Title :
Practical coding for QAM transmission of HDTV
Author :
Heegard, Chris ; Lery, Scott A. ; Paik, Woo H.
Author_Institution :
Sch. of Electr. Eng., Cornell Univ., Ithaca, NY, USA
fDate :
1/1/1993 12:00:00 AM
Abstract :
It is demonstrated how modulation schemes based on QPSK can be directly incorporated into QAM-based systems. It is argued that this leads directly to an easily implementable structure that is both efficient in bandwidth and data reliability. It is contended that the correct solution to the concatenated coding problem for HDTV transmission is to simply extend the modulation codes developed for QPSK-to-QAM modulation. In nonconcatenated situations, a trellis code based on a binary code at rate 2/3 is usually best. However, this is not the case for higher error rates at the output of the trellis decoder (e.g., when a symbol error correcting decoder follows as a concatenated code). The reason for this follows from an analysis of the effect of the number of nearest neighbors on the error rate. A four-way partition of QAM is a natural extension of QPSK modulation; it is a simple matter to incorporate any good QPSK code into a trellis coding scheme for QAM modulation. A concatenated coding scheme based on QPSK trellis codes and symbol error correcting coding is proposed. An example is presented to show the advantages of this approach
Keywords :
amplitude modulation; error correction codes; high definition television; image coding; phase shift keying; television broadcasting; trellis codes; video signals; HDTV; QAM transmission; QPSK; concatenated coding scheme; nonconcatenated schemes; symbol error correcting coding; trellis coding scheme; Bandwidth; Concatenated codes; Convolutional codes; Decoding; Error analysis; Error correction codes; HDTV; Modulation coding; Quadrature amplitude modulation; Quadrature phase shift keying;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
