JP2001257604A - Transmission circuit for error correction and reception circuit in wireless communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that it is difficult to reduce the number of bit errors caused on a wireless transmission channel even when an error correction code is used in the case of application of an interference wave to a transmission signal and to also solve the problem of giving interference to an interfering station. SOLUTION: An interference wave detection circuit 14 detects or estimates a period when the reception sensitivity of an interference wave periodically transmitted with large transmission power is high, and a transmission control circuit 15 transmits no signal that is generated by an error correction coding circuit 11 and subjected to error correction coding as its control for the period so as to avoid the effect of an error having not been reduced even with the use of an error correction code. Furthermore, by controlling the stop of transmission for a period when the reception sensitivity of an interference wave is high, an error from an interference station is reduced and interference given onto the interference station is suppressed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio communication system for performing communication while coexisting with an interference wave transmitted at the same frequency and with a large transmission power, and particularly to the influence of interference between the two on each other. The present invention relates to an error correction transmission circuit and a reception circuit in a wireless communication system that perform error correction coding to transmit and receive a signal with reduced line quality when performing time segregation with reduced delay.

[0002]

2. Description of the Related Art In a radio communication system, an error correction method is generally applied to correct an error occurring in a radio transmission section. In this error correction method, data to be transmitted is encoded according to a specific encoding method, and transmission is performed. For example, in convolutional coding that has a high effect of improving random errors, 2-bit convolutionally encoded transmission data is output from the encoder every time one bit to be transmitted is input. In this case, the coding rate becomes 1/2. On the other hand, the receiving side decodes the demodulated data. In general, Viterbi decoding is applied to error correction codes that have been subjected to convolutional coding. In Viterbi decoding, a hard decision or a soft decision is performed on a demodulated signal symbol output from a detection circuit, and a decision value is output. The most likely transmission data is estimated using this determination value, and the estimated data is output. Errors are corrected in the operation of estimating this most likely data.

In order to enhance the effect of the error correction, a method of randomizing errors by interleaving an output signal of an encoder is also conceivable. Error correction methods such as convolutional coding and Viterbi decoding are introduced in TDMA Communication, Heiichi Yamamoto and Shuzo Kato, pp. 103-135, published by the Institute of Electronics, Information and Communication Engineers, 1989. In the error correction method, since transmission is performed by adding a redundant bit to a bit to be transmitted, transmission power increases compared to before performing error correction, but since error correction can reduce errors, High quality wireless communication can be realized.
In addition, since the transmission power can be reduced under a predetermined constant error rate, it has been often used in a wireless communication system having many errors on a transmission path.

FIG. 5 shows an example of the configuration of a transmission circuit as an example of a conventional error correction system, and FIG. 6 shows an example of the configuration of a reception circuit (Reference: system outline, Morikura et al., NTTR & D, vo
l. 48, Aug. 1999).

In the transmission circuit shown in FIG. 5, transmission data (a) is input to an error correction encoding circuit 61, and an error correction code (b) is output. In the interleave circuit 62, the error correction code (b) is interleaved to perform an operation for improving the resistance to random errors. The interleaved signal (c) is input to the modulation circuit 63, modulated according to a predetermined modulation method, and transmitted as a modulated signal (d). In the receiving circuit shown in FIG. 6, the received signal (m) is input to the detection circuit 64,
Output the demodulated symbol (n). In the soft decision circuit 65,
A soft decision is performed on the demodulated symbol (n), and a soft decision value (p) is output. The deinterleave circuit 66 performs deinterleave on the soft decision value (p) and outputs a deinterleave signal (q). Error correction decoding circuit 6
In 7, error correction decoding is performed using the deinterleaved signal (q), and data (r) is output.

As described above, in the conventional error correcting transmission / reception circuits shown in FIGS. 5 and 6, error correction coding is performed on the transmission side and error correction decoding is performed on the reception side. Correction of the generated error enables high quality wireless communication.

[0007]

As described above, a radio communication system using an error correction system can construct a high-quality radio communication system because it can correct an error occurring on a radio transmission path. it can. However, when an interference wave having a very large transmission power is added to the transmission frequency, the use of the error correction code is greatly affected. For example, there is a problem that a continuous burst error occurs in a section where interference is added. This problem is caused not only by an access method in which signals are continuously transmitted, but also by CSMA / CA (Carrier Sense Multiple Access / Collis) used in packet communication.
Ion Avoidance) The same problem arises when transmission is performed intermittently, as in a communication system.

[0008] The CSMA / CA communication system is a system for transmitting a packet. The CSMA / CA communication system is a best-effort type wireless access system in which a desired transmission frequency is observed for each transmission packet, and whether or not the transmission is available is measured before transmission. Often used.

In the CSMA / CA communication system, a desired transmission frequency is observed before transmission, and a packet can be transmitted if no other station is transmitting. Immediately after the packet transmission of a certain wireless station is completed and the wireless channel changes from busy (in use) to idle (vacant), the collision probability of simultaneous transmission of packets by a plurality of wireless stations suspended for transmission increases. To reduce this, each wireless station stops random time transmission and performs packet transmission after confirming that the channel is idle after the elapse of the random time.

When the packet time length to be transmitted is long, or when the interference wave is a pulse signal, CSMA / CA
The communication system is significantly affected. In the CSMA / CA communication system, a packet is transmitted when it is determined that the transmission frequency is idle. However, since the interfering station transmits a pulse signal at an arbitrary transmission interval, a packet having a long time length is transmitted. Is transmitted, it is determined that the channel is empty, and during the transmission period in which the packet is being transmitted, the pulse of the interference wave is transmitted and the problem of colliding with the packet frequently occurs.

When a collision occurs, burst errors occur frequently, and the use of an error correction code has a significant effect. Also, in this case, since the packet does not reach the destination station, the retransmission function of the upper layer operates, and an additional problem such as a decrease in throughput occurs. The interference station viewed from the CSMA / CA communication system side The problem of interference suffers from the effect of

Conversely, from the standpoint of the station transmitting the interference wave, when transmitting with an intermittent pulse signal, a packet is transmitted based on the CSMA / CA communication system and a collision occurs. Occurs, this pulse signal will not be received in the correct form by the partner station, and the packet signal will be an interference wave for the interfering station. Therefore, CSMA /
When viewed from the CA communication system side, there is a problem of interference that causes deterioration of characteristics on the interference station side. One example that must be considered when such a communication system that performs continuous or intermittent communication and an interference wave coexist at the same frequency is an outdoor base station and a fixed subscriber station. Fixed wireless access (FWA) is conceivable.
In the outdoors, various interference waves exist, and the period of the transmission signal and the transmission interval fluctuate. For this reason, it is desired to apply a CSMA / CA communication system capable of controlling the transmission timing according to the transmission path environment.

In FWA, CS is used as an access method.
The application of the MA / CA communication system is being studied. However, as described above, when an interference wave transmitting a pulse signal is added at an arbitrary transmission interval, the mutual influence is large. One of the interference sources is a weather radar. The transmission power of weather radar is very large, about 250 kW (about 8
4 dBm). In addition, a weather radar uses a parabolic antenna or the like with sharp directivity while rotating it at a constant period, transmits a pulse with a time length of several microseconds several hundred times a second to a target, and reflects the reflected wave. Are received and averaged to accurately capture the target. As described above, since the radar wave has a large transmission power and is transmitted such that intermittent pulse waves form a group, the influence of both the interfered and the interfered is remarkable.

As described above, conventionally, when an interference wave having a large transmission power exists at the same frequency with which a communication station wants to communicate,
Bit errors due to interference waves increase, and it is difficult to reduce even if an error correction code is used, so that high-quality communication cannot be performed. Further, when the communication station and the interference station use the same frequency, there is another problem that the communication station suppresses the influence of the interference on the interference station side.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has a transmitting station used in an access system such as CSMA / CA or a communication system for performing continuous transmission and an interference station represented by a weather radar or the like. Transmission power difference with
In addition, utilizing the fact that the interference wave periodically arrives because it is transmitted from the rotating antenna, and that the interference wave is transmitted as a pulse signal, (1) detecting the transmission period of the interference liquid (However, when the interference wave arrives at the communication station as a group of pulse signals, the transmission period is set to the passage period of the group). (2) When it is determined that the interference wave has been transmitted, the transmission is stopped. (3) If it is determined that the interference wave has been transmitted, reduce the coding rate of the error correction code. (4) Measure the reception sensitivity of the interference wave and increase the error correction code as the reception sensitivity increases. By lowering the coding rate and stopping transmission during the period when the reception sensitivity of the interference wave is higher than the set value, even if an error correction code is used when the interference wave is added, it occurs on the wireless transmission path. It is difficult to reduce bit errors Provided is an error correction transmission circuit in a wireless communication system that solves a problem and also stops the problem of interference given to an interference station by stopping transmission when it is determined that an interference wave is being transmitted. The purpose is to:

When detecting a period during which an interference wave pulse is being transmitted, the soft decision value is changed to a value that does not affect the likelihood, and the influence of the interference wave pulse on error correction decoding is suppressed. It is another object of the present invention to provide an error correction receiving circuit in a wireless communication system which solves the problem that it is difficult to reduce errors even when an error correction code is used when an interference wave is added. In this way, in the presence of an interference wave having a large transmission power, the effect of increasing the bit error due to the interference wave is reduced, and the influence of the interfered wave from the interference wave that is difficult to reduce even by using the error correction code is suppressed. Alternatively, it is an object of the present invention to provide an error correction transmitting circuit and a receiving circuit in a wireless communication system which realize a high quality wireless communication system capable of suppressing the influence of interference on an interference station.

[0017]

According to a first aspect of the present invention, there is provided an error correction transmitting circuit in a wireless communication system, comprising: An encoding circuit, a modulation circuit that modulates an output of the error correction encoding circuit, an interference wave detection circuit that receives an interference wave signal, and detects a transmission period during which the interference wave signal is transmitted, A control signal that is provided between an encoding circuit and the modulation circuit and that stops transmission of the output of the error correction encoding circuit for a certain period over a period indicated by the output of the interference wave detection circuit; And a transmission control circuit for supplying the circuit. With the above-described configuration, a period in which the reception sensitivity of an interference wave periodically transmitted with high transmission power is high is detected, and during that period, control is performed so that an error-correction-coded signal is not transmitted. Even if the correction code is used, it is possible to avoid the influence of the error that cannot be reduced. In addition, by performing control to stop transmission during a period in which the reception sensitivity of the interference wave is high, it is possible to reduce errors from the interference station and suppress interference to the interference station, thereby improving the effect of improving the error correction code. High quality wireless communication can be realized.

An error correction transmission circuit in the wireless communication system according to claim 2, wherein the interference wave signal is input, and an interference wave signal level detection circuit for detecting a reception signal level of the interference wave signal; A multi-stage threshold circuit that outputs the respective threshold information signals when the output of the level detection circuit is obtained as an input signal and the input signal sequentially exceeds a plurality of thresholds set in advance as time passes. An output of the interference wave transmission period detection circuit for detecting the transmission period for each reception signal level of the interference wave according to each of the threshold information signals, in addition to the transmission data,
An output signal of the multi-stage threshold circuit and the interference wave transmission period detection circuit is obtained as an input, and according to an output signal of the multi-stage threshold circuit, error correction coding is performed on the transmission data at each coding rate. A coding rate variable error correction coding circuit that generates and outputs an error correction coding signal over each period according to an output signal of the interference wave transmission period detection circuit; the coding rate error correction coding circuit; Each output signal of the stage threshold circuit and the interference wave transmission period detection circuit is obtained as an input, and when a threshold information signal that is equal to or more than a specific threshold is input, transmission data according to the output signal of the interference wave transmission period detection circuit is obtained. A transmission control circuit for generating a control signal for stopping the output for a certain period. With the above configuration, the reception sensitivity of the interference wave periodically transmitted with high transmission power can be detected stepwise, and the coding rate when performing error correction coding according to each step is adaptively changed to reduce the coding rate. Error correction coding is performed at a coding rate. Specifically, by performing an operation in which the coding rate decreases as the influence of the interference wave increases, the error correction capability of the signal, which is expected to increase the influence of the interference wave and increase the error, will be improved. This makes it possible to reduce the error that has been increased by the interference wave. In addition, by performing control to stop transmission during a period when the reception sensitivity of the interference wave is high, errors from the interference wave are reduced,
Moreover, reduction of interference given to the interference station is realized. From the above operation, high-quality wireless communication using the effect of improving the error correction code can be realized. By performing such an operation, high-quality wireless communication using the effect of improving the error correction code can be realized.

The transmitting circuit for error correction in the wireless communication system according to claim 3 obtains an interference wave signal as an input,
An interference wave detection circuit that detects a transmission period during which the interference wave signal is being transmitted, and an output of the interference wave detection circuit is obtained as an input, and over a period indicated by an output signal of the interference wave detection circuit, transmission data With the above-mentioned configuration, which includes a coding rate variable error correction coding circuit that performs error correction coding at a low coding rate, the reception sensitivity of an interference wave periodically transmitted with high transmission power is high. A certain period is detected, and in that period, the coding rate for performing error correction coding can be adaptively changed to perform error correction coding at a low coding rate. Therefore, it is possible to improve the error correction capability of a signal that is expected to increase the error due to the addition of the interference wave, and it is possible to reduce the error increased by the interference wave. By performing such an operation, high-quality wireless communication using the effect of improving the error correction code can be realized.

According to a fourth aspect of the present invention, there is provided a transmission circuit for error correction in a wireless communication system according to any one of the first to third aspects.
In the same circuit described in the paragraph, for the interference wave repeated at a constant period, the repetition period or the transmission period is estimated, and an interference wave that outputs a transmission period signal indicating the transmission period based on the estimated value A detection circuit is provided.
According to the above configuration, it is also possible to detect or estimate a period during which the reception sensitivity of an interference wave periodically transmitted with a large transmission power is high, and to adaptively change a coding rate when performing error correction coding during that period. Error correction coding can be performed at a low coding rate. Therefore, it is possible to improve the error correction capability of a signal that is expected to increase the error due to the addition of the interference wave, and it is possible to reduce the error increased by the interference wave.

The receiving circuit for error correction in the wireless communication system according to claim 5, performs a soft decision by obtaining a detection circuit for detecting a received signal and an output signal of the detection circuit as an input, and performs the soft decision value. And an error correction decoding circuit that obtains an output signal of the soft decision circuit as an input, performs error correction decoding, and obtains an interference wave pulse signal as an input, and the interference wave pulse signal is transmitted. And a soft decision value that is the output of the interference wave signal position detection circuit and the output of the soft decision circuit is supplied between the soft decision circuit and the error correction decoding circuit. And a soft decision value null signal insertion circuit that rewrites the soft decision value to a value indicating a likelihood of zero during a period when the interference wave signal position detection circuit output is input. An error correction receiving circuit in the wireless communication system according to claim 6 is the circuit according to claim 5, wherein the interfering wave pulse repeated at a constant cycle has a repetition period or a transmission period. And estimate
An interference wave pulse position detection circuit that outputs a transmission period signal indicating a transmission period based on the estimated value is provided. With the above configuration, an operation of detecting or estimating an interference wave pulse period periodically transmitted with a large transmission power and performing an operation of replacing a soft decision value of a demodulated signal received in that period with 0 is performed. When the interference wave pulse is added to the received signal, the soft decision value is greatly affected, and it is considered that the soft decision value is largely incorrect from the correct likelihood. For this reason, when performing the maximum likelihood estimation, the soft decision value at the time of receiving the interference wave pulse does not affect the preceding and following bits so that the erroneous soft decision value does not affect the estimated value of the other bits. The maximum likelihood estimation is performed by replacing the likelihood value. By performing the above operation, it is possible to improve the error correction capability of a signal that is expected to increase the error due to the addition of the interference wave, and to reduce the error increased by the interference wave. Accordingly, high-quality wireless overtrust using the improvement effect of the error correction code can be realized.

According to the present invention, each of the above-described configurations reduces the influence of an increase in bit error due to an interference wave in the presence of an interference wave having a large transmission power, and makes it difficult to reduce even if an error correction code is used. Reduce the effects of interference from the waves, or
It is possible to provide a transmission / reception circuit that realizes a high-quality wireless communication system capable of suppressing the influence of interference on the interference station side.

[0023]

FIG. 1 is a block diagram showing an embodiment of a transmission circuit in a wireless communication system according to the present invention. The transmission circuit in the wireless communication system of the present invention includes an error correction encoding circuit 11, an interleave circuit 12,
It comprises a modulation circuit 13, an interference wave detection circuit 14, and a transmission control circuit 15.

In the embodiment shown in FIG. 1, transmission data (a) is input to an error correction coding circuit 11, where error correction coding is performed, and a coded data signal (b) is output. The coded data signal (b) is input to the interleave circuit 12, and the interleaved signal (c) is output by performing interleaving. On the other hand, the interference signal (e) is input to the interference signal detection circuit 4,
Here, the transmission period of the interference signal is detected, and a control signal (f) indicating the transmission period of the interference signal is output. In the embodiment of the present invention shown here, the case where the transmission period of the interference signal is detected has been described. However, for the interference that is repeated at a fixed period, the period of the repetition and the period of the transmission are estimated. A transmission period signal (f) indicating a transmission period based on the value
It is naturally conceivable to output.

The transmission control circuit 15 receives the interleave signal (c) and the transmission period signal (f), and during the period in which the interference signal indicated by the control signal is being transmitted, the transmission control interleave signal (f). g) is not output. This is the feature of the embodiment of the present invention, which is realized by the interference signal detection circuit 14 and the transmission control circuit 15. The modulation circuit 13 performs modulation using the transmission control interleave signal (g), and outputs a transmission signal (d).

FIG. 2 is a block diagram showing another embodiment of the transmission circuit in the wireless communication system of the present invention. The transmission circuit in the wireless communication system of the present invention includes an interleave circuit 22, a modulation circuit 23, a transmission control circuit 25
A coding rate variable error correction coding circuit 26; an interference wave signal level detection circuit 27;
And an interference wave transmission period detection circuit 29.

In the embodiment shown in FIG. 2, the interference signal (e) is input to an interference wave signal level detection circuit 27,
Here, the reception sensitivity of the interference wave signal is measured, and a reception sensitivity signal (h) is output. In the interference signal multi-stage threshold circuit 28,
A plurality of thresholds are set, and when the thresholds are exceeded, a level signal (i) corresponding to the reception sensitivity signal is output. The interference wave transmission period detection circuit 29 detects a transmission period for each interference wave signal according to the output signal of each level, and outputs a transmission period signal (j). In the embodiment shown here, the case where each transmission period of each level of the interference signal is detected is shown. However, for interference that is repeated at a fixed period, the period of each repetition and the transmission period are estimated, It is of course conceivable to output a transmission period signal (j) indicating the transmission period based on this estimated value.

The transmission data (k) includes level signals (i),
The coding rate variable error correction coding circuit (f) is input to the coding rate variable error correction coding circuit (f) together with the transmission period signal (j), and determines the coding rate according to the level signal (i). Error correction coding is performed at the changed coding rate. Specifically, a method is conceivable in which the coding rate is reduced as the reception sensitivity of the interference wave increases. The coded data signal (l) is input to the interleave circuit 22, whereby the interleave signal (c) is output. In the transmission control circuit 25, when an interference signal power equal to or higher than a preset threshold value indicated by the level signal (i) with respect to the interleave signal (c) is input,
The transmission is stopped over the time indicated by the transmission period signal (j) corresponding to the level. Specifically, when a transmission period signal (j) indicating a period during which the interference wave is received most strongly is input, transmission stop control is performed and transmission is stopped.

The above description is a feature of the embodiment of the present invention shown in FIG.
7, an interference signal multi-stage threshold circuit 28, an interference wave transmission period detection circuit 29, a coding rate variable error correction coding circuit 26, and a transmission control circuit 25. The modulation circuit 23 performs modulation using the transmission control interleave signal (g),
A transmission signal (d) is output.

FIG. 3 is a block diagram showing still another embodiment of the transmission circuit in the wireless communication system of the present invention. The transmission circuit in the wireless communication system of the present invention includes an interleave circuit 32, a modulation circuit 33, an interference wave detection circuit 34, and a coding rate variable error correction coding circuit 36.

In the embodiment shown in FIG. 3, the interference wave signal (e) is input to the interference wave detection circuit 34, where the transmission period of the interference wave signal is detected and the transmission period indicating the transmission period of the interference wave signal is detected. The signal (f) is output. Here, the case where the transmission period of the interference wave signal is detected is shown. However, as in the embodiment shown in FIGS. It is of course conceivable to estimate the period of (1) and output the transmission period signal (f) indicating the transmission period based on the estimated value.

The transmission data (a) is a transmission period signal (f)
Is input to the coding rate variable error correction coding circuit 36, and during the period indicated by the transmission period signal (f), error correction coding with a reduced coding rate is performed, and the output of the coded data (b) is output. Done. This is a feature of the embodiment of the present invention shown in FIG. 3, and is realized by the interference wave detection circuit 34 and the coding rate variable error correction coding circuit 36. The coded data signal (b) is input to the interleave circuit 32, where interleaving is performed, and an interleave signal (c) is output. The modulation circuit 33 performs modulation using the interleaved signal (c) and outputs a transmission signal (d).

FIG. 4 is a block diagram showing one embodiment of a receiving circuit in the wireless communication system of the present invention. The receiving circuit in the wireless communication system of the present invention includes an interference signal pulse position detecting circuit 44, a detecting circuit 51, a soft decision circuit 52, a soft decision value null signal inserting circuit 53, a deinterleave circuit 54, an error correction decoding It is composed of a circuit 55.

In the embodiment shown in FIG. 4, a received signal (m) is input to a detection circuit 51, where detection is performed, and a demodulated signal (n) is output. The soft decision circuit 52 receives the demodulated signal (n), performs a soft decision here, and outputs a soft decision value (o). On the other hand, the interference pulse signal (e) is input to the interference signal pulse position detection circuit 44, where the pulse position period is detected, and the transmission period signal (f) is output. In the embodiment shown here, as in the embodiments shown in FIGS. 1 to 3, the case where the interference pulse signal period is detected has been described. It is naturally conceivable to estimate the period and output a transmission period signal (f) indicating the transmission period based on the estimated value.

Soft decision value signal (o) and transmission period signal (f)
Is NULL, which is input to the soft decision value null signal insertion circuit 53 and which is
Perform the operation of replacing the data with the corrected soft decision value signal (p).
Is output. This part is a feature of the embodiment shown in FIG.
4. This is realized by the soft decision value null signal insertion circuit 53.
The corrected soft decision value (p) is input to the deinterleave circuit 54, where deinterleaving is performed, and a deinterleaved corrected soft decision value signal (q) is output. The deinterleave corrected soft decision value signal (q) is input to an error correction decoding circuit 55, where error correction decoding is performed, and output data (r) is obtained.

As described above, the present invention provides a CSMA / C
A The transmission power difference between a transmitting station used in an access method such as A or a communication method for continuous transmission and an interference station represented by a weather radar or the like is large, and the interference wave is transmitted from a rotating antenna. (1) detecting the transmission period of the interference liquid by using the fact that the interference wave is transmitted as a pulse signal (however,
When the interference wave arrives at the communication station as a group of pulse signals, the transmission period is set to the passage period of the group). (2) When it is determined that the interference wave has been transmitted, the transmission is stopped; (3) If it is determined that the interference wave has been transmitted, reduce the coding rate of the error correction code. (4) Measure the reception sensitivity of the interference wave and encode the error correction code as the reception sensitivity increases. By lowering the rate and stopping transmission during the period when the reception sensitivity of the interference wave is higher than the set value, even if an error correction code is used when an interference wave is added, the bit error generated on the wireless transmission path can be reduced. The present invention solves the problem that mitigation becomes difficult, and also solves the problem of interference given to the interfering station by stopping transmission when it is determined that an interference wave is being transmitted.

When the period during which the interference pulse is transmitted is detected, the soft decision value is changed to a value that does not affect the likelihood, and the influence of the interference pulse on the error correction decoding is suppressed. Accordingly, it is possible to solve the problem that even if an error correction code is used when an interference wave is added, it is difficult to reduce errors. In this way, even if there is an interference wave with a large transmission power, the effect of an increase in bit errors due to the interference wave is reduced, and the influence of interference from the interference wave, which is difficult to reduce even using an error correction code, is suppressed. Alternatively, a high-quality wireless communication system capable of suppressing the influence of interference on the interference station side is realized. In the embodiment of the present invention, the transmitting circuit and the receiving circuit have been described as being independent, but they may be integrally realized. Further, the above-described interference wave transmission period and interference wave pulse period are generally detected. However, for interference that is repeated at a fixed period, the repetition period and the transmission period are estimated. It is of course conceivable to use an estimated signal of the transmission period or the interference wave pulse period based on the estimated value. In this case, the same effect can be obtained.

[0038]

As described above, according to the present invention, even if an interference wave having a large transmission power is present, the effect of increasing the bit error due to the interference wave is reduced, and it is difficult to reduce even if an error correction code is used. It is possible to minimize the influence of the interference from the interference wave or the influence of the interference on the interference station side. This makes it possible to provide an error correction transmitting / receiving circuit that realizes a high-quality wireless communication system. Further, in the receiving circuit of the present invention, when detecting or estimating the period during which the interference wave pulse is transmitted, the soft decision value is changed to a value that does not affect the likelihood, and the interference wave affecting the error correction decoding is changed. By suppressing the influence of the pulse, it is possible to solve the problem that even if an error correction code is used when an interference wave is added, it is difficult to reduce the error.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a transmission circuit for error correction in a wireless communication system of the present invention.

FIG. 2 is a block diagram illustrating another embodiment of an error correction transmission circuit in the wireless communication system of the present invention.

FIG. 3 is a block diagram showing still another embodiment of the transmission circuit for error correction in the wireless communication system of the present invention.

FIG. 4 is a block diagram showing an embodiment of an error correction receiving circuit in the wireless communication system of the present invention.

FIG. 5 is a block diagram illustrating a configuration example of an error correction transmission circuit in a conventional wireless communication system.

FIG. 6 is a block diagram illustrating a configuration example of an error correction receiving circuit in a conventional wireless communication system.

[Explanation of symbols]

11 error correction coding circuit, 12 (22, 32) ... interleave circuit, 13 (23, 33) ... modulation circuit, 14
(34) ... Interference wave detection circuit, 15 (25) ... Transmission control circuit, 26 ... Coding rate variable error correction coding circuit, 27 ... Interference wave signal level detection circuit, 28 ... Interference signal multi-stage threshold circuit, 29 ... Interference wave transmission period detection circuit, 36: coding rate variable error correction coding circuit, 44: interference signal pulse position detection circuit, 51: detection circuit, 52: soft decision circuit, 53: soft decision value null signal insertion circuit, 54 … Deinterleave circuit,
55 error correction decoding circuit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hajime Nakamura 2-3-1 Otemachi, Chiyoda-ku, Tokyo Inside Nippon Telegraph and Telephone Corporation (72) Inventor Tetsuya Shimizu 2-3-3, Otemachi, Chiyoda-ku, Tokyo No. 1 Inside Nippon Telegraph and Telephone Corporation (72) Mitsuhiro Baba Inventor 2-3-1 Otemachi, Chiyoda-ku, Tokyo Nippon Telegraph and Telephone Corporation (72) Noriyuki Nagamatsu 2-chome Otemachi, Chiyoda-ku, Tokyo No. 3-1 Nippon Telegraph and Telephone Corporation F term (reference) 5B001 AA10 AB02 AC05 AD06 5J065 AA03 AB01 AC02 AE06 AG06 AH21 5K014 AA01 AA02 BA10 FA16 GA00 HA05 5K060 BB05 BB07 CC04 CC11 GG03 HH01 LL04 PP03

Claims (6)

[Claims] 1. An error correction encoding circuit for error correction encoding transmission data and outputting a coded data signal; a modulation circuit for modulating the output of the error correction encoding circuit; An interference wave detection circuit that detects a transmission period during which a wave signal is being transmitted, provided between the error correction encoding circuit and the modulation circuit, and over a period indicated by an output of the interference wave detection circuit. A transmission control circuit for generating a control signal for stopping transmission of an error correction coding circuit output for a predetermined period and supplying the control signal to the modulation circuit. 2. An interference wave signal is input, an interference wave signal level detection circuit for detecting a reception signal level of the interference wave signal, and an output of the interference wave signal level detection circuit is obtained as an input signal. When sequentially exceeding a plurality of thresholds set in advance as time passes, a multi-stage threshold circuit that outputs each threshold information signal, and an output of the multi-stage threshold circuit is obtained as an input, An interference wave transmission period detection circuit that detects a transmission period for each reception signal level of an interference wave, and, in addition to transmission data, output signals of the multi-stage threshold circuit and the interference wave transmission period detection circuit are obtained as inputs, According to the output signal of the multi-stage threshold circuit, error correction coding is performed on the transmission data at each coding rate, and the transmission data is transmitted over each period according to the output signal of the interference wave transmission period detection circuit. A coding rate variable error correction coding circuit that generates and outputs an error correction coding signal, and outputs each output signal of the coding rate error correction coding circuit, the multi-stage threshold circuit, and the interference wave transmission period detection circuit. And a transmission control circuit for generating a control signal for stopping output of transmission data for a predetermined period according to an output signal of the interference wave transmission period detection circuit when a threshold information signal equal to or greater than a specific threshold is input. A transmission circuit for error correction in a wireless communication system, comprising: 3. An interference wave detection circuit for obtaining an interference wave signal as an input and detecting a transmission period during which the interference wave signal is being transmitted, and an output of the interference wave detection circuit for an input, the interference wave detection circuit Error correction coding circuit for performing error correction coding at a low coding rate on transmission data over a period indicated by the output signal of Transmission circuit. 4. An interference wave detection circuit for estimating a repetition period or a transmission period for an interference wave repeated at a constant period, and outputting a transmission period signal indicating a transmission period based on the estimated value. The transmission circuit for error correction in the wireless communication system according to claim 1, wherein the transmission circuit for error correction is provided. 5. A detection circuit for detecting a received signal, a soft decision circuit for performing a soft decision by receiving an output signal of the detection circuit as an input, and outputting the soft decision value, and an output signal of the soft decision circuit And an error correction decoding circuit that performs error correction decoding, and an interference wave pulse position signal detection circuit that obtains an interference wave pulse signal as an input and detects a period during which the interference wave pulse signal is transmitted, Between the soft decision circuit and the error correction decoding circuit, a period in which the output of the interference wave signal position detection circuit and the soft decision value that is the output of the soft decision circuit are supplied, and the output of the interference wave signal position detection circuit is input And a soft decision value null signal insertion circuit for rewriting the soft decision value to a value indicating a likelihood of zero. 6. An interference wave pulse position for estimating a repetition period or a transmission period for an interference wave pulse repeated at a constant period, and outputting a transmission period signal indicating a transmission period based on the estimated value. The receiving circuit for error correction in the wireless communication system according to claim 5, further comprising a detection circuit.