JP3492644B2 - Relay transmission method and base station apparatus - Google Patents

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 devices arranged in multiple stages from one main station device by a wired or wireless link line, the main station device, the base station device and the base station. The present invention relates to a method and a device for relaying and transmitting a signal between devices.

[0002]

2. Description of the Related Art In a communication system in which a digital signal is transmitted in frame units of a fixed cycle between a plurality of base station devices arranged in multiple stages by wired or wireless link lines, an error due to a transmission line between the base station devices is eliminated. For correction, a relay transmission method is generally used in which an error is corrected in a transmission frame unit at a relay base station and then transmitted to a base station at the next stage.

FIG. 4 shows the structure of the correction relay means in the base station apparatus in the conventional relay transmission system. A transmission frame transmitted from another base station and received by the receiving section 22 is received by the frame error correcting section 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 the increase in processing time. On the other hand, in a system that does not perform error correction relay, the transmission delay time is short, but errors may occur in the header part important for transmission related to frame synchronization and routing control due to errors in the transmission path between base station devices. However, there is a problem in that such a fatal influence is propagated to the base station device after the relay.

The present invention solves the above-mentioned conventional problems. In a communication system in which error correction relay is performed between base station devices, a relay capable of reducing transmission delay and preventing error propagation on a transmission line. An object is to provide a transmission system and a base station device.

[0006]

In order to solve the above problems, a relay transmission method according to the present invention has a fixed period between a plurality of base station devices arranged in multiple stages from a central station device through a wired or wireless link line. When a digital signal is relayed and transmitted in frame units, the area related to the frame synchronization signal of the link transmission frame composed of the frame synchronization signal, the header part and the payload part is overwritten and corrected by the relaying base station device, According to the outline information of the payload section
If the payload is addressed to your own station,
Decrypts the code section and determines that it is not the payload addressed to your station.
If it passes, it passes through its own station without decrypting the payload part.
It is characterized by that. With this configuration,
The link transmission frame can be partially provided with a high error correction capability, which makes it possible to effectively correct errors in the link transmission frame without lowering transmission efficiency as compared with the case where the same error correction is performed. You can make corrections
It is possible to reduce the transmission delay . When a digital signal is transmitted and relayed in a fixed cycle frame unit between a plurality of base station devices arranged in a tree shape in the central station device, it is possible to prevent erroneous selection of an upstream frame in a tree network. Becomes

Further, the base station apparatus of the present invention relays a downlink transmission frame transmitted from the headquarters station apparatus and passed through the higher station side base station apparatus to the lower station side base station apparatus, and is transmitted from the mobile station to the lower order station. with relayed to the upper station side base station an uplink transmission frame via the station side base station apparatus, the header
Payload for the own station according to the payload overview information
Only when it is determined that the payload part is decrypted and addressed
If it is not the payload of
A correction relay means for passing through the local station without decoding the decoding section ,
A wireless device that performs wireless transmission / reception with a mobile station and a payload part in a transmission frame sent from a link line are processed and sent to the wireless device as a transmission signal, and the signal received by the wireless device is a payload. And a payload processing section for sending to the correction relay means.
With this configuration, when it is judged that the payload is not addressed to the own station , the error correction of the relaying base station device
In order to pass through the own station without decrypting the payload part
The error correction of the payload that passes through its own station.
It is possible to reduce the transmission delay and prevent the error propagation on the transmission path, since it is not necessary to perform such processing .

Further, in the base station apparatus of the present invention, only when the correction relay unit refers to the header section in the transmission frame and determines that the payload section attached to the header section is a payload addressed to the own station. Characterized in that it decodes the error correction code applied to the payload section,
Since no processing related to error correction of the payload that passes through the own station does not occur, transmission delay can be reduced.

Further, in the base station apparatus of the present invention, as long as the correction relay means does not exceed the predetermined number of backward protection stages of frame synchronization, even if an error occurs in the frame synchronization signal, the frame synchronization timing is determined. The feature is that the frame synchronization signal is also generated, and even if an error occurs in the frame synchronization signal in a section of a certain link line, it can be prevented from propagating to the subsequent link lines.

Further, the base station apparatus of the present invention is characterized in that the correction relay means corrects only the header portion in the transmission frame and relays it, and delays due to error correction are minimized. It is possible to improve the error correction capability intensively.

Further, the present invention provides a frame synchronization signal in a communication system for transmitting a digital signal in frame units of a constant cycle between a plurality of base station devices arranged in multiple stages from a head office device by 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 and corrected by the relay base station device, and the payload section of the header section is corrected.
When it is judged that the payload is addressed to your station from the summary information
Only the payload part is decrypted, and the payload addressed to
If it is determined that there is no, the payload part is not decrypted
It is a communication system characterized by allowing the local station to pass through , and if it is determined that the payload is not addressed to the local station ,
In order to pass through the own station without decrypting the payload part
The error correction of the payload that passes through its own station.
It is possible to reduce the transmission delay and prevent the error propagation on the transmission path, since it is not necessary to perform such processing .

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to FIGS. 1 to 3. FIG. 1 shows the configuration of a base station device of a wireless communication system. In FIG. 1, the base station device 1 relays a downlink transmission frame transmitted from the head office device 5 and passed through the base station device 2 to the base station device 3, and is transmitted from the mobile station 27 to generate the base station device 4 and the base station. The uplink transmission frame passing through the device 3 is transmitted to the base station device 2
It relays to and wirelessly transmits and receives, and is composed of correction 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 as a transmission signal to the wireless device 9 as needed, causes it to wirelessly transmit, and receives it at the wireless device 9. It has a function of sending a signal as a payload to the correction relay means 6 and 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 the transmission signal sent from the payload processing unit 8 and wirelessly transmits it to the mobile station 27 and the like, and demodulates a received 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 this embodiment is composed of a frame synchronization signal 19, a header section 20 and a payload section 21, as shown in FIG. The frame synchronization signal 19 is assigned with an important area such as a frame synchronization signal (FS) for maintaining frame synchronization on the link line. In the header section 20, a significant signal (B / I) of the payload section 21, priority information (Priority) that determines which of the plurality of payloads is preferentially transmitted in routing control, and the payload is transmitted from the wireless device 9. If the received signal is 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. In addition to the signals transmitted and received by the wireless device 9, the payload unit 21 allocates a signal for controlling and monitoring between the head office device, the base station device and 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. 1 to 3. First, when the transmission frames sent from the other base station devices 2 and 3 to the base station device 1 are received by the respective reception units 10 of the correction relay units 6 and 7, the frame synchronization detection unit 11 determines that the frame The frame synchronization signal (FS) is detected and the frame separation timing is notified to the frame separation unit 12 and the payload selection / synthesis unit 15. The frame demultiplexing unit 12 determines the header unit 2 in the transmission frame from the frame synchronization timing notified from the frame synchronization detecting unit 11.
0 and the payload section 21 are separated, and 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 unit 17 first refers to the header unit 20 output from the error correction unit 13, and only when the payload unit 21 determines that the payload is addressed to its own station,
The error correction code and the like applied to the payload section 21 are 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 the error correction code, and sends it to the payload selection / synthesis unit 15. The error correction code applied to the header section 20 is
For example, a BCH code can be used. When decoding and re-encoding the header section 20, the redundant bit of the error correction code is delayed, so that, for example, BCH at a transmission rate of 100 kbps of the transmission path.
When 21-bit information is transmitted using the (32, 21) code, the header section can be sent to the payload selection / synthesis section 15 with a delay of 10 redundant bits, that is, 0.1 ms. The delay unit 14 has a payload unit 21 for a time period during which the error correction unit 13 performs the error correction processing of the header unit 20.
Is delayed and sent to the payload selection / synthesis unit 15. The payload encoding unit 18 receives the information to be placed in the payload from the payload processing unit 8 and then receives the header unit 2
0 is generated and encoded, a payload part 21 is generated and sent to the payload selection / synthesis part 15.

The payload selection / synthesis unit 15 receives the information to be placed in the payload from the payload processing unit 8 into the payload encoding unit 18, receives the header unit 20 from the payload encoding unit 18 and the error correction unit 13 from the error correcting unit 13. The header section 20 is compared and selected to select one of the header sections 2
0 and the accompanying payload section 21 are combined with the frame synchronization signal 19 to form a frame, which is sent to the transmission section 16.
However, while the frame synchronization is maintained in the frame synchronization detection unit 11, that is, unless the predetermined backward protection stage number of the frame synchronization is exceeded, the frame synchronization signal 19 is generated at the frame synchronization timing, but the frame synchronization is lost. When the is detected, the input from the payload processing unit 8 is prioritized.

As described above, the correction relay method 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, only when the payload error correction unit 17 refers to the header unit 20 output from the error correction unit 13 and determines that the accompanying payload unit 21 is a payload addressed to itself, the error correction code applied to the payload unit 21 Since it operates so as to decode, the processing related to error correction of the payload that passes through the own station does not occur, and the transmission delay can be reduced.

In addition, the payload selection / synthesis unit 15 generates an error in the frame synchronization signal 19 while the frame synchronization is maintained in the frame synchronization detection unit 11, that is, unless the predetermined number of backward protection stages of the frame synchronization is exceeded. Even when the frame synchronization signal 19 is generated, the frame synchronization signal 19 operates so as to be synchronized with the frame synchronization timing. Therefore, even when an error occurs in the frame synchronization signal 19 in a section of a certain link line, it is propagated to the subsequent link lines. Can be prevented.

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

In the above description, a plurality of base station apparatuses are configured in a multi-stage single chain and an intermediate base station apparatus is described as an example. The same can be applied to the case of the 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 by a wired or wireless link line, a base station device for relaying is provided. with respect to the error correction, the local station
If the payload is not addressed to the
By passing through the local station without decoding the code section,
Processing related to error correction of payload that only passes through the station
Since to alleviate the need for performing the, it is possible to reduce the transmission delay, an effect that it is possible to prevent error propagation in the transmission channel.

[Brief description of 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 correction relay means in the base station device 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 method.

[Explanation of symbols]

1 to 4 base station device 5 Headquarters station equipment 6,7 Correction relay means 8 Payload processing unit 9 wireless devices 10 Receiver 11 Frame sync detector 12 frame separator 13 Error correction section 14 Delay section 15 Payload selection / synthesis unit 16 Transmitter 17 Payload error correction unit 18 Payload Encoding Unit 19 frame sync signal 20 header 21 Payload part 22 Receiver 23 Frame error correction unit 24 Transmitter 25, 26 Base station device 27 mobile stations

─────────────────────────────────────────────────── --- Continuation of front page (56) References JP-A-6-113357 (JP, A) JP-A-7-23444 (JP, A) JP-A-10-247942 (JP, A) JP-A-8- 51393 (JP, A) JP 2000-78197 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /00-7/38

Claims (6)

(57) [Claims] 1. When a digital signal is relayed and transmitted in a unit of a frame of a fixed period between a plurality of base station devices arranged in multiple stages by a wired or wireless link line from a central station device, a frame synchronization signal and a header part are provided. The area related to the frame synchronization signal of the link transmission frame composed of the payload section is overwritten and corrected by the base station device that relays, and the payload section outline information of the header section is used to determine the payload for the own station.
Only when it is determined that the
If it is determined that the payload is not addressed to the station, the pay
A relay transmission method characterized by allowing the local station to pass through without decoding the load section . 2. The downlink transmission frame transmitted from the central station device and passed through the higher station side base station device is relayed to the lower station side base station device, and is transmitted from the mobile station and passed through the lower station side base station device. The uplink transmission frame is relayed to the base station apparatus on the upper station side, and the payload section overview information of the header section is used.
If the payload is addressed to your own station,
Decrypts the code section and determines that it is not the payload addressed to your station.
If it passes, it passes through its own station without decrypting the payload part.
And correcting relay section that makes a wireless device for performing radio transmission and reception with the mobile station, feed processes the payload portion in the transmission frame transmitted from the link line to the wireless device as a transmission signal, the wireless device A base station device comprising a payload processing section for sending the signal received in 1. to the correction relay means as a payload. 3. The error correction applied to the payload section only when the correction relay section refers to the header section in the transmission frame and determines that the payload section accompanying the header section is a payload addressed to the own station. The base station apparatus according to claim 2, wherein the code is decoded. 4. The correction relay means generates the frame synchronization signal in synchronization with the frame synchronization timing even if an error occurs in the frame synchronization signal as long as the number of backward protection stages of the frame synchronization is not exceeded. The base station apparatus according to claim 2 or 3, characterized in that. 5. The base station apparatus according to claim 2, wherein the correction relay unit corrects only a header portion in a transmission frame and relays it. 6. A frame synchronization signal and a header section in a communication system for transmitting a digital signal in a frame unit of a constant cycle between a plurality of base station apparatuses arranged in multiple stages by a wired or wireless link line from a central station apparatus. The area related to the frame synchronization signal of the link transmission frame composed of the payload part is overwritten and corrected by the base station device for relaying, and the payload for the own station is made by the payload part outline information of the header part.
Only when it is determined that the
If the payload is not addressed to the
A communication system characterized by allowing the local station to pass through without decoding the code section .