论文信息 - Continuous-time to discrete-time conversion via a novel parametrized s-to-z-plane mapping

Continuous-time to discrete-time conversion via a novel parametrized s-to-z-plane mapping

A parametrized s-to-z-plane map is introduced, where the conventional bilinear map and backward and forward Euler rules appear as special cases. Time and frequency-domain characteristics of the map are discussed, along with a simple technique for applying this map to adaptively reduce truncation error in the continuous-time to discrete-time conversion problem. An example illustrates the method and its potential for yielding more accurate discrete-time models over conventional approaches.

W. L. Melvin | D. R. Frey | D. Frey | W. Melvin

[1] M.L. Liou,et al. Computer-aided analysis of electronic circuits: Algorithms and computational techniques , 1977, Proceedings of the IEEE.

[2] Alan V. Oppenheim,et al. Discrete-Time Signal Pro-cessing , 1989 .

[3] A. M. Schneider,et al. Higher order s-to-z mapping functions and their application in digitizing continuous-time filters , 1991 .

[4] Z. Kowalczuk,et al. On discretization of continuous-time state-space models: a stable-normal approach , 1991 .

[5] U. Forssen. Adaptive bilinear digital filters , 1993 .

[6] Mohamad Adnan Al-Alaoui,et al. Novel IIR differentiator from the Simpson integration rule , 1994 .