Systematic design optimization of a competitive soft-concatenated decoding system

Due to the advances in VLSI technology complete digital communication systems can today be implemented on single application specific VLSI circuits. The optimum choice of implementation parameters, such as signal wordlengths, is a critical design task since poor parameter choices can lead to costly designs. On the other hand, the high number of parameters to be selected span a large search space that is very difficult to handle. The authors present a new systematic approach to parameter selection and apply this approach to the design optimization of a decoding system for a concatenated coding scheme. Two convolutional codes are concatenated and both are decoded by soft decision decoding. This is facilitated by means of soft output decoding of the inner code. The performance of the scheme is better than that of the well known standard code with 64 states for moderate BER at equivalent implementation cost. The proposed coding scheme is thus an attractive alternative whenever high bit error rate performance is prerequisite, e.g. for digital HDTV transmission.<<ETX>>

[1]  Heinrich Meyr,et al.  DIRECS: system design of a 100 Mbit/s digital receiver , 1992 .

[2]  Yasuo Hirata,et al.  High-Rate Punctured Convolutional Codes for Soft Decision Viterbi Decoding , 1984, IEEE Trans. Commun..

[3]  R. Kerr,et al.  A 25 MHz Viterbi FEC codec , 1990, IEEE Proceedings of the Custom Integrated Circuits Conference.

[4]  E. Offer,et al.  Improving the standard coding system for deep space missions , 1993, Proceedings of ICC '93 - IEEE International Conference on Communications.

[5]  David Haccoun,et al.  Coding for Satellite Communication , 1987, IEEE J. Sel. Areas Commun..

[6]  H. Meyr,et al.  Soft-output Viterbi decoding: VLSI implementation issues , 1993, IEEE 43rd Vehicular Technology Conference.

[7]  H. Meyr,et al.  High-speed VLSI architectures for soft-output Viterbi decoding , 1992, [1992] Proceedings of the International Conference on Application Specific Array Processors.

[8]  Shuji Kubota,et al.  DSD (Double Soft Decision) Concatenated FEC Scheme in Mobile Satellite Communication Systems , 1992, IEEE J. Sel. Areas Commun..

[9]  R. A. Harris,et al.  Low complexity concatenated coding schemes for digital satellite communications , 1989 .

[10]  Joachim Hagenauer,et al.  A Viterbi algorithm with soft-decision outputs and its applications , 1989, IEEE Global Telecommunications Conference, 1989, and Exhibition. 'Communications Technology for the 1990s and Beyond.

[11]  Lars Erup,et al.  On numerical optimization of communications system design , 1988, IEEE J. Sel. Areas Commun..