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    • 1. 发明申请
    • MODULATION CODE SYSTEM AND METHODS OF ENCODING AND DECODING A SIGNAL
    • 调制码系统及编码和解码信号的方法
    • WO2005098855A1
    • 2005-10-20
    • PCT/IB2005/051097
    • 2005-04-01
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.HOLLMANN, Hendrik, D., L.BERGMANS, Johannes, W., M.
    • HOLLMANN, Hendrik, D., L.BERGMANS, Johannes, W., M.
    • G11B20/14
    • G11B20/10009G11B20/10046G11B20/10194G11B20/1426H03M5/145
    • The invention relates to a modulation code system and a corresponding modulation method. Said modulation system comprises an encoder (100) for transforming an original signal (s) into an encoded signal (c) satisfying predefined second constraints. Said modulation code system further comprises a decoder (200) for decoding the encoded signal (c), after restoration, back into the original signal (s). It is the object of the invention to improve such a known modulation code system and method the amount of required by reducing hardware. This object is achieved by designing the encoder (100) such that it comprises a series connection of a modulation code encoder (110) and a transformer encoder (120) used for filtering an intermediate signal (t), output by said modulation code encoder (110) and satisfying predefined first constraints, in order to generate said encoder output signal (c). The decoder (200) comprises a series connection of a transformer decoder (220) and a modulation code decoder (210).
    • 本发明涉及一种调制码系统和相应的调制方法。 所述调制系统包括用于将原始信号变换为满足预定义的第二约束的编码信号(c)的编码器(100)。 所述调制码系统还包括解码器(200),用于在恢复之后将编码信号(c)解码成原始信号。 本发明的目的是通过减少硬件来改进这种已知的调制码系统和方法所需的量。 该目的通过设计编码器(100)来实现,使得它包括调制码编码器(110)和用于滤波中间信号(t)的变压器编码器(120)的串联连接,所述中间信号(t)由所述调制码编码器 110)并满足预定义的第一约束,以便产生所述编码器输出信号(c)。 解码器(200)包括变压器解码器(220)和调制码解码器(210)的串联连接。
    • 2. 发明申请
    • MODULATION CODE SYSTEM AND METHODS OF ENCODING AND DECODING A SIGNAL
    • 调制码系统及编码和解码信号的方法
    • WO2005098851A1
    • 2005-10-20
    • PCT/IB2005/051093
    • 2005-04-01
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.HOLLMANN, Hendrik, D., L.BERGMANS, Johannes, W., M.
    • HOLLMANN, Hendrik, D., L.BERGMANS, Johannes, W., M.
    • G11B20/10
    • G11B20/10009G11B20/1426H03M5/145
    • The invention relates to a modulation code system and methods of encoding and decoding a signal to be used for data transmission or data storage. Such systems comprise an encoder (100) for transforming an original signal s into an encoded signal c satisfying predefined second constraints before said signal being transmitted via a channel (300). Such modulation code systems further comprise a decoder (200) for decoding the encoded signal c, after restoration, back into the original signal s. It is the object of the invention to improve such known systems and methods in such a way that they require less hardware. This object is achieved according to the invention in that the encoder (100) comprises a modulation encoder (110) transforming the original signal s into an intermediate signal t satisfying predefined first constraints and a transformer encoder (120) for transforming the intermediate signal t into the encoded signal c. The object is further achieved in such a way that the decoder (200) comprises a transformer decoder (220) for re-transforming the encoded signal c into said intermediate signal t and a modulation code decoder (210) for decoding that intermediate signal t into said original signal s.
    • 本发明涉及一种调制码系统和对要用于数据传输或数据存储的信号进行编码和解码的方法。 这样的系统包括编码器(100),用于在通过信道(300)传输所述信号之前将原始信号s变换为满足预定义的第二约束的编码信号c。 这种调制码系统还包括一个解码器(200),用于在恢复之后将编码信号c解码成原始信号s。 本发明的目的是改进这种已知的系统和方法,使得它们需要更少的硬件。 该目的是根据本发明实现的,因为编码器(100)包括调制编码器(110),其将原始信号s变换成满足预定义的第一约束的中间信号t和用于将中间信号t变换成 编码信号c。 该目的进一步实现,使得解码器(200)包括用于将编码信号c重新变换成所述中间信号t的变压器解码器(220)和用于将该中间信号t解码成 说原始信号。
    • 5. 发明申请
    • METHOD AND DEVICE FOR DETERMINING WRITE PARAMETERS FOR RECORDING INFORMATION ON A RECORD CARRIER
    • 用于确定记录载体上记录信息的写参数的方法和装置
    • WO2005006327A1
    • 2005-01-20
    • PCT/IB2004/051067
    • 2004-06-30
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.COENE, Willem, M., J., M.BERGMANS, Johannes, W., M.IMMINK, Albert, H., J.BUSCH, ChristopherVAN DER LEE, Alexander, M.HEKSTRA, Andries, P.SPRUIJT, Aloysius, M. J., M.DE RUIJTER, Johannes, M.
    • COENE, Willem, M., J., M.BERGMANS, Johannes, W., M.IMMINK, Albert, H., J.BUSCH, ChristopherVAN DER LEE, Alexander, M.HEKSTRA, Andries, P.SPRUIJT, Aloysius, M. J., M.DE RUIJTER, Johannes, M.
    • G11B20/10
    • G11B20/1217G11B7/14G11B20/10009G11B2020/1249G11B2020/1288G11B2220/2541
    • The present invention relates to a method of determining write parameters for recording information on a record carrier, said information being in the form of a multi­dimensional channel data stream to be recorded as a channel band of at least two symbol rows one-dimensionally evolving along a first direction and aligned with each other along a second direction. In particular in the case of a read-only optical record carrier (ROM), for determining pit-hole sizes as the write parameters of pit-bits to be mastered on a ROM disc, the write parameters for recording a pit-symbol of a symbol unit of said channel data stream, a symbol unit comprising a central symbol and a number of neighbouring symbols of which some are located on the same symbol row as the central symbol and others are located on neighbouring symbol rows, are determined under joint consideration of The present invention relates to a method of determining write parameters for recording information on a record carrier, said information being in the form of a multi­dimensional channel data stream to be recorded as a channel band of at least two symbol rows one-dimensionally evolving along a first direction and aligned with each other along a second direction. In particular in the case of a read-only optical record carrier (ROM), for determining pit-hole sizes as the write parameters of pit-bits to be mastered on a ROM disc, the write parameters for recording a pit-symbol of a symbol unit of said channel data stream, a symbol unit comprising a central symbol and a number of neighbouring symbols of which some are located on the same symbol row as the central symbol and others are located on neighbouring symbol rows, are determined under joint consideration of (ii) the symbol values of the neighbouring symbols of the symbol unit located in the same symbol row as the central symbol of the symbol unit; and (iii) the symbol values of neighbouring symbols of the symbol unit located in the symbol rows that are neighbouring the symbol row of the central symbol of the symbol unit. Further, an iterative procedure for determining the write parameters is proposed.
    • 本发明涉及一种确定用于在记录载体上记录信息的写入参数的方法,所述信息是多维通道数据流的形式,以被记录为沿着一维地演化的至少两个符号行的通道带 第一方向并且沿着第二方向彼此对准。 特别是在只读光学记录载体(ROM)的情况下,为了将凹坑大小确定为要在ROM盘上掌握的凹坑位的写入参数,写入参数用于记录一个凹坑符号 所述信道数据流的符号单元,包括中心符号和多个相邻符号的符号单元,其中一些位于与中心符号相同的符号行上,并且其他位于相邻符号行上的相邻符号在联合考虑 本发明涉及一种确定用于在记录载体上记录信息的写入参数的方法,所述信息是多维通道数据流的形式,以被记录为沿着一维地演化的至少两个符号行的通道带 第一方向并且沿着第二方向彼此对准。 特别是在只读光学记录载体(ROM)的情况下,为了将凹坑大小确定为要在ROM盘上掌握的凹坑位的写入参数,写入参数用于记录一个凹坑符号 所述信道数据流的符号单元,包括中心符号和多个相邻符号的符号单元,其中一些位于与中心符号相同的符号行上,并且其他位于相邻符号行上的相邻符号在联合考虑 (ii)位于与符号单元的中心符号相同的符号行中的符号单元的相邻符号的符号值; 和(iii)位于与符号单元的中心符号的符号行相邻的符号行中的符号单元的相邻符号的符号值。 此外,提出了用于确定写入参数的迭代过程。
    • 7. 发明申请
    • BIT DETECTION METHOD AND DEVICE
    • 位检测方法和装置
    • WO2004032334A1
    • 2004-04-15
    • PCT/IB2003/004148
    • 2003-09-17
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.COENE, Willem, M., J., M.IMMINK, Albert, H., J.BERGMANS, Johannes, W., M.
    • COENE, Willem, M., J., M.IMMINK, Albert, H., J.BERGMANS, Johannes, W., M.
    • H03M5/14
    • G11B20/1217G11B20/10009G11B20/1426G11B2020/1249G11B2020/1288G11B2220/2541H03M5/145
    • The present invention relates to a bit detection method for detecting the bit values of bits of a channel data stream stored on a record carrier, wherein the channel data stream resides on an N-dimensional lattice of bits and comprises a plurality of contiguous bit units, each bit unit comprising at least one bit, wherein bit detection for the channel data stream is performed by an iterative procedure, each iteration being carried out on the basis of said bit units, wherein the bit values of the bits of a bit unit are detected by said iterative procedure based on the received HF signal values of the bits of said bit unit. The proposed method comprises an initialisation step, an updating step and an iteration such the method the bits are detected in an iterative but non-recursive way which allow for a high level of parallel processing in the implementation. In the proposed bit detection method, an evaluation criterion is used which is based on the difference between the received HF-signal and a reference HF-signal for each bit of a bit unit consisting of a plurality of bits, where the reference HF-signal depends on the bit value of the bit to be updated, and on its neighbouring bits, for which bit decisions in a previous iteration step are used. Thus, a high capacity, in particular in two-dimensional optical storage, can be achieved which substantially improves the performance of a threshold detector. Hence, the bit detection method according to the invention does not prohibit implementations aimed for high data-rates.
    • 本发明涉及一种用于检测存储在记录载体上的信道数据流的比特值的比特检测方法,其中信道数据流驻留在比特的N维网格上,并且包括多个连续比特单元, 每个比特单元包括至少一个比特,其中通过迭代过程执行所述信道数据流的比特检测,每个迭代是基于所述比特单元执行的,其中检测比特单元的比特的比特值 通过所述迭代过程,基于所接收的所述比特单元的比特的HF信号值。 所提出的方法包括初始化步骤,更新步骤和迭代,使得该方法以迭代但非递归方式检测比特,这允许在实现中进行高水平的并行处理。 在提出的比特检测方法中,使用基于由多个比特组成的比特单元的每个比特的接收HF信号和参考HF信号之间的差异的评估标准,其中参考HF信号 取决于要更新的​​位的位值,以及在其相邻位中使用先前迭代步骤中哪个位决定。 因此,可以实现高容量,特别是二维光学存储,这大大提高了阈值检测器的性能。 因此,根据本发明的比特检测方法不禁止针对高数据速率的实现。
    • 8. 发明申请
    • VITERBI BIT DETECTION METHOD AND DEVICE
    • VITERBI位检测方法和设备
    • WO2004029956A1
    • 2004-04-08
    • PCT/IB2003/003733
    • 2003-08-13
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.COENE, Willem, M., J., M.IMMINK, Albert, H., J.BERGMANS, Johannes, W., M.
    • COENE, Willem, M., J., M.IMMINK, Albert, H., J.BERGMANS, Johannes, W., M.
    • G11B20/10
    • G11B20/1217G11B20/10009G11B20/10296G11B20/22G11B2020/1249G11B2020/1288G11B2220/2541
    • The present invention relates to a Viterbi bit detection method for detecting the bit values of bits of a channel data stream stored on a record carrier along an N-dimensional channel tube, N being at least two, of at least two bit rows one-dimensionally evolving along a first direction and being aligned with each other along at least a second of N-1 other directions, said first direction together with said N-1 other directions constituting an N-dimensional lattice of bit positions, comprising application of a row-based one-dimensional Viterbi bit detection method independent for each of the bit rows of said channel tube. To achieve a reliable bit detection a number of independent one-dimensional row-based Viterbi bit detectors, also known as sequence detectors, is used, one for each bit row in the channel tube : the interference between successive neighbouring bit rows is taken into account via the computation of the branch metrics (for the considered bit row), in which local bit decisions on the primary neighbouring bits in the neighbouring rows are used.
    • 维特比比特检测方法本发明涉及一种维特比比特检测方法,用于检测沿着N维信道管存储在记录载体上的信道数据流的比特值,N是至少两个位于一维的至少两个比特行 沿着第一方向演化并且沿着N-1个其他方向中的至少一个第二方向彼此对准,所述第一方向与构成比特位置的N维格子的所述N-1个其他方向一起,包括应用行 - 基于一维维特比比特检测方法,独立于所述通道管的每个比特行。 为了实现可靠的位检测,使用了许多独立的一维行维特比比特检测器(也称为序列检测器),一个用于信道管中的每个比特行:相继的相邻比特行之间的干扰被考虑 通过计算分支度量(对于考虑的比特行),其中使用相邻行中的主相邻比特的本地比特决定。