JPH08172425A - Carrier switching type automatic retransmission method and apparatus - Google Patents

Abstract

PURPOSE: To reduce the number of times of retransmission per slot and to improve throughput by switching a carrier frequency on both transmission side and reception side when the number of times of continuous retransmission reaches the prescribed number of times. CONSTITUTION: A transmission slots is stored in a storage circuit 22, passed through a changeover switch 23 and a modulation circuit 24 and transmitted from an antenna 21-2 in a prescribed carrier frequency. Then, the informing signals of reception information ACK and non-reception information NACK from reception are passed through the antenna 21-1 and detected and demodulated by the prescribed carrier frequency in a demodulation circuit 25. When the informing signal is the ACK, the next transmission slot is transmitted similarly to the one before. Also, when it is the NACK, the switch 23 is switched and the stored slot is retransmitted from the circuit 22. A counting circuit 26 increases a counted value by one at the time of detecting the NACK, resets it at the time of detecting the ACK and counts the number of times of the continuous reception of the NACK. When the number of times reaches a prescribed value, a changeover control circuit 27 switches the carrier frequency of the circuits 24 and 25 and performs the retransmission.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic retransmission method and apparatus for performing retransmission when a signal is not correctly transmitted on a wireless communication channel where burst errors due to fading frequently occur. In particular, the present invention relates to a carrier switching type automatic retransmission method and apparatus for reducing the number of retransmissions by switching the carrier frequency.

[0002]

2. Description of the Related Art FIG. 7 is a diagram for explaining a conventional automatic retransmission method. Here, a case will be described where a slotted signal such as a TDMA signal is automatically retransmitted by the SAW (Stop-and-Wait) method. In the figure, the horizontal axis is the time standardized by the slot period. Each slot is numbered to distinguish it. The time difference between each slot on the transmitting side and the receiving side indicates the propagation delay. Also,
The round trip time from the transmission time of the transmission side until the reception notification (hereinafter referred to as “ACK”) or the non-receipt notification (hereinafter referred to as “NACK”) is set to be 4 slots long.

From the transmitting side, slot 1 has carrier frequency f
Sent at ₁ . When the receiving side confirms that slot 1 has been correctly received, it transmits ACK to the transmitting side and notifies that the slot 1 has been received. The sender is this A
After receiving CK, the next slot 2 is transmitted. The same process is repeated thereafter, but if it is determined that an error occurs in the receiving side due to fading as in slot 3, the transmission side is set to N
ACK is transmitted to notify that slot 3 has not been received. When the transmitting side receives this NACK, it retransmits slot 3 and repeats the retransmission until the ACK is received.

[0004]

Burst errors frequently occur in a wireless communication channel due to instantaneous fluctuations such as Rayleigh fading and short-range median fluctuations, and their time lengths reach tens or hundreds of slots. There is. However, in the conventional automatic retransmission method, since the carrier frequency is the same at the time of retransmission, the fading condition does not change, and there is a problem that the retransmission is repeated and the throughput is significantly reduced.

It is an object of the present invention to provide a carrier switching type automatic retransmission method and apparatus which can reduce the number of retransmissions and minimize the decrease in throughput.

[0006]

The carrier switching type automatic retransmission method of the present invention switches the carrier frequency on both the transmitting side and the receiving side when the number of continuous retransmissions reaches a predetermined number. The carrier switching type automatic retransmission device of the present invention includes, in the receiving device, means for switching the carrier frequency and control means for switching the carrier frequency at a predetermined timing when the number of continuous NACK transmissions reaches a predetermined number. A transmitter, a means for switching the carrier frequency,
And a control means for switching the carrier frequency when the number of consecutive NACK receptions reaches a predetermined number.

[0007]

The receiving side returns ACK to the transmitting side when the signal transmitted from the transmitting side is correctly received and NACK to the transmitting side when the signal is not correctly received. The transmitting side performs a retransmission process when the receiving side notifies the receiver of NACK. At this time, the receiving side counts the number of consecutive retransmissions based on the number of consecutive NACK transmissions and the transmitting side counts the number of consecutive NACK receptions. When this reaches a predetermined number of times, the carrier frequency is switched on both the transmitting side and the receiving side. Here, the number of retransmissions can be significantly reduced by reducing the fading correlation between the switched carrier frequencies.

[0008]

FIG. 1 shows a first embodiment of a carrier switching type automatic retransmission method of the present invention. In this example, SAW (Sto
p-and-Wait) method is shown. The display form of the figure is the same as that of FIG. Slot 1 is transmitted from the transmitting side at carrier frequency f ₁ . When the receiving side confirms that slot 1 has been correctly received, it transmits ACK to the transmitting side and notifies that the slot 1 has been received. The transmitting side receives the ACK and then transmits the next slot 2. Similarly, the transmission / reception with the carrier frequency f ₁ is repeated thereafter. Here, when slot 3 is determined to be an error on the receiving side due to fading, NACK is transmitted to the transmitting side to notify that slot 3 has not been received. When the transmitting side receives this NACK, it retransmits slot 3.

In this embodiment, when the transmitting side receives NACK twice consecutively, the carrier frequency is switched from f ₁ to f ₂ . On the other hand, the receiving side switches the carrier frequency from f ₁ to f ₂ and waits after transmitting the second NACK. As a result, the second retransmission of slot 3 is performed with carrier frequency f ₂ . Carrier frequencies f ₁ and f
_If the fading correlation in ₂ is small, slot 3 is correctly received in the second retransmission. By performing transmission / reception with this carrier frequency f ₂ after slot 4, burst errors due to fading can be avoided and throughput can be increased. When NACK for the slot transmitted at the carrier frequency f ₂ is repeated twice, the carrier frequency is switched again.

FIG. 2 shows a second embodiment of the carrier switching type automatic retransmission method of the present invention. In this example, GBN (G
o-Back-N) method is shown. Here, the round trip time is 4 slots long. In this embodiment, after transmitting a carrier frequency f ₁ from the slot 1 to slot 6, upon receiving the NACK for the slots 3 corresponding to the round-trip time, and retransmits the slots 3 or later. However, since the carrier frequency f ₁ remains unchanged, slots 3 to 6 may be in error again. Here, when the transmitting side receives NACK for the same slot (slot 3) twice consecutively, the carrier frequency is switched from f ₁ to f ₂ . On the other hand, on the receiving side, NACK for the same slot is transmitted twice in succession, and then the carrier frequency is switched to wait after the round trip time (4 slots). This makes slot 3
The subsequent second retransmission is performed with the carrier frequency f ₂ .

Assuming that the fading correlations at the carrier frequencies f ₁ and f ₂ are small, slots 3 to 6 are correctly received by the second retransmission. By performing transmission / reception at this carrier frequency f ₂ after slot 7, burst errors due to fading can be avoided and throughput can be increased. When NACK for the same slot transmitted at the carrier frequency f ₂ is repeated twice, the carrier frequency is switched again.

FIG. 3 shows a third embodiment of the carrier switching type automatic retransmission method of the present invention. In this embodiment, SR (Sel
An automatic retransmission method by the ective-Repeat method is shown. Here, the round trip time is 4 slots long. In this embodiment, after transmitting a carrier frequency f ₁ from the slot 1 to slot 6, upon receiving the NACK for the slots 3 corresponding to the round-trip time slot 3
Resend. Here, if the transmitting side continuously receives NACK for the next slot 4, the carrier frequency is f
Switch from ₁ to f ₂ . On the other hand, the receiving side switches the carrier frequency and waits after a round trip time (4 slots) after transmitting NACK twice in succession. As a result, the retransmission of slot 4 is performed with the carrier frequency f ₂ .

Assuming that the fading correlation at the carrier frequencies f ₁ and f ₂ is small, slot 4 is correctly received when retransmitted. After slot 5, by transmitting and receiving at this carrier frequency f ₂ , burst errors due to fading can be avoided and throughput can be increased. Even if the carrier frequency is switched from f ₁ to f ₂ , in the SR method of the present embodiment, NACK may be returned for the last 3 slots transmitted at the carrier frequency f ₁ . Therefore, after switching the carrier frequency, the continuous NA within the round trip time
Only the retransmission process is performed on CK. In FIG. 3, NACKs for slots 5, 6, and 3 continue, but since the carrier frequency is already switched to f ₂ , only retransmission is performed as it is. When NACK continues after the round trip time has passed since the carrier frequency was switched (after slot 7 in FIG. 3), the carrier frequency is switched again.

By the way, in the embodiment described above, when the carrier frequency is switched from f ₁ to f ₂ and then the carrier frequency is switched again, there is a method of returning it to f ₁ .
There is a method of switching to f _3, which has a small fading correlation with respect to f ₁ and f ₂ . In the former case, f ₁ and f ₂ are switched alternately, and in the latter case, f ₁ , f ₂ , and f ₃ are switched in order. The same applies when carrier frequencies of 4 or more are used.

FIG. 4 shows the configuration of an embodiment of a receiving device which constitutes the carrier switching type automatic retransmission device of the present invention. In the figure, the radio signal is transmitted to the demodulation circuit 12 via the antenna 11-1.
And is detected and demodulated using a predetermined carrier frequency. The demodulated signal is input to the error detection circuit 13, and it is checked whether or not each slot is correctly received and the notification signal generation circuit 14 is notified. Notification signal generation circuit 14
Outputs ACK if each slot is correctly received, and outputs NACK if there is an error. The notification signal of ACK or NACK is converted into a radio signal by the modulation circuit 15 and transmitted to the transmission side via the antenna 11-2.

The counting circuit 16 increments the count value by 1 when the NACK is output from the notification signal generating circuit 14 and resets the count value when the ACK is output, thereby counting the number of consecutive NACK transmissions. . In addition,
In the case of the GBN method, NACK for a specific slot (slot 3 in the above embodiment) is counted. When the number of consecutive NACK transmissions reaches a predetermined number (twice in the above embodiment), the switching control circuit 17 is notified of that fact and the counting circuit 16 is reset. Switching control circuit 1
Reference numeral 7 switches carrier frequencies of the demodulation circuit 12 and the modulation circuit 15 at a predetermined timing after the notification, and prepares for retransmission by carrier switching from the transmission side.

Here, the predetermined timing is the same as the notification from the counting circuit 16 in the case of the SAW system, and G
This is after the round trip time in the case of the BN method and the SR method. It should be noted that when the slot is checked in the error detection circuit 13, a CRC check bit is provided in the slot to perform the CR check.
It can be done by C check. Alternatively, if the preamble bit that establishes bit synchronization is known between transmission and reception, this can be done by checking the correctness of these bits. Further, when the block code is used, it is possible to make a slot error when the error cannot be corrected and the error detection remains. Further, the reception level may be monitored, and NACK may be returned as a slot error when the reception level becomes equal to or lower than the threshold value.

FIG. 5 shows the configuration of an embodiment of a transmission device which constitutes the carrier switching type automatic retransmission device of the present invention. In the figure, the transmission slot is stored in the storage circuit 22 and is also input to the modulation circuit 24 via the changeover switch 23. The modulation circuit 24 converts the transmission slot into a radio signal using a predetermined carrier frequency and transmits the radio signal to the reception side via the antenna 21-2. The ACK or NACK notification signal returned from the receiving side is received by the demodulation circuit 25 via the antenna 21-1, and detected and demodulated using a predetermined carrier frequency. If the notification signal is ACK, the next transmission slot is input to the modulation circuit 23 via the changeover switch 23 and transmitted. On the other hand, the notification signal is NA
If it is CK, the changeover switch 23 is switched to retransmit the transmission slot stored in the storage circuit 22. In addition,
If there is no response for ACK or NACK after a predetermined time has passed from the transmission, it may be considered as NACK.

The counting circuit 26 uses the demodulation circuit 25 to NACK.
When is detected, the count value is incremented by 1
The number of consecutive NACK receptions is counted by resetting the count value when K is detected. In the case of the GBN method, NACK for a specific slot (slot 3 in the above embodiment) is counted. When the number of consecutive NACK receptions reaches a predetermined number (twice in the above-described embodiment), the fact is notified to the switching control circuit 27 and the counting circuit 26 is reset. The switching control circuit 27 switches the carrier frequencies of the modulation circuit 24 and the demodulation circuit 25 according to the notification.

In the present embodiment, the receiving side switches the carrier frequency according to the number of consecutive NACK transmissions, and the transmitting side switches the carrier frequency according to the number of consecutive NACK receptions. Can be matched.

[0021]

As described above, the carrier switching type automatic retransmission method and apparatus of the present invention significantly reduce the number of retransmissions per slot by switching the carrier frequency between frequencies having a small fading correlation. You can This can significantly improve the throughput. In addition, the throughput can be further improved by increasing the number of carriers used.

FIG. 6 shows the result of a computer simulation of the degree of improvement in throughput when the number of continuous NACK transmissions and receptions for switching the carrier frequency in the SAW method is 2 and the number of carriers used is 2. Transmission method is TDM
A, the modulation system was QPSK, the detection system was differential detection, the fading frequency was 15 Hz, and the transmission rate was 384 kb / s.

[Brief description of drawings]

FIG. 1 is a diagram showing a first embodiment (SAW system) of a carrier switching type automatic retransmission method of the present invention.

FIG. 2 is a diagram showing a second embodiment (GBN system) of the carrier switching type automatic retransmission method of the present invention.

FIG. 3 is a diagram showing a third embodiment (SR system) of the carrier switching type automatic retransmission method of the present invention.

FIG. 4 is a block diagram showing a configuration of an embodiment of a receiving device which constitutes the carrier switching type automatic retransmission device of the present invention.

FIG. 5 is a block diagram showing a configuration of an embodiment of a transmission device which constitutes a carrier switching type automatic retransmission device of the present invention.

FIG. 6 is a diagram showing a result of a computer simulation of a degree of improvement in throughput according to the present invention.

FIG. 7 is a diagram illustrating a conventional automatic retransmission method.

[Explanation of symbols]

 11 Antenna 12 Demodulation Circuit 13 Error Detection Circuit 14 Notification Signal Generation Circuit 15 Modulation Circuit 16 Counting Circuit 17 Switching Control Circuit 21 Antenna 22 Storage Circuit 23 Changeover Switch 24 Modulation Circuit 25 Demodulation Circuit 26 Counting Circuit 27 Switching Control Circuit

Claims (2)

[Claims] 1. A reception notification when a signal transmitted from a transmission side is correctly received by a reception side using a bidirectional transmission line,
In the automatic resending method that sends a non-receipt notification to the sender when it is not correctly received, and resends when the sender receives the non-receipt notification, when the number of consecutive retransmissions reaches a predetermined number, the sender A carrier switching type automatic retransmission method, characterized in that carrier frequencies are switched by both sides. 2. A reception notification when a signal transmitted from a transmission side is correctly received by a reception side using a bidirectional transmission line,
In an automatic retransmitting device that returns an unreceived notification to the transmitting side when it is not correctly received, and resends when the transmitting side receives the unreceived notification, means for switching the carrier frequency to the receiving device and continuous transmission of the unreceived notification. When the number of times reaches a predetermined number of times, a control means for switching the carrier frequency at a predetermined timing is provided, and the transmitting device has a means for switching the carrier frequency and the number of continuous receptions of unreceived notifications reaches a predetermined number. A carrier switching type automatic re-transmission device, comprising: a control means for switching the carrier frequency when the above operation is performed.