Turbo parallel decoding method and decoder

A decoder and decoding technology, applied in the field of Turbo parallel decoding, methods and decoders, can solve the problems of inaccurate external information, increasing the number of iterations, influence and the like

Active Publication Date: 2011-01-19
北京中科晶上科技股份有限公司
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Problems solved by technology

[0018] From the processing process of the parallel window algorithm described above, we can see that the initial values ​​of α and β cannot be obtained in the first iteration, so you need to set them yourself, and the inaccurate initial values ​​of α and β set by yourself will cause the first iteration The extrinsic information of one iteration is inaccurate, and the inaccurate extrinsic information generated by the first iteration is used as the prior information of the second iteration to affect the second iteration. This cumulative error will cause performance loss and correspondingly increase the iterations

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  • Turbo parallel decoding method and decoder

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Embodiment Construction

[0154] The method of the present invention will be further described below in conjunction with the accompanying drawings.

[0155] A method of Turbo parallel decoding such as Figure 4 shown.

[0156] Step S100, the decoder divides the input decoding sequence into W windows, and sequentially adds T α bits, T added in each window α bits are the last T of the previous window α bits, add T to the last edge of window W-1 to window 1 in turn β bits, T added in each window β bits are the first T of the next window β bits, where W, T α , T β is the default value.

[0157] Step S200, the decoder starts the calculation of the forward state metric for the first iteration, the previous T from window 2 to window W α Bits perform the calculation of the forward state metric in parallel according to the parallel window algorithm. When the path reaches the original starting position of the window, window 1 starts to perform the calculation of the forward state metric in parallel with...

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Abstract

The invention relates to a turbo parallel decoding method and a decoder. The method comprises the following steps:1. The decoder divides an input decoding sequence into w windows with the same length and adds bits in front and back of the windows in sequence; 2. The decoder starts the forward state metric calculation of the first iteration and stores the forward state metric of the original end position of the window to serve as the initial value of the forward state metric of next window in the second iteration; 3. The decoder starts the backward state metric calculation of the first iteration and stores the backward state metric of the original end position of the window to serve as the initial value of the backward state metric of the next window in the second iteration; and 4. The decoder removes the added bit section of each window and carries out subsequent iteration according to a parallel window arithmetic, the iteration is ended when the iteration time reaches the preset maximum iteration time.

Description

technical field [0001] The invention relates to the communication field, in particular to a turbo parallel decoding method and a decoder. Background technique [0002] Turbo codes, also known as parallel concatenated convolutional codes (PCCC), were proposed by C. Berrou et al. at the ICC'93 conference. It cleverly combines convolutional codes and random interleavers to achieve random coding. Decoding adopts soft input and soft output iterative decoding to approximate maximum likelihood decoding. Simulation results show that the decoding performance of turbo codes is close to the Shannon limit. The good error correction performance of the Turbo code makes it one of the error correction codes adopted by many communication protocols (WiMAX, LTE). [0003] LTE (Long Term Evolution, Long Term Evolution), as a new wireless access technology, uses Frequency Division Multiple Access (OFDM / FDMA) in the air interface to replace the long-term use of 3GPP Code Division Multiple Acce...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03M13/27H03M13/29
Inventor 郑娟王剑王佩唐杉石晶林
Owner 北京中科晶上科技股份有限公司
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