Title :
A comparison of scalar quantization strategies for noisy channel data transmission
Author :
Cheung, M.Y. ; Vaisey, J.
Author_Institution :
Sch. of Eng. Sci., Simon Fraser Univ., Burnaby, BC, Canada
Abstract :
It is known that the combination of uniform quantization and entropy coding performs optimally at asymptotically high rates. However, due to synchronization problems resulting from the use of variable length codes, this is true only in the absence of transmission errors. Thus, the performance over noisy channels can be improved by using either fixed length codes and Lloyd-Max quantization or by adding end-of-line symbols. Computer simulations are used to compare the above two schemes for a variety of error rates, line lengths and amounts of error protection. It is found that the "uniform" scheme gives the best SNR for a given rate in the case of memoryless Gaussian and Laplacian sources, provided that its parameters are chosen sensibly. It is expected that these results will generalize to other sources.<>
Keywords :
Gaussian processes; data communication; entropy codes; memoryless systems; noise; quantisation (signal); rate distortion theory; telecommunication channels; variable length codes; Lloyd-Max quantization; SNR; computer simulations; data transmission; end-of-line symbols; entropy coding; error protection; error rates; fixed length codes; line lengths; memoryless Gaussian sources; memoryless Laplacian sources; noisy channels; performance; rate distortion curves; scalar quantization; synchronization; uniform quantization; variable length codes; Computer errors; Computer simulation; Entropy coding; Error analysis; Laplace equations; Protection; Quantization;
Journal_Title :
Communications, IEEE Transactions on
