KR100836881B1 - Pilot-aided equalizer system for having an adaptation and method thereof - Google Patents

Abstract

An adaptive equalizer system based on a pilot channel and a method therefor are provided to decode data symbols transmitted to the pilot channel and has a superframe buffer for storing the data symbols during a superframe, thereby preventing the deterioration of performance. An adaptive equalization method based on a pilot channel comprises the following steps of: updating the tap coefficients of broadcasting receiving data transmitted from the outside using a pilot symbol(S1,S2); comparing a data symbol newly transmitted from the outside with a data symbol prestored in a superframe buffer(S3); decoding the newly transmitted data symbol and storing the decoded data symbol in the superframe buffer when the newly transmitted data symbol and the prestored data symbol are not the same(S5); outputting the decoded data symbol to an adaptive equalizer system based on a pilot channel(S6); and adjusting the tap coefficients using the decoded data symbol stored in the superframe buffer(S7).

Description

Pilot-based adaptive equalization system and its method {Pilot-Aided Equalizer System for having an Adaptation and Method}

1 is a diagram schematically illustrating a pilot channel-based adaptive equalization system according to an embodiment of the present invention.

2 is a flowchart illustrating a pilot channel-based adaptive equalization method according to an embodiment of the present invention.

The present invention implements a pilot channel-based adaptive equalization to facilitate the implementation of an adaptive receiver by eliminating the memory for storing the input signal, which is essential for the conventional decision feedback equalizer structure in implementing the decision feedback equalizer under the satellite DMB environment. A system and method thereof are provided.

In general, baseband transmission of digital data requires a lowpass channel with a bandwidth large enough to accommodate the frequency of the data stream, but each received pulse of the channel has intersymbol interference from neighboring pulses. ISI) and channel noise. Intersymbol interference and channel noise are the main causes of bit errors in recovering data streams at the receiving end. One technique proposed to overcome this is Decision Feedback, which is used to control the pulses of the entire system.

Digital multimedia broadcasting can be classified into terrestrial digital multimedia broadcasting and satellite digital multimedia broadcasting.

Terrestrial digital multimedia broadcasting is based on Orthogonal Frequency Division Multiplexing (OFDM), which provides audio and video services on the go. Satellite digital multimedia broadcasting provides CDM (Code Division Multiplexing) code division. Based on the multi-method, `` CDM ''), it is possible to use audio and video services while moving by using the ground gap filler, which is a repeater used to solve the satellite and the shadow area that does not receive radio waves directly from the satellite.

At present, the technology of satellite digital multimedia broadcasting basically adopts CDM transmission method, and is a new concept service of communication and broadcasting convergence, which broadcasts weather, traffic, video information using CD (Compact Disk) level sound quality and various channels. Among these digital multimedia broadcasts, satellite digital multimedia broadcasts have a wide coverage as a national broadcast, but the transmission channel is a wireless mobile reception channel, and the size of the received signal is not only time-varying, As a result, a Doppler shift of the received signal spectrum occurs.

SUMMARY OF THE INVENTION An object of the present invention is to provide a pilot channel-based adaptive equalization system and method for improving satellite broadcast reception performance and improving reception performance of a multipath signal, and performing decoding on data symbols transmitted on a pilot channel. By implementing a pilot channel based adaptive equalization system having a super frame buffer for storing during a super frame and a method thereof, the performance of using a method of performing tap coefficient adjustment only in a pilot symbol interval by actively using a super frame buffer This is to prevent deterioration and to increase hardware area and power consumption caused by using a large memory to store radio signals input to the pilot channel-based adaptive equalizer during the time of decoding data symbols.

The present invention for achieving the above object is a pilot channel-based adaptive equalizer, Viterbi / RS decoder and a super frame buffer, as a receiving pilot channel-based adaptive equalization system for implementing an adaptive receiver ,

During the first half of the slot, the tap coefficients are updated using pilot symbols for broadcast received data transmitted from the outside, and during the second half of the slot, the decoded data symbols stored in the super frame buffer are used. A pilot channel-based adaptive equalizer to perform tap coefficient adjustment A Viterbi / RS decoder for generating a decoded data symbol by error correcting and decoding coefficient adjusted data symbols received from the pilot channel-based adaptive equalizer; And a super frame buffer for receiving the decoded data symbols transmitted from the Viterbi / LS decoder in units of super frames and outputting the decoded data symbols to the pilot channel based adaptive equalizer. Provide a type equalization system.

The present invention for achieving the above object is composed of a pilot channel-based adaptive equalizer, a Viterbi / RS decoder and a super frame buffer, to implement a pilot channel-based adaptive equalization method for implementing an adaptive receiver ,

The pilot channel based adaptive equalizer updating the tap coefficients of broadcast received data transmitted from the outside using pilot symbols during the first half of the slot; A pilot channel based adaptive equalizer comparing the newly transmitted data symbols with the data symbols of the super frame buffer; When the pilot channel-based adaptive equalizer compares the newly transmitted data symbol with the data symbol of the super frame buffer and determines that they are not identical to each other, the Viterbi / LS decoder generates a decoded data symbol according to data decoding. step; Receiving, by a super frame buffer, the decoded data symbol transferred from the Viterbi / RS decoder in a super frame unit; Outputting, by the super frame buffer, the decoded data symbol to the pilot channel based adaptive equalizer; And performing, by the pilot channel-based adaptive equalizer, tap coefficient adjustment using decoded data symbols stored in a super frame buffer during the second half of the slot. to provide..

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a diagram schematically illustrating a pilot channel-based adaptive equalization system according to an embodiment of the present invention.

Referring to FIG. 1, a pilot channel based adaptive equalizer system 1000 includes a pilot channel based adaptive equalizer 100, a Viterbi / LS decoder 110, and a super frame buffer 120.

In general, data symbols transmitted on a pilot channel of a satellite DMB system have a feature of repeating in units of super frames. These data are nearly static and remain the same for a very long time over several days, unless there is a particular change in the satellite DMB broadcast system. By utilizing this feature of the satellite DMB system, the present invention utilizes the conventional pilot channel based adaptive equalizer to delay the I / Q chip signals input to the equalizer while performing Viterbi / RS decoding in real time. You can remove the large memory (CHIP DELAY MEMORY).

Unlike conventional large memory, the super frame buffer used in the present invention can be implemented in a much smaller chip area by storing symbols after despreading, and power consumption is also efficient.

To this end, in the present invention, the data symbol constituting the pilot channel of the satellite DMB system utilizes a characteristic that is periodically repeated every super frame (6 frames, one frame consists of 51 slots).

This characteristic is because the satellite DMB system does not update the information unless there is a special change in the overall channel configuration, and even if the update occurs, the period is more than a few days. Therefore, if the decoded super frame data is stored in advance at every specific period, and the equalizer uses this value, data decoding is continuously performed in real time like the conventional pilot channel-based adaptive equalizer, and the input signal is stored for the required time. There is no need to store it in.

The adaptive equalization system 1000 proposed in the present invention includes a super frame buffer 120 for decoding the data symbols transmitted through the pilot channel and storing the result for one super frame. The pilot channel-based adaptive equalizer 100 is operated without a large amount of memory for storing the input signal used in the conventional scheme.

Each device configured in the pilot channel-based adaptive equalization system according to the present invention will be described below.

First, the pilot channel-based adaptive equalizer 100 performs tap coefficient update of broadcast received data using pilot symbols transmitted on a pilot channel during the first half of a slot. In addition, during the second half of the slot, tap coefficient adjustment is continuously performed using the decoded data symbols stored in the super frame buffer 120.

The Viterbi / LS decoder 110 is used as a decoder for convolutional encoder, which is an error correction encoding method that is widely used in satellite and mobile communication, and uses a maximum similar decoding method as a decoding algorithm.

Accordingly, the Viterbi / LS decoder 110 performs error correction decoding on the data symbols received from the pilot channel-based adaptive equalizer 100 and stores the data symbols of the pilot channel thus obtained in a super frame buffer ( 120).

In addition, the Viterbi / LS decoder 110 generates data symbols received from the pilot channel-based adaptive equalizer 100 by error correction and decoding.

That is, the pilot channel-based adaptive equalizer 100 compares newly transmitted data symbols from the outside with decoded data symbols output from the super frame buffer 120 through a comparator and a processor provided therein, and newly It is determined whether the transmitted data symbol is the same as the data symbol of the super frame buffer.

Subsequently, the super frame buffer 120 receives and stores the decoded data symbols transmitted from the Viterbi / LS decoder 110 in units of super frames and outputs them to the pilot channel based adaptive equalizer 100. That is, the super frame buffer 120 receives the decoded data symbols transmitted from the Viterbi / LS decoder 110 in units of super frames and outputs the decoded data symbols to the pilot channel based adaptive equalizer 100. do.

Herein, the super frame buffer repeatedly receives the decoded data symbol in units of super frames.

Here, the super frame buffer 120 includes a memory unit and a control unit therein. Accordingly, the memory unit temporarily stores the decoded data symbols transmitted from the Viterbi / LS decoder 110, and the controller outputs the decoded data symbols to the pilot channel based adaptive equalizer 100.

As a result, the pilot channel-based adaptive equalizer 100 compares the data symbols transmitted from the outside with the decoded data symbols output from the super frame buffer 120, so that the data decoded during the second half of the slot is decoded. Tap coefficients are adjusted using symbols, and data decoding is performed.

2 is a flowchart illustrating a pilot channel-based adaptive equalization method according to an embodiment of the present invention.

2, the pilot channel-based adaptive equalization method Pilot channel-based adaptive equalization that performs decoding on the data symbols transmitted on the pilot channel and adjusts the tap coefficient only in the pilot symbol interval according to the active use of the super frame buffer. It is about a method.

First, the pilot channel-based adaptive equalizer updates the tap coefficients of broadcast received data transmitted from the outside using pilot symbols during the first half of the slot (S1, S2).

The pilot channel-based adaptive equalizer compares the newly transmitted data symbols with the data symbols previously stored in the superframe buffer (S3), and whether the newly transmitted data symbols and the previously stored data symbols in the superframe buffer are the same. Determine (S4).

As the pilot channel-based adaptive equalizer confirms that the newly transmitted data symbols from the outside and the data symbols previously stored in the superframe buffer are not the same, the Viterbi / LS decoder decodes the newly transmitted data symbols and decodes them. The data symbol is stored in the superframe buffer (S5).

The superframe buffer outputs the decoded data symbols to the pilot channel based adaptive equalizer (S6), and the pilot channel based adaptive equalizer uses the decoded data symbols stored in the super frame buffer during the second half of the slot. Tap coefficient adjustment is performed (S7).

If the pilot channel-based adaptive equalizer determines that the newly transmitted data symbol and the data symbol prestored in the superframe buffer are the same value, the tap coefficient adjustment is immediately performed using the decoded data symbol stored in the superframe buffer. Conduct.

That is, the pilot channel-based adaptive equalizer decodes broadcast reception data according to tap coefficient adjustment between data symbols transmitted from the outside and decoded data symbols output from the super frame buffer (S8).

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

According to the present invention described above, in the pilot channel-based adaptive equalization system and method for improving satellite broadcasting reception performance and receiving performance of a multipath signal, the satellite broadcasting reception performance is improved and a multipath signal is received. A pilot channel based adaptive equalization system and method for improving performance, the method comprising: a pilot channel based adaptive equalization having a super frame buffer for performing decoding on data symbols transmitted on a pilot channel and storing during a super frame By implementing the system and the method, it is possible to prevent performance degradation due to the use of the tap coefficient adjustment only in the pilot symbol interval due to the active use of the super frame buffer, and pilot channel based adaptive equalization during the time of decoding the data symbols. Large memo for storing wireless signals input to the device To give the hardware area, and effects of removing the increase in power consumption that occur with use.

Claims (8)

delete As a pilot channel based adaptive equalizer, Viterbi / LS decoder and super frame buffer, a receive pilot channel based adaptive equalization system that implements an adaptive receiver, During the first half of the slot, the tap coefficients are updated using pilot symbols for broadcast received data transmitted from the outside, and during the second half of the slot, the decoded data symbols stored in the super frame buffer are used. A pilot channel-based adaptive equalizer to perform tap coefficient adjustment A Viterbi / RS decoder for generating a decoded data symbol by error correcting and decoding coefficient adjusted data symbols received from the pilot channel-based adaptive equalizer; And A super frame buffer for receiving the decoded data symbols transmitted from the Viterbi / RS decoder in super frame units and outputting the decoded data symbols to the pilot channel based adaptive equalizer; It is configured to include, The pilot channel based adaptive equalizer, A comparator for comparing the newly transmitted data symbol with the data symbol of the super frame buffer; And  A processor configured to determine whether the newly transmitted data symbol is identical to the data symbol of the super frame buffer; And a pilot channel based adaptive equalization system. The method of claim 2, wherein the super frame buffer A memory unit for temporarily storing the decoded data symbols transferred from the Viterbi / RS decoder; And And a controller for outputting the decoded data symbols to the pilot channel based adaptive equalizer. The method of claim 3, wherein the super frame buffer And adaptively receiving the decoded data symbols in units of super frames. delete delete A receive pilot channel based adaptive equalization method in an adaptive receiver consisting of a pilot channel based adaptive equalizer, a Viterbi / LS decoder, and a super frame buffer, The pilot channel based adaptive equalizer updating the tap coefficients of broadcast received data transmitted from the outside using pilot symbols during the first half of the slot; A pilot channel based adaptive equalizer comparing the newly transmitted data symbols with the data symbols of the super frame buffer; When the pilot channel-based adaptive equalizer compares the newly transmitted data symbol with the data symbol of the super frame buffer, and determines that they are not identical to each other, the Viterbi / LS decoder generates decoded data symbols according to data decoding. step;  The super frame buffer receives the decoded data symbols generated by the Viterbi / LS decoder in units of super frames, and the memory unit of the super frame buffer temporarily stores the decoded data symbols received from the Viterbi / LS decoder. step; Outputting, by the controller of the super frame buffer, the decoded data symbol to the pilot channel based adaptive equalizer; And And performing, by the pilot channel-based adaptive equalizer, tap coefficient adjustment using the decoded data symbols stored in the super frame buffer during the second half of the slot. 8. The method of claim 7, wherein the super frame buffer is And repeatedly receiving the decoded data symbols in units of super frames.

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