Title :
Design of multichannel nonuniform transmultiplexers using general building blocks
Author :
Liu, Ting ; Chen, Tongwen
Author_Institution :
Dept. of Electr. & Comput. Eng., Queen´´s Univ., Belfast, UK
fDate :
1/1/2001 12:00:00 AM
Abstract :
The paper considers design of multichannel, nonuniform-band transmultiplexers. It is well known that using traditional building blocks-up and downsamplers and linear time-invariant (LTI), causal filters-nonuniform transmultiplexers typically do not achieve perfect reconstruction. To alleviate this, we propose to build nonuniform transmultiplexers using general dual-rate structures that provide more design freedom, and hence, perfect reconstruction can be achieved. Such general transmultiplexers have a new source of error called aliasing distortion in addition to the traditional cross-talk, magnitude, and phase distortions. We propose a composite error criterion that captures all four distortions in one. Using this error criterion as reconstruction performance measure. We develop an optimal design procedure and apply it to a three-channel nonuniform example, yielding an FIR transmultiplexer that has good frequency-limiting properties in the synthesis end and is very close to perfect reconstruction
Keywords :
crosstalk; electric distortion; filtering theory; optimisation; signal reconstruction; signal sampling; transmultiplexing; FIR transmultiplexer; aliasing distortion; causal filters; composite error criterion; crosstalk; downsamplers; frequency-limiting properties; general dual-rate structures; linear time-invariant filters; magnitude distortion; multichannel nonuniform transmultiplexers; nonuniform-band transmultiplexers; optimal design; perfect reconstruction; phase distortion; reconstruction performance measure; transmultiplexers design; upsamplers; Distortion measurement; Filter bank; Finite impulse response filter; Frequency division multiplexing; Nonlinear filters; Phase distortion; Sampling methods; Signal analysis; Signal design; Signal synthesis;
Journal_Title :
Signal Processing, IEEE Transactions on
