JP2002290311A - Relay transmission method and base station apparatus - Google Patents

Abstract

(57) Abstract: In a communication system having a plurality of base station devices arranged in multiple stages from one headquarters device by a wired or wireless link line, each base station device generates an error for the entire frame. Since the correction processing is performed, there is a transmission delay due to an increase in processing time. SOLUTION: A payload error correction unit 17 provided in a correction relay unit in a base station device refers to a header unit 20 output from the error correction unit 13, and an accompanying payload unit 21 stores a payload addressed to the own station. Only when it is determined, the operation is performed so as to decode the error correction code applied to the payload section 21, so that processing relating to error correction of the payload only passing through the own station does not occur, and transmission delay can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system having a plurality of base station apparatuses arranged in multiple stages from one head office apparatus by a wired or wireless link line. The present invention relates to a method and a device for relay transmission of a signal between devices.

[0002]

2. Description of the Related Art In a communication system in which a digital signal is transmitted in a frame unit of a fixed period between a plurality of base station devices arranged in multiple stages via a wired or wireless link line, an error due to a transmission path between the base station devices is eliminated. In order to correct the error, a relay transmission system in which an error is corrected in units of a transmission frame at a relaying base station and then transmitted to a next-stage base station is generally performed.

FIG. 4 shows a configuration of a correction relay unit in a base station apparatus in a conventional relay transmission system. A transmission frame transmitted from another base station and received by a reception unit 22 is transmitted by a frame error correction unit 23. It is configured to be corrected and transmitted from the transmission unit 24 to the next base station.

[0004]

However, in the above-mentioned conventional relay transmission system, since error correction processing is performed on the entire frame, there is a problem that the transmission delay time increases due to an increase in processing time. On the other hand, in a system that does not perform error correction relay, the transmission delay time is small, but an error in a transmission path between base station devices may cause an error in a header portion important for transmission related to frame synchronization and routing control. However, there has been a problem that such a fatal influence propagates to the base station device after relaying.

SUMMARY OF THE INVENTION The present invention solves the above-mentioned conventional problems. In a communication system for performing error correction relay between base station apparatuses, a relay capable of reducing transmission delay and preventing error propagation on a transmission path. It is an object to provide a transmission method and a base station device.

[0006]

In order to solve the above-mentioned problem, a relay transmission method according to the present invention provides a fixed period between a head office apparatus and a plurality of base station apparatuses arranged in multiple stages by wired or wireless link lines. When the digital signal is relay-transmitted in frame units, the area related to the frame synchronization signal of the link transmission frame composed of the frame synchronization signal and the header and the payload is overwritten and corrected by the relaying base station device, and the header is The area related to the payload section selection of the section is characterized in that error correction is decoded and re-encoded by the relaying base station apparatus, and the payload section is encoded by the transmission source base station apparatus as necessary. And the data is decoded by the transmission destination base station apparatus. With this configuration, it is possible to partially provide the link transmission frame with a high error correction capability, thereby reducing the transmission efficiency as compared with a case where the same error correction is performed on all the link transmission frames. Effective error correction can be performed. In the case where a digital signal is transmitted and relayed in a frame unit of a fixed period between a plurality of base station devices arranged in a tree shape in the head office device, it is possible to prevent erroneous selection of an uplink frame in a tree-like network. Becomes

Further, the base station apparatus of the present invention relays a downstream transmission frame transmitted from the head office apparatus and passed through the upper station base station apparatus to the lower station base station apparatus, and transmitted from the mobile station to transmit the lower transmission frame. Between the mobile station and the correction relay means, which relays the uplink transmission frame via the station-side base station apparatus to the higher-order station base station apparatus and performs different error correction coding processing for each type of information in the frame. A wireless device that performs wireless transmission and reception, processes a payload portion in a transmission frame sent from a link line, sends the processed signal to the wireless device as a transmission signal, and sends the signal received by the wireless device as a payload to the correction relay unit. And a payload processing unit for sending. With this configuration, it is possible to perform different error correction encoding processing for each type of information in a frame with respect to error correction of a relaying base station apparatus, thereby reducing transmission delay and preventing error propagation on a transmission path. Can be.

Further, in the base station apparatus according to the present invention, only when the correction relay unit refers to the header portion in the transmission frame and determines that the payload portion attached to the header portion is a payload addressed to the own station, Decoding the error correction code applied to the payload portion,
Since processing related to error correction of the payload that only passes through the own station does not occur, transmission delay can be reduced.

In the base station apparatus according to the present invention, as long as the correction relay means does not exceed a predetermined number of backward protection stages for frame synchronization, even if an error occurs in the frame synchronization signal, the frame synchronization timing can be adjusted. In addition, a frame synchronization signal is generated, and even if an error occurs in a frame synchronization signal in a section of a certain link line, it can be prevented from being propagated to a subsequent link line.

Further, the base station apparatus of the present invention is characterized in that the correction relay means corrects only a header part in a transmission frame and relays the same, and minimizes a delay due to error correction. And the error correction capability can be intensively improved.

Further, the present invention provides a communication system for transmitting a digital signal in a frame unit of a fixed period from a headquarters device to a plurality of base station devices arranged in multiple stages via a wired or wireless link line. The area related to the frame synchronization signal of the link transmission frame composed of the header section and the payload section is overwritten by the relaying base station apparatus, and the area related to the payload section selection of the header section is corrected by the relaying base station apparatus. A communication system characterized in that error correction is decoded and re-encoded, and with respect to error correction of a relaying base station apparatus, a different error correction encoding process is performed for each type of information in a frame to reduce transmission delay. Can be reduced, and error propagation on the transmission path can be prevented.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 shows a configuration of a base station device of a wireless communication system. In FIG. 1, a base station apparatus 1 relays a downstream transmission frame transmitted from a headquarters apparatus 5 and transmitted through a base station apparatus 2 to a base station apparatus 3, and transmitted from a mobile station 27 to a base station apparatus 4 and a base station. The uplink transmission frame via the device 3 is transmitted to the base station device 2
And corrective relay means 6 and 7, a payload processing unit 8, and a wireless device 9.

The payload processing section 8 processes the payload section in the transmission frame sent from the link line, sends it to the wireless device 9 as a transmission signal as necessary, causes it to be wirelessly transmitted, and receives it by the wireless device 9 It has a function of transmitting a signal as a payload to the correction relay means 6, 7. As shown in FIG. 2, the correction relay units 6 and 7 include a receiving unit 10, a frame synchronization detecting unit 11, and a frame separating unit 1.
2, an error correction unit 13, a delay unit 14, a payload selection / synthesis unit 15, a transmission unit 16, a payload error correction unit 17, and a payload encoding unit 18. Wireless device 9
Performs modulation processing of a transmission signal transmitted from the payload processing unit 8 and wirelessly transmits the transmission signal to the mobile station 27 and the like, and also demodulates a reception wave from the mobile station 27 and the like to the payload processing unit 8 as a reception signal. send.

Further, the transmission frame in the present embodiment comprises a frame synchronization signal 19, a header section 20, and a payload section 21, as shown in FIG. An area important for maintaining frame synchronization on the link line, such as a frame synchronization signal (FS), is allocated to the frame synchronization signal 19. The header section 20 includes a significant signal (B / I) of the payload section 21, priority information (Priority) for determining which of a plurality of payloads is to be transmitted preferentially in routing control, and the payload is transmitted from the wireless device 9. In the case of the received signal, the outline of the payload section 21 can be determined without decoding the error correction code applied to the payload section 21 such as reception quality information (RSSI) that enables site diversity by payload selection in routing control. Information and parity for error correction are assigned. The payload unit 21 allocates, in addition to signals transmitted and received by the wireless device 9, a signal for performing control and monitoring between the headquarters device and the base station device and between the base station devices, and a parity for error correction.

The operation of the relay transmission system in the wireless communication system configured as described above will be described with reference to FIGS. First, when the transmission frames sent from the other base station apparatuses 2 and 3 to the base station apparatus 1 are received by the respective reception sections 10 of the correction relay means 6 and 7, the frame synchronization detection section 11 It detects the frame synchronization signal (FS) and notifies the frame separation unit 12 and the payload selection / synthesis unit 15 of the frame synchronization timing. The frame separation unit 12 calculates the header 2 in the transmission frame from the frame synchronization timing notified from the frame synchronization detection unit 11.
The header section 20 is sent to the error correction section 13, and the payload section 21 is sent to the delay section 14 and the payload error correction section 17.

The payload error correction section 17 first refers to the header section 20 output from the error correction section 13, and only when the payload section 21 determines that the payload is addressed to its own station,
An error correction code applied to the payload section 21 is decoded and output to the payload processing section 8. Further, the error correction unit 13 decodes the error correction code applied to the header unit 20, re-encodes it, and sends it to the payload selection / combination unit 15. Error correction codes applied to the header section 20 include:
An example is a BCH code. When decoding and re-encoding the header section 20, since the delay is delayed by the redundant bits of the error correction code, for example, when the transmission speed of the transmission path is 100 kbps, the BCH
When 21-bit information is transmitted using the (32, 21) code, the header section can be transmitted to the payload selection / combination section 15 with a delay of only 10 bits of redundant bits, that is, only 0.1 ms. The delay unit 14 controls the payload unit 21 for the time during which the error correction unit 13 performs the error correction processing of the header unit 20.
Is delayed and transmitted to the payload selection / synthesis unit 15. When the information to be loaded on the payload is input from the payload processing unit 8 to the payload encoding unit 18, the header unit 2
0 is generated and encoded, and a payload section 21 is generated and transmitted to the payload selection / combination section 15.

When the information to be loaded on the payload is input from the payload processing unit 8 to the payload encoding unit 18, the payload selecting / synthesizing unit 15 sends the header unit 20 from the payload encoding unit 18 and the information from the error correction unit 13. The header section 20 is compared and selected, and one of the header sections 2 is selected.
0 and the associated payload section 21 are combined with the frame synchronization signal 19 to form a frame, and transmitted to the transmission section 16.
However, while the frame synchronization is maintained by the frame synchronization detection unit 11, that is, as long as the frame synchronization signal does not exceed a predetermined number of backward protection stages, the frame synchronization signal 19 is generated in synchronization with the frame synchronization timing. Is detected, the input from the payload processing unit 8 is prioritized.

As described above, the correction relay system according to the present embodiment has an excellent effect in that the processing operation by error correction and the delay caused thereby are minimized. That is, the payload error correction section 17 refers to the header section 20 output from the error correction section 13, and determines that the accompanying payload section 21 is a payload addressed to its own station only when the error correction code applied to the payload section 21 is determined. , The processing related to error correction of the payload only passing through the own station does not occur, and the transmission delay can be reduced.

The payload selection / synthesis unit 15 generates an error in the frame synchronization signal 19 while the frame synchronization is maintained by the frame synchronization detection unit 11, that is, as long as the frame synchronization does not exceed a predetermined number of backward protection stages. Even if the error occurs in the frame synchronization signal 19 in an interval of a certain link line, the signal is propagated to the subsequent link lines because the frame synchronization signal 19 operates so as to be synchronized with the frame synchronization timing. Can be prevented.

Further, since the error correction unit 13 operates so as to correct and relay only the header unit 20 in the transmission frame, not only the delay due to the error correction can be minimized, but also the error is concentrated. Correction ability can be improved.

In the above description, a plurality of base station apparatuses are configured in a single-stage multi-stage, and an example of an intermediate base station apparatus has been described. Also, the present invention can be similarly implemented in the case of a mesh configuration.

[0022]

As described above, according to the present invention, in a communication system having a plurality of base station devices arranged in multiple stages from one head office device through a wired or wireless link line, a base station device to be relayed is provided. As for error correction, different error correction coding processes are performed for each type of information in the frame, so that transmission delay can be reduced,
This has the effect that error propagation on the transmission path can be prevented.

[Brief description of the drawings]

FIG. 1 is a block diagram of a base station device of a wireless communication system according to an embodiment of the present invention.

FIG. 2 is a block diagram of a correction relay unit in the base station apparatus according to the embodiment of the present invention.

FIG. 3 is a data configuration diagram of a link transmission frame according to the embodiment of the present invention.

FIG. 4 is a block diagram for explaining the operation of a conventional correction relay system.

[Explanation of symbols]

 1-4 base station apparatus 5 headquarters apparatus 6,7 correction relay means 8 payload processing section 9 radio apparatus 10 receiving section 11 frame synchronization detecting section 12 frame separating section 13 error correcting section 14 delay section 15 payload selecting and combining section 16 transmitting section Reference Signs List 17 payload error correction section 18 payload encoding section 19 frame synchronization signal 20 header section 21 payload section 22 reception section 23 frame error correction section 24 transmission section 25, 26 base station apparatus 27 mobile station

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Tetsuro Otsubo 4-3-1 Tsunashima Higashi, Kohoku-ku, Yokohama-shi, Kanagawa Prefecture F-term in Matsushita Communication Industrial Co., Ltd. 5K014 AA01 AA04 EA07 FA00 FA11 HA00 5K033 AA02 AA07 DA03 DA16 DA19 DB18 EA04 EB02 5K067 AA14 AA33 BB03 BB04 BB21 CC04 DD25 EE02 EE06 EE10 HH26 5K072 AA23 BB13 BB27 CC15 CC34 DD11 DD16 DD20 EE06 GG14 GG13 GG14

Claims (6)

[Claims] When a digital signal is relay-transmitted from a head office device to a plurality of base station devices arranged in multiple stages via a wired or wireless link line in a frame unit of a fixed cycle, a frame synchronization signal and a header portion are transmitted. The area related to the frame synchronization signal of the link transmission frame composed of the payload section is overwritten by the relaying base station apparatus, and the area related to the payload section selection of the header section is decoded by the relaying base station apparatus for error correction. And a re-encoding. 2. A downlink transmission frame transmitted from the head office apparatus and passed through the upper station base station apparatus is relayed to the lower station base station apparatus, transmitted from the mobile station and passed through the lower station base station apparatus. A relay device that relays the uplink transmission frame to the upper station base station device, performs error correction encoding processing that differs for each type of information in the frame, and a wireless device that performs wireless transmission and reception with the mobile station. A payload processing unit that processes a payload portion in a transmission frame transmitted from a link line, sends the signal as a transmission signal to the wireless device, and sends a signal received by the wireless device as a payload to the correction relay unit. Base station equipment. 3. The error correction means applied to the payload portion only when the correction relay means refers to a header portion in the transmission frame and determines that a payload portion attached to the header portion is a payload addressed to its own station. 3. The base station apparatus according to claim 2, wherein the code is decoded. 4. The correction relay means generates a frame synchronization signal in synchronization with the frame synchronization timing even if an error has occurred in the frame synchronization signal as long as the number does not exceed a predetermined number of backward protection stages of frame synchronization. The base station device according to claim 2 or 3, wherein: 5. The base station apparatus according to claim 2, wherein the correction relay unit corrects and relays only a header part in a transmission frame. 6. A communication system in which a digital signal is transmitted from a headquarters device to a plurality of base station devices arranged in multiple stages via a wired or wireless link line in a frame unit of a fixed period, and a frame synchronization signal and a header portion are transmitted. The area related to the frame synchronization signal of the link transmission frame composed of the payload section is overwritten by the relaying base station apparatus, and the area related to the payload section selection of the header section is decoded by the relaying base station apparatus for error correction. And a re-encoding.