KR100905355B1 - Communication method, communication system, communication method of terminal, and terminal - Google Patents

Abstract

A communication method which is feasible in a communication system having a base station 2 and a plurality of terminals (including one case) existing in a service area covered by the base station 2, the reception failure of the base station 2 being failed. When a NAK signal indicating is returned and the transmission permission time allocated to the terminal 1 to which the NAK signal is returned has expired, the terminal 1 autonomously transmits retransmission data without making a transmission request. .

Description

COMMUNICATION METHOD, COMMUNICATION SYSTEM, COMMUNICATION METHOD OF TERMINAL, AND TERMINAL}

1 is a diagram showing a communication method of Embodiment 1,

2 is a diagram showing the configuration of a terminal and a base station according to the first embodiment;

3 is a diagram showing a communication method of Example 2;

4 is a diagram showing the configuration of a terminal and a base station of Embodiment 2;

5 is a diagram showing a communication method according to the third embodiment;

6 is a diagram showing a communication method according to the fourth embodiment;

FIG. 7 is a diagram showing the configuration of a terminal and a base station of Embodiment 4. FIG.

Explanation of symbols for the main parts of the drawings

1: terminal 2: base station

11 buffer 12 transmission request determining unit

13, 23: transmitter 14, 21: receiver

15: allocation receiver 16: transmission time determination unit

17: transmission data determination and autonomous transmission unit

18: transmission data generating unit 19: ACK / NAK receiving unit

22: request receiving and scheduling unit 24: receiving processing unit

The present invention relates to a communication method that can be realized in a wireless communication system composed of at least one base station and one or more terminals, and more particularly, to a communication method when retransmission control is executed as an error correction technique.

Hereinafter, as a prior art, general communication processing performed in a communication system including at least one base station and at least one terminal existing in a service area covered by the base station will be described.

For example, the base station has a function of selecting a terminal granting transmission permission from a plurality of terminals transmitting a data transmission request, a so-called scheduling function, and the terminal basically transmits data in accordance with the scheduling.

Here, the operation of the base station and the terminal will be described in detail (see Non-Patent Document 1). First, a terminal having data to be transmitted requests a base station to transmit data. At this time, as information transmitted from the terminal to the base station as the transmission request, for example, the amount of data stored in the buffer, the transmission power that the terminal can output, and the like are considered. On the other hand, the base station selects the terminal granting the transmission permission based on the information sent as the transmission request, the predicted channel quality when each terminal transmits data, the allowable interference level at the reception by the local station, and the like. The assignment signal is returned in response to the transmission request. At this time, the base station notifies the terminal of the maximum number of transmission bits selectable by the terminal, that is, the transmission rate (Rate) and the transmission permission time (Time).

The terminal selected by the allocation signal then transmits data based on the received information. At this time, the terminal transmits data within the transmission permission time.

Furthermore, in 3GPP, retransmission control (ARQ: Automatic Repeat reQuest) in the physical layer has been examined (see Non-Patent Document 2), and the base station that has received data from the terminal returns an ACK signal when the reception is successful. In case of a reception failure, a NAK signal is returned. When the NAK signal is received, the terminal transmits a transmission request again before retransmission, receives the allocation signal from the base station, and then retransmits the same data to the base station.

[Non-Patent Document 1]

3GPP TR25.896 V1.0.0, 7.1.2.2, 7.1.2.3

[Non-Patent Document 2]

3GPP TR25.896 V1.0.0, 7.2

However, in the communication method described in the above-mentioned document, when there is data to be transmitted to the terminal, even if the data is retransmission data, it is necessary to make a request for transmission to the base station and receive an allocation signal as a response. As a result, transmission of retransmission data is delayed, and there is a problem that a data group cannot be sent to a higher layer even though other data is already correctly received at the base station.

In addition, the base station carrying the NAK signal buffers the data upon reception failure for use in synthesizing with the retransmitted data, rather than discarding the data that has failed reception. Therefore, when a delay occurs in retransmission of data, there is a problem that the time to use the buffer becomes long, and the buffer use efficiency deteriorates.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and an object thereof is to provide a communication method capable of improving the buffer use efficiency at a base station by improving the delay of retransmission of retransmission data, and a terminal and a base station which execute the communication method. have.

The communication method according to the present invention is a communication method that can be realized in a communication system having at least one base station and at least one terminal existing in a service area covered by the base station, for example, indicating a reception failure from the base station. When the NAK signal is returned and the transmission permission time allocated to the terminal to which the NAK signal is returned has expired, the terminal includes a retransmission step of autonomously transmitting retransmission data.

According to the present invention, even when the NAK signal is returned from the base station and the transmission permission time allocated to the terminal has expired, retransmission data is autonomously transmitted. Thereby, compared with the prior art which performs the process regarding transmission of a transmission request and reception of an allocation signal at the time of retransmission, the delay time which arises at the time of transmission of retransmission data can be reduced significantly. In addition, since the delay time can be reduced, the time for using the buffer for storing the data that has failed to be received is also reduced, which greatly improves the buffer usage efficiency.

Hereinafter, embodiments of a communication method, a terminal and a base station according to the present invention will be described in detail with reference to the drawings. In addition, this invention is not limited by this Example.

FIG. 1 is a diagram showing a communication method according to the first embodiment, and shows a case where the terminal autonomously transmits retransmission data. In the present embodiment, for example, a communication system including at least one base station and at least one terminal existing in a service area covered by the base station is assumed. In this embodiment, for convenience of explanation, the case where the terminal transmits five transmission data will be described.

First, a terminal in which data to be transmitted (five transmission data in the figure) has occurred transmits a transmission request signal to the base station (step S1). At this time, as information transmitted from the terminal to the base station as the transmission request signal, for example, the amount of data stored in the buffer, the transmission power that the terminal can output, and the like are considered.

On the other hand, the base station selects a terminal to grant the transmission permission based on the information sent as the transmission request signal, the predicted channel quality when each terminal transmits data, the allowable interference level at the reception by the local station, and the like. The assignment signal is returned as a response to the transmission request signal (step S2). At this time, the base station notifies the terminal of the maximum number of transmission bits selectable by the terminal, that is, the transmission rate (Rate) and the transmission permission time (Time) indicating a period in which data can be transmitted.

Thereafter, the terminal transmits, for example, four data within the transmission permission time (steps S3 to S6), and the base station that has received four data from the terminal returns an ACK signal in the case of successful reception, In case of a reception failure, a NAK signal is returned. 1 shows an example in which the first data, the second data, and the fourth data succeeded in receiving, and the third data failed in receiving. Therefore, the base station carries the response signal in the order of the ACK signal, the ACK signal, the NAK signal, and the ACK signal (steps S7 to S10).

Next, since the terminal receives the NAK signal as a response signal to the third data, the third data is retransmitted by retransmission control. However, in the retransmission control of the present embodiment, without transmitting the transmission request signal again as before, The third data is retransmitted autonomously (step S11). In Fig. 1, the third data is retransmitted immediately after receiving the ACK signal corresponding to the fourth data, and the ACK signal is received as a response (step S13).

In addition, after retransmitting the third data, since the fifth data remains untransmitted, the terminal transmits a transmission request signal to the base station (step S12), after receiving the assignment signal as a response (step S14), The fifth data is transmitted (step S15), and an ACK signal is received as a response (step S16).

Fig. 2 is a diagram showing the configuration of the terminal and the base station of the present embodiment, which can realize the above communication method, and the terminal 1 includes a buffer 11, a transmission request determining unit 12, a transmitting unit 13, and a receiving unit ( 14, an assignment receiving unit 15, a transmission time determining unit 16, a transmitting data determining and autonomous transmitting unit 17, a transmitting data generating unit 18, and an ACK / NAK receiving unit 19, and a base station 2 The receiver 21 includes a reception unit 21, a request reception and scheduling unit 22, a transmission unit 23, a reception processing unit 24, and a buffer 25.

Here, the operation of the terminal and the base station configured as described above will be described in detail.

First, the terminal 1 stores the data arriving from the upper layer in the buffer 11, and the transmission request determination unit 12 determines the presence or absence of the transmission request from the amount of data stored therein. Moreover, the transmission request determination part 12 always acquires the information which shows whether it is in transmission permission time from the transmission time determination part 16, and uses this for the determination of the presence or absence of a transmission request. When a transmission request is made, the transmission request signal is transmitted to the base station 2 via the transmission unit 13.

Next, the allocation receiving unit 15 receives the allocation signal via the receiving unit 14. Here, the received allocation information is decrypted and the decryption result is notified to the transmission time determining unit 16. The transmission time determination unit 16 determines the allocated transmission permission time and notifies the transmission request determination unit 12 and the transmission data determination and autonomous transmission unit 17 of the determination result.

Next, the transmission data determination and autonomous transmission unit 17 acquires data from the buffer 11 within the transmission permission time, and transmits the acquired data to the transmission data generation unit 18. The transmission data generation unit 18 transmits the generated transmission data to the base station 2 via the transmission unit 13 after performing transmission processing such as encoding for error correction.

Next, when an ACK / NAK signal is received as a response to the transmission data, the ACK / NAK reception unit 19 analyzes the received ACK / NAK signal and transmits the analysis result to the transmission data determination and autonomous transmission unit 17. Notify

Next, the transmission data determination and autonomous transmission unit 17 determines whether to transmit new data (when an ACK signal is received) or retransmission data (when a NAK signal is received) based on the analysis result. To judge. If it is determined that the new data is to be transmitted, the data is acquired from the buffer 11 if it is within the transmission permission time, and the acquired data is transferred to the transmission data generation unit 18. Instruct them to. On the other hand, if it is determined that the retransmission data is to be transmitted, the retransmission data is autonomously transmitted without making a transmission request even if it is outside the transmission permission time. In addition, the transmission data determination and autonomous transmission unit 17 notifies the transmission request determination unit 12 when the retransmission data is autonomously transmitted, and prevents transmission of the transmission request signal. In this way, retransmission data can be transmitted immediately without making a transmission request.

On the other hand, the base station 2 receives the transmission request signal via the reception unit 21, the request reception and scheduling unit 22 evaluates the transmission request signal, and as a result passes the allocation signal via the transmission unit 23. The terminal 1 is notified. In addition, when data is received, the reception processing unit 24 performs predetermined reception processing, and returns the reception result (success / failure) as an ACK / NAK signal. At this time, data that has been successfully received is immediately transferred to the upper layer, while data that failed to be received is stored in the buffer 25 for composition when the same data is retransmitted.

As described above, in the present embodiment, even when the NAK signal is returned from the base station and the transmission permission time allocated to the terminal has expired, the processing of the transmission of the transmission request signal and the reception of the allocation signal are not performed. It is assumed that autonomous transmission data is transmitted. Thereby, compared with the prior art which performs the process regarding transmission of a transmission request and reception of an allocation signal at the time of retransmission, the delay time which arises at the time of transmission of retransmission data can be reduced significantly. In addition, since the delay time can be reduced, the time for using the buffer for storing the data that has failed to be received is also reduced, which greatly improves the buffer usage efficiency.

Next, the communication method of Example 2 is demonstrated. 3 is a diagram illustrating a communication method of Embodiment 2. FIG. In the present embodiment, only the processing different from the first embodiment described above will be described.

In this embodiment, the terminal that has received the NAK signal in the process of step S9 transmits retransmission data after a predetermined time elapsed from the reception of the NAK signal with the base station in advance (step S21). . This retransmission control transmits the retransmission data autonomously, similarly to the processing described in the first embodiment, without exchanging a transmission request signal or an assignment signal with the base station.

Fig. 4 is a diagram showing the configuration of the terminal and the base station of the present embodiment, which can realize the communication method, and the terminal 1a includes a control unit 31 and a transmission data determination and autonomous transmitter 17a. The base station 2a is configured to include a control unit 32 and a reception processing unit 24a. In the present embodiment, only operations different from those of the first embodiment described above will be described.

The control units 31 and 32 of the terminal 1a and the base station 2a exchange control information prior to transmission and reception of transmission data, and predetermine timing for autonomous transmission in advance. The control part 31 of the terminal 1a notifies the transmission data determination and autonomous transmission part 17a of the prescribed fixed time. When the transmission data determination and autonomous transmission unit 17a determines that the retransmission data is to be transmitted, the retransmission data is autonomously after the predetermined time has elapsed since the reception of the NAK signal without making a transmission request even if it is outside the transmission permission time. Send by

On the other hand, the control unit 32 of the base station 2a controls the reception operation in the reception processing unit 24a to start after the predetermined time elapses after transmitting the NAK signal.

As described above, in the present embodiment, the timing of autonomously transmitting retransmission data is assumed to be a time point when a specific predetermined time elapses from the reception of the NAK signal. As a result, the base station only needs to perform the operation of receiving the retransmitted data after a certain time from the transmission of the NAK signal, so that the function as the receiver can be efficiently used, and thus the power consumption can be greatly reduced.

The predetermined time may be defined as long as the same value is recognized by both the base station and the terminal, or may be communicated in advance between the base station and the terminal, and the time stored in advance without communicating specific values. It may be used.

Next, the communication method of the third embodiment will be described. 5 is a diagram illustrating a communication method of Embodiment 3. FIG. In the present embodiment, only the processing different from the first embodiment described above will be described. The configuration of the terminal and the base station of the present embodiment is similar to that of FIG. 4 of the second embodiment described above.

In this embodiment, the base station that has transmitted the NAK signal to the terminal 1a predicts autonomous transmission from the terminal 1a, and grants a transmission permission to another terminal that has transmitted a separate transmission request signal from the prediction time zone. Grant.

For example, while transmitting the NAK signal to the terminal 1a and receiving the retransmission data, the transmission request signal is received from another terminal (step S31), and the transmission permission time of the terminal 1a is terminated. In this case, the base station 2a can predict that retransmission data is sent after a lapse of time from the transmission of the NAK signal.

In addition, when the transmission permission time is allocated to the other terminal, for example, from the transmission of the NAK signal to the terminal 1a until the retransmission data is received, the transmission from the terminal 1a and the transmission from the other terminal are performed. There is a possibility that the transmissions interfere with each other and cause a reception failure.

Therefore, in this embodiment, the request receiving and scheduling unit 22 of the base station 2a delays the transmission permission time allocated to the other terminal based on the prediction so as not to overlap the transmission time zone of the retransmission data. . Specifically, in addition to the normal transmission speed and the transmission permission time length, the transmission start time is further notified by using the allocation signal (step S32). In addition, this transmission start time may be a relative time from reception of an allocation signal, or may be an absolute time which can be shared by the base station 2a and the other terminal.

Then, the other terminal that has been assigned the transmission permission time does not transmit data until the designated transmission start time, but transmits data having a transmission permission time length after the designated time (steps S33 to S36). Specifically, the allocation receiving unit 15 of the other terminal analyzes the transmission start time, and the transmission time determination unit 16 determines the transmission data determination and the autonomous transmission unit 17a and the transmission request determination in consideration of the analysis result. The unit 12 is controlled.

As described above, in the present embodiment, the base station predicts that retransmission data is transmitted from the terminal of the data transmission source after a predetermined time elapses from the transmission of the NAK signal, and during the estimated time period, We decided to limit allocation. As a result, since interference between retransmission data and transmission data from another terminal can be avoided, the probability of reception failure can be reduced.

Next, the communication method of the fourth embodiment will be described. 6 is a diagram illustrating a communication method of Embodiment 4. FIG. In the present embodiment, only the processing different from the first embodiment described above will be described.

In the present embodiment, the terminal performs retransmission of the third data as described above by autonomous transmission, but at this time, the coding rate is changed. In FIG. 6, as an example, the code rate at the time of initial transmission is prescribed | regulated as 1/2, and the code rate at the time of retransmission is prescribed | regulated as 1/4. Therefore, in the above-described embodiment, the third data is transmitted in one time slot, but in the present embodiment, the third data is transmitted using two time slots (steps S41 and S42).

Fig. 7 is a diagram showing the configuration of a terminal and a base station of this embodiment, which can realize the above communication method, and the terminal 1b includes a transmission data determination and autonomous transmission unit 17b and a transmission data generation unit 18b. In this configuration, the base station 2b includes a reception processing unit 24b. In the present embodiment, only operations different from those of the first embodiment described above will be described.

The transmission data determination and autonomous transmission unit 17b of the terminal 1b notifies the transmission data generation unit 18b of the coding rate information. The transmission data generation unit 18b performs error correction encoding processing on the transmission data based on the notified coding rate. Moreover, the information of the coding rate may be always informed regardless of new data / retransmission, or may be notified only at the time of retransmission. On the other hand, the reception processing unit 24b of the base station 2b performs error correction decoding on the received signal based on the prescribed coding rate.

As described above, in this embodiment, the code rate for error correction during retransmission is made lower than the code rate for initial transmission. By lowering the coding rate, the noise resistance and the interference performance during the reception and demodulation of the third data can be improved. In addition, by utilizing this effect, when the same target error rate is set at the time of retransmission and initial transmission, the transmission power at the time of retransmission can be set lower than the transmission power at the time of initial transmission. Therefore, the amount of interference applied to data transmission of another terminal can be reduced.

As described above, the communication method according to the present invention is useful for a wireless communication system composed of at least one base station and one or more terminals, and is particularly suitable when retransmission control is employed as an error correction technique of the wireless communication system. .

According to the present invention, it is possible to provide a communication method capable of improving the buffer usage efficiency at the base station by improving the delay of transmission of retransmitted data, and a terminal and a base station which execute the communication method.

Claims (9)

A base station and one data is transmitted to the base station as new data, and when receiving a NAK signal indicating a reception failure from the base station for transmission of the new data, the one data is transmitted to the base station as retransmission data. As a communication method in a communication system provided with a terminal, A resource value obtaining step of receiving, from the base station, a notification regarding a value of a data transmission resource used for communication with the base station; A transmission step of transmitting, by the terminal, new data to the base station based on the value of the data transmission resource; When the terminal transmits new data to the base station in the transmitting step and then receives a NAK signal from the base station for the transmitted new data, the value of the data transmission resource at the time of retransmission data transmission to the base station Resend step to send regardless of Communication method comprising the. When the base station and one data are transmitted to the base station as new data, and a NAK signal indicating a reception failure is received from the base station for transmission of the new data, the single data is transmitted to the base station as retransmission data. A communication system having a terminal to Resource value obtaining means for receiving, from the base station, a notification regarding a value of a data transmission resource used for communication with the base station; Transmitting means for transmitting, by the terminal, new data to the base station based on the value of the data transmission resource; When the terminal transmits new data to the base station by the transmitting means and then receives a NAK signal from the base station with respect to the transmitted new data, when the retransmission data is transmitted to the base station, Retransmission means for sending regardless of the value Communication system comprising a. When the base station and one data are transmitted to the base station as new data, and a NAK signal indicating a reception failure is received from the base station for transmission of the new data, the single data is transmitted to the base station as retransmission data. As a communication method adopted by the terminal in a communication system provided with a terminal, A resource value obtaining step of receiving a notification regarding a value of a data transmission resource used for communication with the base station from the base station; A transmission step of transmitting new data to the base station based on the value of the data transmission resource; After transmitting the new data to the base station in the transmitting step and receiving a NAK signal from the base station for the transmitted new data, regardless of the value of the data transmission resource at the time of retransmission data transmission to the base station Retransmission step to send Communication method of a terminal comprising a. When the base station and one data are transmitted to the base station as new data, and a NAK signal indicating a reception failure is received from the base station for transmission of the new data, the single data is transmitted to the base station as retransmission data. As said terminal in the communication system provided with the terminal, Resource value obtaining means for receiving a notification regarding a value of a data transmission resource used for communication with the base station from the base station; Transmitting means for transmitting new data to the base station based on the value of the data transmission resource; After transmitting the new data to the base station by the transmitting means and receiving a NAK signal from the base station with respect to the transmitted new data, it is related to the value of the data transmission resource at the time of retransmission data transmission to the base station. Retransmission means for transmitting without Terminal characterized in that provided with. delete delete delete delete delete

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