Title :
Source-channel optimized trellis codes for bitonal image transmission over AWGN channels
Author :
Kroll, James M. ; Phamdo, Nam
Author_Institution :
3Com, Mt. Prospect, IL, USA
fDate :
7/1/1999 12:00:00 AM
Abstract :
We consider the design of trellis codes for transmission of binary images over additive white Gaussian noise (AWGN) channels. We first model the image as a binary asymmetric Markov source (BAMS) and then design source-channel optimized (SCO) trellis codes for the BAMS and AWGN channel. The SCO codes are shown to be superior to Ungerboeck´s codes by approximately 1.1 dB (64-state code, 10-5 bit error probability), We also show that a simple “mapping conversion” method can be used to improve the performance of Ungerboeck´s codes by approximately 0.4 dB (also 64-state code and 10 -5 bit error probability). We compare the proposed SCO system with a traditional tandem system consisting of a Huffman code, a convolutional code, an interleaver, and an Ungerboeck trellis code. The SCO system significantly outperforms the tandem system. Finally, using a facsimile image, we compare the image quality of an SCO code, an Ungerboeck code, and the tandem code, The SCO code yields the best reconstructed image quality at 4-5 dB channel SNR
Keywords :
AWGN channels; Markov processes; combined source-channel coding; facsimile; image coding; trellis codes; 0.4 dB; 1.1 dB; AWGN channels; BAMS; SCO trellis code; Ungerboeck´s codes; additive white Gaussian noise channels; binary asymmetric Markov source; binary images; bitonal image transmission; facsimile image; image quality; mapping conversion method; performance; reconstructed image; source-channel optimized trellis codes; AWGN channels; Additive white noise; Convolutional codes; Error probability; Image communication; Image quality; Image reconstruction; Magnesium compounds; Maximum likelihood decoding; Redundancy;
Journal_Title :
Image Processing, IEEE Transactions on
