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热词
    • 1. 发明授权
    • Encoding apparatus, decoding apparatus, and encoding and decoding system
    • 编码装置,解码装置以及编码和解码系统
    • US08850275B2
    • 2014-09-30
    • US12929283
    • 2011-01-12
    • Kazuhito SakomizuTakashi Nishi
    • Kazuhito SakomizuTakashi Nishi
    • G06F11/00G11C29/00
    • H03M13/1194H03M13/2957H03M13/616H03M13/6362H03M13/6368H03M13/6381H03M13/6393
    • An encoding apparatus derives a bit order based on a puncturing table that specifies different puncturing patterns for different transmission rates. The encoding apparatus then generates an error correcting code from an input information bit string and rearranges the error correcting code in the derived bit order. The error correcting code is punctured by taking a number of consecutive bits from the rearranged error correcting code. The number of bits taken varies depending on the transmission rate. The punctured error correcting code is output to a decoding apparatus, which realigns the code bits according to the transmission rate and the puncturing table, then uses the realigned error correcting code to correct errors in erroneous data. Rearrangement of the error correcting code makes the puncturing process more efficient by avoiding the need to decide whether to take or discard each bit individually.
    • 编码装置基于针对不同传输速率指定不同的删截图案的删截表,导出比特顺序。 然后,编码装置从输入信息比特串生成纠错码,并以导出的比特顺序重新排列纠错码。 通过从重新排列的纠错码获取多个连续比特来对纠错码进行打孔。 所占用的位数根据传输速率而变化。 经打孔的纠错码被输出到解码装置,根据传输速率和打孔表重新排列码位,然后使用重新排列的纠错码来纠正错误数据中的错误。 错误校正码的重新排列使得穿孔过程更有效,因为避免了决定是单独拍摄还是丢弃每个位的需要。
    • 2. 发明申请
    • Encoding apparatus, decoding apparatus, and encoding and decoding system
    • 编码装置,解码装置以及编码和解码系统
    • US20110258522A1
    • 2011-10-20
    • US12929283
    • 2011-01-12
    • Kazuhito SakomizuTakashi Nishi
    • Kazuhito SakomizuTakashi Nishi
    • H03M13/23G06F11/10
    • H03M13/1194H03M13/2957H03M13/616H03M13/6362H03M13/6368H03M13/6381H03M13/6393
    • An encoding apparatus derives a bit order based on a puncturing table that specifies different puncturing patterns for different transmission rates. The encoding apparatus then generates an error correcting code from an input information bit string and rearranges the error correcting code in the derived bit order. The error correcting code is punctured by taking a number of consecutive bits from the rearranged error correcting code. The number of bits taken varies depending on the transmission rate. The punctured error correcting code is output to a decoding apparatus, which realigns the code bits according to the transmission rate and the puncturing table, then uses the realigned error correcting code to correct errors in erroneous data. Rearrangement of the error correcting code makes the puncturing process more efficient by avoiding the need to decide whether to take or discard each bit individually.
    • 编码装置基于针对不同传输速率指定不同的删截图案的删截表,导出比特顺序。 然后,编码装置从输入信息比特串生成纠错码,并以导出的比特顺序重新排列纠错码。 通过从重新排列的纠错码获取多个连续比特来对纠错码进行打孔。 所占用的位数根据传输速率而变化。 经打孔的纠错码被输出到解码装置,根据传输速率和打孔表重新排列码位,然后使用重新排列的纠错码来纠正错误数据中的错误。 错误校正码的重新排列使得穿孔过程更有效,因为避免了决定是单独拍摄还是丢弃每个位的需要。