Title :
Information flow of non-uniform differential quantization
Author_Institution :
Fac. of Electr. Eng., Ljubljana Univ., Slovenia
Abstract :
Quantization as part of the analog-to-digital measurement procedure does not depend only on the signal dynamics of the measured object, but also on the dynamic behaviour of the measurement channel. A numerical value is attained with successive approximation of the difference between the the reference and measured quantity. For the effectiveness of differential tracking, the non-uniform quantization must fulfill three conditions: partitions into halves, increasing quantization uncertainty with difference, and low overlapping of the quantization intervals. The best trade between the number of decision levels and the settling time is with a pure exponential quantization rule. The fastest response is achievable with base 2. The finite impulse response of the sampler causes the finite information capacity of the channel. The information rate per step is a little below three. The number of bits decreases towards the end of the conversion
Keywords :
channel capacity; measurement theory; quantisation (signal); signal sampling; analog-to-digital measurement procedure; decision levels; differential tracking; finite impulse response; finite information capacity; information flow; measurement channel; nonuniform differential quantization; nonuniform quantization; partitions; quantization intervals; quantization uncertainty; sampler; settling time; signal dynamics; successive approximation; Amplitude estimation; Channel capacity; Current measurement; Electric variables measurement; Frequency measurement; Pulse measurements; Pulse shaping methods; Quantization; Rate-distortion; Sampling methods;
Conference_Titel :
Signal Processing Proceedings, 2000. WCCC-ICSP 2000. 5th International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-5747-7
DOI :
10.1109/ICOSP.2000.893504
