JPH0946766A - Station, network and communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a station capable of performing error correction encoding of a transmission signal only when a transmitted signal is a long one. SOLUTION: The transmission controller 101 of a transmission part 12 monitors the transmission signal generated in a signal processor 16. When the transmission signal is generated, the transmission controller 101 refers to signal length detected by a signal length measuring instrument 102, and decides whether or not the signal length is longer than a reference value decided in advance. When the former is longer than the latter, the transmission signal is delivered to an error correction encoder 103 to heighten the reliability of the transmission signal. Conequently, the error correction encoder 103 performs the error correction encoding on the transmission signal and transmits it to a radio channel by using a transmitter 105. While, when the signal length is shorter than the reference value decided in advance, the transmission controller 101 transmits the transmission signal to the radio channel by directly delivering to the transmitter 105.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a station, a network, and a communication system that communicate using a wireless channel. More specifically, the present invention relates to a mobile station, a base station, a network, and a communication system that perform error correction coding on a transmission signal according to communication conditions.

[0002]

2. Description of the Related Art In a mobile communication system, the line quality of a radio channel changes temporally and locally due to fluctuations in reception level (fading) caused by movement of a mobile station. If the channel quality is good, no error will occur in the signal transmitted between the mobile station and the network. However, when the line quality deteriorates, an error occurs in the signal. In order to correct this error and improve the reliability of the line, the error correction (FE
A method of performing C) and retransmission (ARQ) can be considered. In error correction, a signal transmitting side adds information for correcting an error to a transmission signal. The receiving side corrects the error of the signal by referring to the information for correcting the error. For error correction coding, various methods with different correction capabilities are known. Generally, the higher the correction capability, the more the amount of information for error correction increases, and the smaller the signal transmission capacity of the wireless channel. .

[0003]

In the conventional mobile communication system, an error correction coding system capable of guaranteeing sufficient signal transmission reliability even when the line quality of the radio channel is poor is selected, and this correction code is selected. I always use the system.
However, even when the line quality becomes good, the error correction coding is performed as it is, so that there is a problem that the signal transmission capacity of the wireless channel is wasted accordingly.

In the mobile communication system, the required transmission reliability differs depending on the type of signal. For example, in order to perform communication control correctly, the signal for communication control is required to have higher reliability than other signals. In the conventional mobile communication system, when a plurality of types of signals are transmitted on one radio channel, if even one signal requires reliability, error correction coding is always used for signal transmission on the radio channel. To ensure reliability. However, in this method, since the signal for which reliability is not required is also error correction coded, the signal transmission capacity of the wireless channel is wasted accordingly.

Further, in the mobile communication system, signals of various lengths are transmitted on the radio channel, but the longer the signal, the more susceptible it is to changes in the line quality, and the lower the transmission reliability. In the conventional mobile communication system, in order to guarantee the transmission reliability of a long signal, error correction coding is always used for signal transmission of a wireless channel to ensure the reliability. However, according to this method, even a short signal with sufficient transmission reliability can be subjected to error correction coding without performing error correction coding, so that the signal transmission capacity of the wireless channel is wasted accordingly.

Therefore, the present invention determines whether or not to perform error correction coding according to the type of the transmission signal or the length of the transmission signal, so that the error correction code is not impaired without impairing the reliability of signal transmission. It is an object of the present invention to provide a mobile station, a network, and a communication system capable of minimizing a decrease in the signal transmission capacity of a wireless channel due to the optimization. Another object of the present invention is to provide a station and a communication system that can efficiently perform error correction coding on a transmission signal when a signal undergoing error correction coding is received.

[0007]

In order to achieve the above-mentioned object, the invention according to claim 1 is a station for performing communication using a radio channel, and a signal processing means for generating a transmission signal, When the length of the transmission signal generated by the signal processing means satisfies a predetermined condition, error correction encoding means for error correcting encoding the transmission signal, and error correction encoding by the error correction encoding A means for transmitting a transmission signal using the radio channel, and a transmission signal generated by the signal processing means when the length of the transmission signal generated by the signal processing means does not satisfy the predetermined condition. Means for transmitting using the wireless channel.

According to a second aspect of the present invention, there is provided a station that performs communication using a wireless channel, the signal processing means generating a transmission signal, and the type of the transmission signal generated by the signal processing means. If a predetermined condition is satisfied, error correction coding means for error correction coding the transmission signal,
Means for transmitting a transmission signal error-correction-coded by the error-correction encoding using the wireless channel, and the signal if the kind of the transmission signal generated by the signal processing means does not satisfy the predetermined condition Means for transmitting the transmission signal generated by the processing means using the wireless channel.

Further, the invention according to claim 3 is a station which communicates using a radio channel, and means for judging whether or not a received signal received from the radio channel is error correction coded. And error correction decoding means for performing error correction decoding of the received signal when the received signal is error correction coded.

Further, the invention according to claim 4 is a station which communicates using a wireless channel, and means for judging whether or not a received signal received from the wireless channel is error correction coded. , When the received signal is error correction coded, error correction decoding means for error correction decoding the received signal, signal processing means for generating a transmission signal, and the last received from the radio channel When the received signal is error-correction coded, the transmission signal generated by the signal processing means is error-correction coded and is transmitted using the wireless channel, and lastly received from the wireless channel. Means for transmitting the transmission signal generated by the signal processing means using the radio channel when the reception signal is not error correction coded. The features.

According to a fifth aspect of the present invention, there is provided a station for performing communication using a wireless channel, and determining means for determining whether or not a received signal received from the wireless channel is error correction coded. And, when the received signal is error correction coded, error correction decoding means for error correction decoding the received signal, signal processing means for generating a transmission signal, and last received from the wireless channel. When the signal is error-correction coded, means for error-correction-encoding the transmission signal and transmitting it using the wireless channel until a predetermined period elapses after receiving the signal,
Generated by the signal processing means when the signal last received from the radio channel is not error correction coded and when the predetermined period has elapsed since the last signal received from the radio channel Means for transmitting a transmission signal using the wireless channel.

Further, the invention according to claim 6 is a station for performing communication using a wireless channel, and a judging means for judging whether or not a received signal received from the wireless channel is error correction coded. And, when the received signal is error correction coded, error correction decoding means for error correction decoding the received signal, signal processing means for generating a transmission signal, and last received from the wireless channel. When the signal is not error correction coded, means for transmitting the transmission signal using the wireless channel and the last reception from the wireless channel until a predetermined period of time elapses from the reception of the signal. Generated by the signal processing means if the signal is error correction coded and if the predetermined period of time has elapsed since the signal was last received from the radio channel. The transmission signal is error correction coding, characterized by comprising means for transmitting with the radio channel.

According to the invention of claim 7,
The station according to any one of claims 1 to 6, wherein the station is a mobile station that communicates using a wireless channel.

Further, in the invention described in claim 8,
At least one of the base stations is a network having a base station that communicates using the station radio channel according to any one of claims 1 to 6.

In the invention described in claim 9,
A communication system having a base station and a mobile station that communicate using a wireless channel, wherein at least one of the base stations is the station according to any one of claims 1, 2, 4, 5, and 6. When the mobile station that communicates with the base station, the determining means that determines whether the received signal received from the wireless channel is error correction coded, and the received signal is error correction coded, Error correction decoding means for performing error correction decoding on the received signal.

[0016] In the invention described in claim 10, in the communication system according to claim 9, the mobile station communicating with the at least one base station includes signal processing means for generating a transmission signal. If the signal last received from the radio channel is error correction coded, the transmission signal is error correction coded and transmitted using the radio channel in a predetermined period after receiving the signal. Generated by the signal processing means when the signal last received from the wireless channel is not error correction coded, and when the predetermined period has elapsed since the last signal received from the wireless channel. Means for transmitting the generated transmission signal using the wireless channel.

The invention according to claim 11 is a communication system having a base station and a mobile station that perform communication using a radio channel, wherein at least one of the mobile stations comprises: 4. The station according to any one of 4, 5, and 6, wherein the base station communicating with the mobile station determines whether the received signal received from the wireless channel is error correction coded. And an error correction decoding means for performing error correction decoding on the received signal when the received signal is error correction coded.

Further, in the invention described in claim 12, in the communication system according to claim 11, the base station communicating with the at least one mobile station includes signal processing means for generating a transmission signal. , If the last received signal from the radio channel is error correction coded,
A means for error-correcting coding the transmission signal and transmitting it using the wireless channel in a predetermined period after receiving the signal; and a case where the signal last received from the wireless channel is not error-correcting coding , And means for transmitting the transmission signal generated by the signal processing means using the wireless channel when the predetermined period has elapsed since the signal was last received from the wireless channel. And

The invention according to claim 13 is a communication system having a base station and a mobile station that perform communication using a radio channel, wherein at least one of the base stations is defined by claim 1, 2, 4. The station according to any one of 4, 5, and 6, wherein at least one mobile station determines whether or not a reception signal received from the wireless channel is error correction coded; When the signal is error correction coded, error correction decoding means for error correction decoding the received signal, signal processing means for generating a transmission signal, and error correction for the signal last received from the radio channel When not encoded, means for transmitting the transmission signal using the wireless channel until a predetermined period of time has elapsed since the signal was received; When the received signal is error correction coded, and when the predetermined period of time has elapsed since the signal was last received from the radio channel, the transmission signal generated by the signal processing means is error correction coded. And a means for transmitting the data using the wireless channel.

According to a fourteenth aspect of the present invention, there is provided a communication system having a base station and a mobile station that perform communication using a radio channel, wherein at least one mobile station has one of the first, second, fourth, and fifth aspects. 5. The station according to any one of 5 and 6, wherein at least one base station determines whether the received signal received from the wireless channel is error correction coded, and the received signal is erroneous. When correction coded, the error correction decoding means for error correction decoding the received signal, the signal processing means for generating a transmission signal, and the signal last received from the wireless channel are error correction coded. If not, a means for transmitting the transmission signal using the wireless channel and a last reception from the wireless channel until a predetermined period has elapsed after receiving the signal. Signal is error correction coded, and when the predetermined period has elapsed since the signal was last received from the radio channel, the transmission signal generated by the signal processing means is error correction coded. Means for transmitting using the wireless channel.

With the above configuration, the station according to claim 1 performs error correction coding on the transmission signal when the length of the transmission signal satisfies a predetermined condition. Therefore, when the line quality is constant. Even in this case, it is possible to perform error correction coding on a long signal in which an error is likely to occur. Further, when the length of the transmission signal does not satisfy the predetermined condition, the transmission signal is transmitted without error correction coding, so that it is possible to prevent the transmission data capacity on the wireless channel from being wasted when transmitting the short transmission signal. be able to.

Further, the station according to claim 2 performs error correction coding on the transmission signal and transmits it when the type of the transmission signal satisfies a predetermined condition. When the type of the transmission signal does not satisfy the predetermined condition, the transmission signal is transmitted without error correction coding. Therefore, for example, it is possible to perform switching control in which a less important signal is subjected to error correction coding with an emphasis on efficiency, and an important signal is subjected to error correction coding in order to increase the transmission elaboration probability. The station according to claim 3 determines whether or not the received signal is error correction coded,
Only when it is error correction coded, the received signal is error correction decoded. Therefore, even if signals that have not been error-coded are mixed, it is possible to properly deal with them.

According to another aspect of the present invention, when the received signal is error correction coded, the received signal is error correction decoded. If the last received signal is error correction coded, the transmission signal is error correction coded and transmitted. Therefore, it is possible to perform transmission according to the communication partner, and if the last received signal is not error correction coded, the transmission signal is sent as it is without being error correction coded. If is good, it is possible to prevent the transmission capacity from being wasted by the error correction coding.

The station according to the fifth aspect performs error correction decoding on the received signal when the received signal is error correction coded. When the signal last received from the wireless channel is error correction coded, the transmission signal is error correction coded until a predetermined period elapses after the signal is received. If the signal received last from the wireless channel is not error correction coded, or if a predetermined period has elapsed since the last signal received from the wireless channel, leave the transmission signal as it is without error correction coding. Send. When no signal is received, the error correction coding is stopped after the lapse of a predetermined period, so that waste of transmission capacity can be prevented.

According to the invention of claim 6, claim 5
Contrary to the above case, normally, error correction coding of the transmission signal is performed, and when the signal received from the partner station is not error correction coding, error correction coding of the transmission signal is not performed for a certain period. Such a configuration is suitable in a situation where the line quality is usually poor and sometimes good. That is, when the partner station does not perform error correction coding, it is determined that the line quality is good, and therefore transmission is performed without error correction coding for a certain period in order to improve communication efficiency. In this case, error correction coding is performed before transmission.

According to the invention described in claim 7, the mobile station determines whether or not the transmission signal is error-corrected. According to the invention described in claim 8, at least one of the base stations in the network judges whether or not the transmission signal is error-corrected. In the communication system according to the ninth aspect, the base station determines whether or not the transmission signal is error-corrected based on the transmission signal length or the type of the transmission signal. The mobile station performs error correction decoding on the received signal when the received signal received from the base station is error correction coded.

In the communication system according to the tenth aspect, the base station determines whether or not the transmission signal is error-corrected based on the transmission signal length or the transmission signal type. When the last received signal is error correction coded, the mobile station performs error correction coding on the transmission signal until a predetermined period elapses after receiving the signal. In addition, the mobile station, if the signal last received from the radio channel is not error correction coded,
And, when a predetermined period has elapsed since the signal was last received from the wireless channel, the transmission signal is transmitted as it is without being subjected to error correction coding.

In the communication system according to the eleventh aspect, at least one mobile station determines whether or not the transmission signal is error correction coded based on the signal length or the signal type. The base station performs error correction decoding on the received signal when the received signal received from the mobile station is error correction coded.

In the communication system according to the twelfth aspect, at least one mobile station in the network determines whether or not the transmission signal is error correction coded based on the signal length or the signal type. When the signal received last from the wireless channel is error correction coded, the base station performs error correction coding on the transmission signal until a predetermined period elapses after receiving the signal. If the last received signal from the wireless channel is not error correction coded, and if a predetermined period has elapsed since the last received signal from the wireless channel,
The transmission signal is transmitted as it is without being subjected to error correction coding. Therefore, it is possible to prevent the communication band from being wasted by useless error correction codes.

In the communication system according to the thirteenth aspect, the base station determines whether or not the transmission signal is error correction coded based on the signal length or the signal type. Contrary to the cases of claims 11 and 12, the mobile station normally performs error correction coding of the transmission signal, and when the signal received from the partner station is not error correction coding, the error correction code of the transmission signal. Do not convert for a certain period of time.

In the communication system according to the fourteenth aspect, the mobile station determines whether or not the transmission signal is error correction coded based on the signal length or the signal type. Contrary to the cases of claims 11 and 12, the base station normally performs error correction coding of the transmission signal, and when the signal received from the partner station is not error correction coding, the error correction code of the transmission signal. Do not convert for a certain period of time.

[0032]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail with reference to the drawings. (Embodiment 1) FIG. 1 shows a functional configuration of Embodiment 1 of the communication system of the present invention. The communication system includes a network 30 having a base station 20 and a mobile station 10. The mobile station 10 includes a signal processing device 1 that processes signals to be transmitted and received.
6, a transmission unit 12 that processes a transmission signal generated by the signal processing device 16, and a reception unit 14 that processes the received signal and transfers the processed signal to the signal processing device 16. Similarly to the mobile station 10, the base station 20 also processes a signal to be transmitted and received, a signal processing device 26, a transmission unit 22 that processes a transmission signal generated in the signal processing device 26, and a signal processing device 26 that processes a received signal. It has the receiving part 24 which transfers to.

In this embodiment, the transmitters 12 and 22 determine whether or not to perform error correction coding according to the length (signal length) of the transmission signal. The receiving units 14 and 24 detect whether or not the received signal is error-correction coded, and if it is error-correction coded, error-correction decode the received signal. FIG. 2 shows a detailed functional block diagram of the transmission unit 12 in the mobile station 10. In FIG. 2, the signal length measuring device 102 measures the length of the transmission signal. In this case, the signal length measuring device 102 detects the signal length from the signal length data included in the transmission signal. The signal length data is data indicating the length of the transmission signal, and, for example, by the processing of the signal processing device 16,
It is arranged in the header portion of the transmission signal or the like. When the transmission signal does not include signal length data, the signal length measuring device 1
02 may actually measure the length of the transmitted signal to detect the signal length. In addition, the signal processing device 16 that creates a transmission signal
Can recognize the length of the transmission signal at the time of creation, the signal length recognized at this time can be used as the signal length measuring device 1.
02 may be transferred.

Next, the transmission signal control device 10 determines whether or not the transmission signal is error-correction coded based on the signal length detected by the signal length measuring device 102. By the way, it is known that the relationship between the signal length and the transmission success rate has the following relationship. P = (1−E) ^L (1) where P is the signal transmission success rate, L is the signal length, and E is the error rate per unit length of the signal. Then, assuming that the desired transmission success rate is Pth, the signal length L for satisfying this
th is obtained from the following equation. Lth = log Pth / log (1-E) (2)

Therefore, if the signal length exceeds Lth, the desired transmission success rate cannot be obtained. Therefore, sufficient error correction coding is performed for transmission, and if the signal length is Lth or less, the desired transmission success rate is obtained. Therefore, the signal can be transmitted without performing error correction coding. The transmission control device 101 in this embodiment has a desired transmission success rate Pt.
The reference signal length Lth corresponding to h is preset.
Then, the transmission control device 101 uses the signal length measuring device 102.
The signal length detected by the reference signal Lth is compared with the reference signal length Lth, and based on the comparison result, it is determined whether or not the correction coding is performed.

The error correction coding device 103 performs error correction coding on the transmission signal when the transmission control device 101 determines to perform error correction coding. The transmission device 105 transmits the transmission signal transmitted from the transmission control device 101 or the error correction coding device 103 on a wireless channel. Base station 20
Since the functional configuration of the transmitting unit 22 is the same as that of the transmitting unit 12, detailed description thereof will be omitted.

FIG. 3 shows a block diagram of the receiving section 24 of the base station 20. In FIG. 3, the receiving device 204 receives a signal from a wireless channel. Error correction coding detection device 20
2 detects whether the signal received by the receiving device 204 is error correction coded. The reception control device 201 is
Based on the presence or absence of the error correction coding detected by the error correction coding detection device 202, it is determined whether or not the received signal is error correction decoded. The error correction decoding apparatus 203 performs error correction decoding on the received signal when the reception control apparatus 201 determines to perform error correction decoding. The signal processing device 26 processes the reception signal sent from the reception control device 201 or the error correction decoding device 203. The functional configuration of the receiving unit 14 of the mobile station 10 is the same as that of the receiving unit 24.

Next, the operation of this embodiment having the above-mentioned configuration will be described. FIG. 4 is a flowchart showing the operation of the transmission unit 12 of the mobile station 10. First, step (hereinafter S
Abbreviated. ) 31, the transmission controller 10 of the transmitter 12
1 monitors a transmission signal generated by the signal processing device 16. When the transmission signal is generated, the transmission control device 101 refers to the signal length detected by the signal length measurement device 102 and determines whether the signal length is longer than a predetermined reference value (S3).
2). If the signal length is longer than the reference value, the transmission signal is passed to the error correction coding device 103 in order to improve the reliability of the transmission signal (S33). As a result, the error correction coding apparatus 103 performs error correction coding and transmits the transmission signal to the wireless channel using the transmission apparatus 105.

On the other hand, if the signal length is less than or equal to the predetermined reference value, the transmission control device 101 passes the transmission signal directly to the transmission device 105 and transmits it to the radio channel (S35).
The operation of the transmission unit 22 of the base station 20 is the same as that of the transmission unit 12 described above, and thus detailed description thereof will be omitted.

FIG. 5 shows the operation of the receiving section 24 of the base station 20. The reception control device 201 of the reception unit 24 is the reception device 2
04 is monitored (S41). When the reception device 204 receives the signal, the error correction coding detection device 202 is used to detect whether or not the received signal is error correction coded (S).
42). If the received signal is error correction coded, the received signal is passed to the error correction decoding device 203 (S44). Then, the error correction decoding device 203 performs error correction decoding of the received signal and passes it to the signal processing device 26. If the received signal is not error correction coded, the received signal is passed directly to the signal processing device 26. The above is the reception operation of the base station 20,
The operation of the receiving unit 14 of the mobile station 10 is also the same as that of the receiving unit 24 described above.

According to the present embodiment, since the signal length of the transmission signal is continuously detected during transmission and it is determined whether or not the error correction coding is performed, the transmission signal having a low error probability is not error correction coding. Therefore, while maintaining the desired transmission success rate,
It is possible to prevent the transmission data capacity of the wireless channel from being wasted. In the above description, the transmission unit and the reception unit of the mobile station 10 and the transmission unit and the reception unit of the base station 20 have the same functional configuration, and each transmission unit transmits according to the communication condition (signal length). The signal was error correction coded. However, only one of the transmission units of the base station and the mobile station may perform error correction coding on the transmission signal according to the signal length.

(Embodiment 2) In this embodiment, the mobile station 1
0 and the transmitter of the base station 20 determine whether to perform error correction coding according to the type of transmission signal. For example, control is performed so that a communication control signal that requires reliability is error-correction coded and other transmission signals are not error-correction coded.

On the other hand, the receiving unit detects whether or not the received signal is error-correction coded as in the above-described embodiment, and if it is error-correction coded, performs error-correction decoding. FIG. 6 shows a functional block diagram of the transmission unit 12 of the mobile station 10. In this block diagram, the signal length measuring device 102 is omitted as compared with the configuration shown in FIG. 2, but the other configurations are almost the same as the configuration shown in FIG. FIG. 7 shows the operation of the transmission control device 101 of the transmission unit in this embodiment. The transmission control device 101 monitors the signal generated from the signal processing device 16 (S91). When the transmission signal is generated, the type of the transmission signal is determined (S92). If the type of the transmission signal requires a predetermined error correction encoding, the transmission signal is passed to the error correction encoding device 103 (S
93).

In the present embodiment, the signals that require error correction coding are determined as follows. Since the control signal used for controlling the line has a high degree of demand for the transmission success probability, error correction coding is performed. Data signals that are used for user information transmission and that are not retransmitted (data signals that are transmitted only once without checking whether transmission has succeeded) have high transmission success probability requirements.
Perform error correction coding. The data signal to be retransmitted by the user, which is the data signal to be retransmitted (when the transmission fails, is repeatedly transmitted until a predetermined number of times or until it succeeds), is not required to be error-corrected because the transmission success probability is low. . As described above, in the present embodiment, the signal type is 3
The presence or absence of error correction is switched according to the type. Here, the type of transmission signal is detected as follows, for example.

In the signal processing process in the signal processing device 16, the processing process differs depending on the type of signal.
Therefore, the type of signal can be detected by recognizing which process the signal has undergone. Then, the signal processing device 16 adds the identification data corresponding to the detection result to the transmission signal and transfers the transmission signal to the transmission control device 101. The identification data in this case is added to, for example, the header portion of the transmission signal. The transmission control device 101 knows the type of signal from the identification data added to the header section and determines the presence or absence of error correction according to this type.

In general, since the signal processing device 16 recognizes which type of signal is being generated, special processing for detecting the signal type is unnecessary. Further, the signal processing device 16 may send identification data indicating a signal type to the transmission control device 110 separately from the transmission signal.

If the type of the transmission signal requires a predetermined error correction coding, the transmission signal is transferred to the error correction coding device 103 (S93), where the error correction coding is performed. Then, the transmission device 105 transmits to the wireless channel. On the other hand, if it is determined in step S92 that the type does not require error correction coding, the transmission signal is directly transferred to the transmission device 105 and transmitted to the wireless channel (S94).

The operations of the receiving unit 14 of the mobile station 10 and the receiving unit 24 of the base station 20 are the same as the operations of the receiving unit of the first embodiment, and the description thereof will be omitted. Further, one of the mobile station 10 and the base station 20 determines whether or not to perform error correction coding according to the type of the transmission signal, and the other one is based on whether or not the reception signal is error correction coding. The transmission signal may be error correction coded.

(Embodiment 3) In this embodiment, the mobile station 1
0 performs error correction coding on the transmission signal only for a predetermined time after receiving the error correction coded signal. FIG. 8 shows a functional block diagram of the mobile station 10 in this embodiment. The transmission unit 12 of the mobile station 10 has a timer device 110 that measures a predetermined time in addition to the configuration of FIG. 6 in the second embodiment. Since the configuration of the entire communication system and the configuration and operation of the base station 20 are the same as those in the first embodiment, their description will be omitted.

Next, the characteristic operation of this embodiment will be described. FIG. 9 is a flowchart showing the operation of the reception control device 201 of the mobile station 10. First, the reception control device 2
01 is used to determine whether the receiving device 204 has received a signal (S71). When the reception signal is generated, it is referred to whether or not the error correction coding detection device 202 detects the error correction coding of the reception signal (S72). If the received signal is error correction coded, the received signal is passed to the error correction decoding device 203 (S73). As a result, the error correction decoding device 203 performs error correction decoding of the received signal and passes it to the signal processing device 16. Further, when the received signal is passed to the error correction decoding device 203, it is immediately determined whether or not the timer device 110 is operating (S74). If the timer device 110 is stopped, the count of the timer device 110 is started (S76), and if the timer device 110 is operating, the count value is reset (S75). As described above, when the error-correction-coded signal is received, the operation of the timer device 110 is started or the count value thereof is reset (count restart). on the other hand,
If the received signal is not error correction coded, the received signal is passed to the signal processing device 16 (S78) and the timer device 110 is stopped (S77).

Next, the operation of the transmission control device 101 will be described with reference to FIG.
This will be described with reference to FIG. The transmission control device 101 monitors the signal generated by the signal processing device 16 (S81), and refers to the state of the timer device 110 when the transmission signal is generated (S82). When the timer device 110 is operating, the transmission signal is passed to the error correction coding device 103. Then, the error correction coding apparatus 103 performs error correction coding, and the transmitting apparatus 105 transmits the signal to the wireless channel. On the other hand, if the timer device 110 is stopped, the direct transmission device 105 directly transmits a signal to the wireless channel.

Here, the state of the timer device 110 is controlled by the process shown in FIG. 9, but the timer device 110 is in operation for a predetermined time after receiving the error correction coded signal (S75, S76). reference). Therefore, in the transmission process shown in FIG. 10, the transmission signal is also error-correction-coded within a predetermined time after the signal that has been error-correction-coded is last received, while after the predetermined time has passed, or ,
When a signal that has not been error-corrected is received, error-correction coding of the transmission signal is stopped. As described above, in the present embodiment, even if an error-corrected signal is received, the error-correction coding is stopped after the time measured by the timer has elapsed. For this reason, error correction coding is not unnecessarily performed, and it is possible to prevent waste of transmission data capacity on the wireless channel.

The mobile station 10 and the base station 20 may have the same transmission / reception function, and as in the first and second embodiments, one station (the mobile station 10 or the base station 20) has a long transmission signal length. Whether or not the error correction coding is possible is determined based on the pod type, and the other station (base station 20 or mobile station 10) determines whether the transmission signal is error correction coded based on the presence or absence of the error correction coding of the received signal. You may decide whether or not to accept.

(Others) In the first embodiment, the following modifications are possible.
That is, since the signal length has a high correlation with the error rate,
A table or the like showing the relationship between the signal length and various conditions corresponding thereto may be prepared in advance, and the presence or absence of error correction coding may be switched depending on whether or not the condition obtained from this table is satisfied.

It is also possible to construct a communication system combining the inventions described in the first to fourth embodiments. For example, 2 in the type of transmission signal and the length of the transmission signal.
It may be determined based on the above parameters whether or not the transmission signal is error correction coded. Further, the line quality may be added to the parameter. Further, the reference value, the function value, or the value on the table used in this case may be received from the communication partner.

Further, in the third embodiment, the transmission signal is error-coded only for a predetermined time after the error-correction-coded signal is received. Error correction coding may be performed, and when the signal received from the partner station is not error correction coded, the error correction coding of the transmission signal may not be performed for a certain period.

Such a configuration is suitable in a situation where the line quality is usually poor and the line quality is sometimes good. That is, when the partner station does not perform error correction coding, it is determined that the line quality is good, and therefore transmission is performed without error correction coding for a certain period in order to improve communication efficiency. In this case, error correction coding is performed before transmission. Further, the presence / absence of error correction of the transmission signal may be immediately switched depending on whether or not the reception signal is error-corrected without providing the timer device. As described above, there are various modes for determining the presence / absence of error correction of the transmission signal depending on whether or not the reception signal is error corrected. In short, an appropriate mode may be set based on the state of the communication channel, the required transmission success probability, and the like.

As an example of the error correction coding, for example,
BCH error correction code, Reed-Solomon error correction code, etc.
Well-known encoding can be used.

[0059]

As is apparent from the above description, according to the present invention, whether or not to perform error correction coding is determined according to the type of signal, so that a transmission signal that requires high reliability is used. Only one can be error correction coded. Further, according to the present invention, whether or not to perform error correction coding is determined according to the signal length, so that it is possible to perform error correction coding only on a long signal that is highly likely to cause an error in a transmission signal. Further, since the presence / absence of error correction coding of the transmission signal can be switched depending on whether or not the received signal is error corrected, the balance between reliability and transmission efficiency can be selected according to the situation. Therefore, according to the present invention, it is possible to suppress the waste of the signal transmission capacity of the wireless channel due to the error correction coding without impairing the reliability of the signal transmission.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a communication system according to a first exemplary embodiment.

FIG. 2 is a block diagram showing a configuration of a transmission unit 12 according to the first embodiment.

FIG. 3 is a block diagram showing a configuration of a receiving unit 24 according to the first embodiment.

FIG. 4 is a flowchart showing an operation of the transmission control device 101 of the transmission unit 12 in the first embodiment.

FIG. 5 is a flowchart showing an operation of the reception control device 201 of the reception unit 24 according to the first embodiment.

FIG. 6 is a block diagram showing the configuration of a mobile station 10 according to the second embodiment.

FIG. 7 is a flowchart showing an operation of the transmission control device 101 according to the second embodiment.

FIG. 8 is a block diagram showing a configuration of a mobile station 10 according to the third embodiment.

FIG. 9 is a flowchart showing an operation of the reception control device 201 according to the third embodiment.

FIG. 10 is a flowchart showing an operation of the transmission control device 101 according to the third embodiment.

[Explanation of symbols]

 10 mobile station 12, 22 transmitter 14, 24 receiver 16, 26 signal processor 20 base station 30 network 101 transmission controller 102 channel quality measuring device 103 error correction encoder 105 transmitter 110 timer device 201 reception controller 202 Error correction coding detection device 203 Error correction decoding device 204 Reception device

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shoichi Hirata 2-10-1, Toranomon, Minato-ku, Tokyo NTT Mobile Communication Network Co., Ltd.

Claims (14)

[Claims] 1. A station that performs communication using a wireless channel, wherein signal processing means for generating a transmission signal and length of the transmission signal generated by the signal processing means satisfy a predetermined condition. Generated by the signal processing means, error correction coding means for error correcting coding the transmission signal, means for transmitting the transmission signal error-correction coded by the error correction coding using the radio channel, and the signal processing means. Station for transmitting the transmission signal generated by the signal processing means using the radio channel when the length of the transmission signal does not satisfy the predetermined condition. 2. A station that communicates using a wireless channel, wherein signal processing means for generating a transmission signal and the type of the transmission signal generated by the signal processing means satisfy a predetermined condition, Error correction coding means for error correction coding the transmission signal, means for transmitting the transmission signal error-correction coded by the error correction coding using the radio channel, and the signal processing means A station, comprising means for transmitting the transmission signal generated by the signal processing means using the radio channel when the type of the transmission signal does not satisfy the predetermined condition. 3. A station that communicates using a wireless channel, means for determining whether a received signal received from the wireless channel is error correction coded, and the received signal is error correction coded. Station, the error correction decoding means for error-correcting decoding the received signal. 4. A station for performing communication using a wireless channel, means for determining whether or not a received signal received from the wireless channel is error correction coded, and the received signal is error correction coded. Error correction decoding means for performing error correction decoding on the received signal, signal processing means for generating a transmitted signal, and the received signal received last from the radio channel is error correction coded. In the case where the signal is present, the transmission signal generated by the signal processing means is error-correction-encoded and is transmitted using the wireless channel, and the reception signal last received from the wireless channel is error-correction-encoded. Station for transmitting the transmission signal generated by the signal processing means by using the wireless channel. 5. A station that communicates using a wireless channel, wherein the determining means determines whether or not the received signal received from the wireless channel is error correction coded, and the received signal is an error correction coded. Error correction decoding means for error-correcting decoding the received signal, signal processing means for generating a transmission signal, and a signal last received from the radio channel is error-correction coded. In this case, means for error-correcting encoding the transmission signal and transmitting it using the wireless channel until a predetermined period has elapsed after receiving the signal, and error correcting the signal last received from the wireless channel. The transmission signal generated by the signal processing means when not encoded and when the predetermined period of time has elapsed since the last reception of a signal from the radio channel. Station, wherein a and means for transmitting with the radio channel. 6. A station that performs communication using a wireless channel, and a determining unit that determines whether or not a received signal received from the wireless channel is error correction coded, and the received signal is an error correction coded. Error correction decoding means for error-correcting decoding the received signal, signal processing means for generating a transmission signal, and the signal last received from the radio channel is not error-correction coded. In this case, means for transmitting the transmission signal using the radio channel and a signal last received from the radio channel are error-correction-coded until a predetermined period elapses from the reception of the signal. In this case, and when the predetermined period of time has elapsed since the signal was last received from the radio channel, the transmission signal generated by the signal processing means is subjected to error correction coding. Station, characterized in that a means for transmitting with the radio channel Te. 7. The station according to claim 1, wherein the station is a mobile station that communicates using a wireless channel. 8. A network having base stations communicating using a wireless channel, wherein at least one of the base stations comprises:
A network comprising the station according to any one of claims 1 to 6. 9. A communication system having a base station and a mobile station that perform communication using a wireless channel, wherein at least one of the base stations comprises:
5. The station according to any one of 5 and 6, wherein the mobile station communicating with the base station determines whether the received signal received from the wireless channel is error correction coded, An error correction decoding means for performing error correction decoding on the received signal when the received signal is error correction coded. 10. The mobile station, which communicates with the at least one base station, comprises: signal processing means for generating a transmission signal; and a case where a signal last received from the radio channel is error correction coded. In a predetermined period after receiving a signal, a means for error-correcting encoding the transmission signal and transmitting using the radio channel, and a signal last received from the radio channel is not error-correcting encoding, And a means for transmitting the transmission signal generated by the signal processing means using the wireless channel when the predetermined period has elapsed since the signal was last received from the wireless channel. The communication system according to claim 9. 11. A communication system having a base station and a mobile station that communicate using a wireless channel, wherein at least one mobile station comprises:
5. The station according to any one of 5 and 6, wherein the base station that communicates with the mobile station determines whether the received signal received from the wireless channel is error correction coded, An error correction decoding means for performing error correction decoding on the received signal when the received signal is error correction coded. 12. The base station, which communicates with the at least one mobile station, comprises: signal processing means for generating a transmission signal; and a case where a signal last received from the radio channel is error correction coded. In a predetermined period after receiving a signal, a means for error-correcting encoding the transmission signal and transmitting using the radio channel, and a signal last received from the radio channel is not error-correcting encoding, And a means for transmitting the transmission signal generated by the signal processing means using the wireless channel when the predetermined period has elapsed since the signal was last received from the wireless channel. The communication system according to claim 11. 13. A communication system having a base station and a mobile station that perform communication using a wireless channel, wherein at least one of the base stations comprises:
5. The station according to any one of 5 and 6, wherein the at least one mobile station determines whether the received signal received from the wireless channel is error correction coded, and the received signal is Error-correction-decoding means for error-correcting and decoding the received signal, signal-processing means for generating a transmission signal, and error-correction-encoding the signal last received from the radio channel. If not, means for transmitting the transmission signal using the wireless channel until a predetermined period has elapsed from the reception of the signal, and a signal last received from the wireless channel is error correction coded. Error occurs in the transmission signal generated by the signal processing means when the predetermined signal has been received from the wireless channel and when the predetermined period has elapsed since the signal was last received from the wireless channel. Communication system, comprising the means for transmitting with the radio channel in the forward coding. 14. A communication system having a base station and a mobile station that communicate using a wireless channel, wherein at least one mobile station comprises:
5. The station according to any one of 5 and 6, wherein at least one base station determines whether the received signal received from the wireless channel is error correction coded, and the received signal is erroneous. When correction-coded, the error-correction decoding means for error-correction-decoding the received signal, the signal processing means for generating a transmission signal, and the signal last received from the radio channel are error-correction-coded. If not, a means for transmitting the transmission signal using the wireless channel and a signal last received from the wireless channel are error-correction coded until a predetermined period elapses after the signal is received. Error correction is performed on the transmission signal generated by the signal processing unit when the predetermined period has elapsed since the signal was last received from the wireless channel. Communication system, comprising the means for transmitting with the radio channel by Goka.