Abstract: A communication method includes obtaining a plurality of to-be-encoded symbols; determining, from a symbol matrix, a plurality of first symbols corresponding to the to-be-encoded symbols, where the symbol matrix includes a plurality of rows of symbols and a plurality of columns of symbols, symbols in the symbol matrix constitute a plurality of blocks, the blocks constitute a block matrix, and the first symbols include symbols in a plurality of first blocks in the block matrix, where the first blocks are grouped into at least one block group, a difference between row numbers of any two first blocks in any block group is not the same as a difference between row numbers of other two first blocks in the any block group; and performing check processing on the first symbols and the to-be-encoded symbols to generate checked symbols.

Abstract: The present disclosure provides an encoding and decoding device implementing an improved forward error correction (FEC) coding/decoding method. In particular, the encoding device is configured to encode a stream of data symbols using a spatially coupled code (e.g. staircase codes, braided block codes or continuously interleaved block codes), wherein at least one generalized error location (GEL) code is used as a component code of the spatially coupled code. Accordingly, the decoding device is configured to decode a sequence of encoded symbol blocks using a spatially coupled code, wherein at least one GEL code is used as a component code of the spatially coupled code. Thereby, a suitable spatially coupled FEC code that allows for very low-latency, high-throughput, high-rate applications with a low-complexity decoding procedure, and allows for mitigation of the error-floor, is designed.

Abstract: A communication method includes obtaining a plurality of to-be-encoded symbols; determining, from a symbol matrix, a plurality of first symbols corresponding to the to-be-encoded symbols, where the symbol matrix includes a plurality of rows of symbols and a plurality of columns of symbols, symbols in the symbol matrix constitute a plurality of blocks, the blocks constitute a block matrix, and the first symbols include symbols in a plurality of first blocks in the block matrix, where the first blocks are grouped into at least one block group, a difference between row numbers of any two first blocks in any block group is not the same as a difference between row numbers of other two first blocks in the any block group; and performing check processing on the first symbols and the to-be-encoded symbols to generate checked symbols.

Abstract: The present disclosure provides an encoding and decoding device implementing an improved forward error correction (FEC) coding/decoding method. In particular, the encoding device is configured to encode a stream of data symbols using a spatially coupled code (e.g. staircase codes, braided block codes or continuously interleaved block codes), wherein at least one generalized error location (GEL) code is used as a component code of the spatially coupled code. Accordingly, the decoding device is configured to decode a sequence of encoded symbol blocks using a spatially coupled code, wherein at least one GEL code is used as a component code of the spatially coupled code. Thereby, a suitable spatially coupled FEC code that allows for very low-latency, high-throughput, high-rate applications with a low-complexity decoding procedure, and allows for mitigation of the error-floor, is designed.