Title :
Comments on "Finite word-length effects of pipelined recursive digital filters" [with reply]
Author :
Jackson, L.B. ; KyungHi Chang ; Bliss, W.G.
Author_Institution :
Dept. of Electr. & Comput. Eng., Rhode Island Univ., Kingston, RI, USA
Abstract :
The author comments that it is generally inappropriate to use stochastic models for coefficient quantization errors in digital filters, as proposed by Chang and Bliss (see ibid., vol.42, p.1983-95, Aug. 1994), since the associated effects are deterministic and amenable to linear analysis. Chang et. al. reply that the statistical analysis of coefficient quantization noise in digital filters is a useful technique because it gives theoretical and practical results without resorting to lengthy case-by-case trials. The realization problem of digital filters can thus be simplified analytically by statistical approaches. Furthermore, statistical approaches have an advantage of supplying unified tools for round-off and coefficient quantization noise.
Keywords :
digital filters; filtering theory; pipeline processing; roundoff errors; statistical analysis; stochastic processes; coefficient quantization errors; coefficient quantization noise; digital filters; finite word-length effects; linear analysis; pipelined recursive digital filters; round-off noise; statistical analysis; statistical approaches; stochastic models; Crosstalk; Digital filters; Filtering; Interpolation; Quantization; Signal processing; Signal processing algorithms; Statistical analysis; Stochastic processes; Technological innovation;
Journal_Title :
Signal Processing, IEEE Transactions on
