Title :
Covariance calculation for floating-point state-space realizations
Author :
Ko, Sangho ; Bitmead, Robert R.
Author_Institution :
Dept. of Mech. & Aerosp. Eng., Univ. of California, La Jolla, CA, USA
Abstract :
This paper provides a new method for analyzing floating-point roundoff error for digital filters by using "finite signal-to-noise" models whose noise sources have variances proportional to the variance or power of the corrupted signals. With this model, a new expression for output error covariance of floating-point arithmetic is derived the in case of double or extended precision accumulation. The output error covariance shows that the optimal state space realization for floating point is the same as that of the fixed-point case, except for two cases: when the filter has poles extremely close to the unit circle or when final quantization to precisions shorter than single precision is employed. An explicit formula is found for determining the minimum number of mantissa bits for stable realization.
Keywords :
covariance analysis; digital filters; floating point arithmetic; noise; state-space methods; covariance calculation; digital filter; finite signal-to-noise model; floating-point arithmetic; floating-point roundoff error; floating-point state-space realization; mantissa bits; optimal state space realization; Additive white noise; Analysis of variance; Equations; Error analysis; Fixed-point arithmetic; Floating-point arithmetic; Linear systems; Roundoff errors; Signal analysis; State-space methods; 65; Covariance; multiplicative white noises; optimal state space realizations; roundoff noises;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2004.837439
