[Explanation of symbols]

101, 201, 301, 401 Antenna circuit 102, 202, 302, 402 Switch circuit 105, 205, 305, 405 Transmission control circuit 106, 206, 306, 406 Signal transmission circuit 107, 207, 307, 407 Interference signal level detection circuit 108, 208, 308, 408 Interference signal level determination circuit 109, 209 Frame setting circuit 303, 403 Received signal level detection circuit 304, 404 Received signal level determination circuit 310, 410 Counter circuit s101, s201, s301, s401 Received signal s102, s202, s302, s402 Antenna circuit output signal s103, s203, s303, s403 Switch circuit output signal s106, s206, s306, s406 Transmission control signal s107, s207, s307, s40 7 Transmission signal s108, s208, s308, s408 Transmission signal s109, s209, s309, s409 Interference signal level signal s110, s210, s310, s410 Level determination circuit output signal s111, s211 Frame control signal s212 Frame synchronization signal between own system stations s313 S413, transmission confirmation signal s314, s414 transmission permission signal

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masahiro Morikura 2-3-1 Otemachi, Chiyoda-ku, Tokyo F-term in Nippon Telegraph and Telephone Corporation (reference) 5K033 AA07 CA08 CB01 DA17 DB16 DB20 5K034 AA05 EE03 FF02 HH01 HH64 HH65 LL01 LL04 TT02

Claims (10)

[Claims] 1. A frame setting means for periodically setting a transmission permission period enabling transmission of a signal of a predetermined frequency; a receiving means for receiving an incoming wave signal of the predetermined frequency; and a signal received by the receiving means. An interference signal level detection means for detecting a reception level of an interference signal from another system; and an interference signal level determination means for determining whether a reception level of the interference signal detected by the interference signal level detection means has exceeded a threshold value When the interference signal level determination means determines that the threshold value has been exceeded, it outputs a transmission control signal for stopping transmission for a predetermined period, and when it determines that the threshold value has not been exceeded, the set transmission is performed. Transmission control means for outputting a transmission control signal for permitting transmission during a permission period; and signal transmission means for transmitting the signal in accordance with the transmission control signal. Wireless communication device. 2. A transmission permission period in which a frame synchronizing signal for synchronizing a frame between a plurality of stations in the system is input and a frame is synchronized between the stations based on the synchronizing signal. The wireless communication apparatus according to claim 1, wherein the interference signal level detection means detects a reception level of an interference signal from the other system in the interference wave detection period. 3. A signal transmitting means for transmitting a signal of a predetermined frequency, a counter means reset when the signal transmitting means ends transmission and starting counting of a predetermined time, and receiving an incoming wave signal of the predetermined frequency. Receiving means for detecting the reception level of a signal from a station in the own system from the signal received by the receiving means at the predetermined time; and the reception level detected by the reception signal level detection means Reception signal level determination means for determining whether or not a signal exceeds a threshold value; interference signal level detection means for detecting a reception level of an interference signal from another system from a signal received by the reception means at the predetermined time; Interference signal level determination means for determining whether the reception level of the interference signal detected by the signal level detection means has exceeded a threshold value; If the signal level is determined to exceed the threshold by the signal level determination means, and, if it is determined that the threshold is exceeded by the interference signal level determination means, the next transmission by the signal transmission means is stopped for each predetermined period, A transmission control means for performing a next transmission by the signal transmission means after a predetermined time is measured by the counter means when each of the level determination means determines that the threshold value is not exceeded. Communication device. 4. The wireless communication apparatus according to claim 3, wherein said reception signal level determination means resets said counter means when determining that said reception level exceeds said threshold value. 5. The apparatus according to claim 1, wherein the interference signal level detection means performs detection using an evaluation criterion of a crest factor which is a ratio between a reception peak power and a reception average power of the interference signal. The wireless communication device according to claim 1. 6. A frame setting process for periodically setting a transmission permission period for enabling transmission of a signal of a predetermined frequency, a reception process of receiving an incoming wave signal of the predetermined frequency, and a signal received in the reception process. An interference signal level detection process for detecting a reception level of an interference signal from another system, and an interference signal level determination process for determining whether the reception level of the interference signal detected in the interference signal level detection process exceeds a threshold value When it is determined that the threshold value has been exceeded in the interference signal level determination processing, a transmission control signal for stopping transmission for a predetermined period is output, and when it is determined that the threshold value has not been exceeded, the set transmission is performed. A transmission control process for outputting a transmission control signal for permitting transmission during a permission period, and a signal transmission process for transmitting the signal in response to the transmission control signal. Computer readable storage medium storing a gram. 7. A program for executing an input process for inputting a synchronization signal for establishing frame synchronization between a plurality of stations in the own system is stored, and in the frame setting process, based on the synchronization signal. A transmission permission period and an interference wave detection period that are frame-synchronized between the stations are set, and the interference signal level detection process detects a reception level of an interference signal from the other system in the interference wave detection period. 7. The computer-readable storage medium according to claim 6, wherein: 8. A signal transmission process for transmitting a signal of a predetermined frequency, a count process of resetting when transmission is completed in the signal transmission process to start counting for a predetermined time, and receiving an incoming wave signal of the predetermined frequency. Receiving process, a receiving signal level detecting process for detecting a receiving level of a signal from a station in the own system from a signal received in the receiving process at the predetermined time, and the receiving level detected in the receiving signal level detecting process Received signal level determination processing for determining whether or not a signal exceeds a threshold value; interference signal level detection processing for detecting a reception level of an interference signal from another system from a signal received in the reception processing at the predetermined time; An interference signal level determination process for determining whether or not a reception level of the interference signal detected in the signal level detection process exceeds a threshold; When it is determined that the threshold value is exceeded by the signal level determination process, and when it is determined that the threshold value is exceeded by the interference signal level determination process, the next transmission by the signal transmission process is stopped for each predetermined period, When it is determined that each of the level determination processes does not exceed the threshold, a program for executing a transmission control process for performing a next transmission by the signal transmission process after measuring a predetermined time by the counting process is stored. Computer readable storage medium. 9. A program for executing a reset process for resetting a count value by the counting process when it is determined by the received signal level determining process that the received level has exceeded the threshold value. The computer-readable storage medium according to claim 8, wherein: 10. The method according to claim 6, wherein in the interference signal level detection processing, detection is performed using a crest factor evaluation criterion that is a ratio between a peak reception power and a reception average power of the interference signal. 9. The computer-readable storage medium according to claim 8.