Title :
Modeling and H∞ optimal control of active noise cancelling headphones
Author :
Ison, Anna ; Ren, Wei
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
Abstract :
This paper presents the preliminary results of an ongoing study to maximize the attenuation level and bandwidth of active noise cancelling (ANC) headphones through the use of advanced system identification methods and feedback control design tools. After conducting an identification experiment on the physical system, the collected data were used to estimate a headphone model. The “best” model was obtained by comparing the results of several identification methods, including prediction error methods based on ARX and state space models as well as nonparametric methods. H∞ optimal control and μ-synthesis techniques are shown to be ideally suited to the design of high performance robust active noise cancelling headphones. By choosing different weighting functions, performance limits (in terms of noise attenuation level and attenuation bandwidth) achievable by the system for various uncertainty levels were explored
Keywords :
H∞ control; acoustoelectric transducers; active noise control; control system synthesis; feedback; headphones; identification; nonparametric statistics; robust control; state-space methods; μ-synthesis techniques; ARX models; H∞ optimal control; active noise cancelling headphones; advanced system identification methods; attenuation bandwidth; feedback control design tools; headphone model; noise attenuation level; nonparametric methods; prediction error methods; state space models; uncertainty levels; weighting functions; Attenuation; Bandwidth; Feedback control; Headphones; Noise cancellation; Noise robustness; Optimal control; Predictive models; State-space methods; System identification;
Conference_Titel :
American Control Conference, Proceedings of the 1995
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-2445-5
DOI :
10.1109/ACC.1995.532298
