Sage Journals: Discover world-class research

Abstract

Smart foam offers a lightweight, efficient noise control solution by combining the complimentary advantages of passive dissipation in the foam material with the actuation authority of the active piezoelectric component, under appropriate control input. This study aims to implement the sensoriactuator operation of the active piezoelectric component to obtain an alternate error signal from its mechanical strain response. This can potentially replace the use of far-field microphone error sensors in active noise control applications, and hence improve the compactness of the system. The piezoelectric sensoriactuator has been implemented with the hybrid analog–digital compensation of the quasi-stable feedthrough capacitance of the actuator using an adaptive algorithm. The mechanical charge response, thus obtained, has been minimized using an adaptive algorithm and its effect on the transmission loss has been studied. Additionally, it has also been utilized in absorption and transmission control problems, using a virtual sensing strategy, with the aim of obtaining the desired control performance by minimizing an estimated virtual error signal. The experimental results are supplemented with finite element simulation of the coupled noise control system, and it provides a significant insight into the physical problem of the realization of the smart foam sensoriactuator.

Keywords

smart foam sensoriactuator self sensing active vibroacoustic control piezoelectric transmission loss

Get full access to this article

View all access options for this article.

References

ASTM-E1050-98 (1998) Standard Test Method for Impedance and Absorption of Acoustical Materials Using a Tube, Two Microphones, and a Digital Frequency Analysis System. West Conshohocken, PA: American Society for Testing Materials.

Atalla

Hamdi

Panneton

(2001) Enhanced weak integral formulation for the mixed (U,P) poroelastic equations. J Acoust Soc Am 109: 3065–3068.

Blevins

(1979) Formulas for Natural Frequency and Mode Shapes, chapter 12. New York: Van Nostrand.

Chung

Blaser

(1980) Transfer function method of measuring induct acoustic properties. I. theory. J Acoust Soc Am 68: 907–913.

Clark

Vipperman

Cole

(1996) Adaptive piezoelectric sensoriactuator. U.S. Patent 5578761 .

Debergue

Panneton

Atalla

(1999) Boundary conditions for the weak formulation of the mixed (U,P) poroelasticity problem. J Acoust Soc Am 106: 2383–2390.

Dosch

Inman

Garcia

(1992) A self-sensing piezoelectric actuator for collocated control. J Intell Mater Syst Struct 3: 166–185.

Elliott

David

(1992) Virtual microphone arrangement for local active sound control. Proceedings of 1st International Conference on Motion and Vibration Control. Yokohama, Japan, 1027–1031.

Elliott

(2001) Signal Processing for Active Control. London: Academic Press120–126.

10.

Fuller

Bronzel

Gentry

Whittington

(1994) Control of sound radiation/reection with adaptive foams. Proceedings of the 1994 National Conference on Noise Control Engineering, Blacksburg, VA, USA: Virginia Polytechnic Inst and State Univ, May 1–4, 429–436.

11.

Fuller

Guigou

Gentry

(1996) Foam-PVDF smart skin for active control of sound. Smart Structures and Materials 1996: Industrial and Commercial Applications of Smart Structures Technologies, Blacksburg, VA, USA: Virginia Polytechnic Inst. and State Univ, 2721, Feb 27– 29, 26–37.

12.

Kundu

Berry

(2011) Active control of transmission loss with smart foams. J Acoust Soc Am 129: 726–740.

13.

Kundu

Berry

Leroy

(2009) Active control of broadband noise using smart foams. Proceedings of ACTIVE 2009 Ottawa, Ontario, Canada.

14.

Leissa

(1973) Vibration of Shells, chapter 2 NASA SP-288.

15.

Leroy

Les mousses adaptatives pour l'amelioration de l'absorption acoustique : modelisation, mise en oeuvre, mecanismes de controle (Smart foams for the improvement of acoustic absorption: modeling, implementation, control mechanism) (2008) Ph.D. Thesis . Sherbrooke, Québec, Canada: Université de Sherbrooke.

16.

Leroy

Atalla

Berry

(2009) Three dimensional finite element modeling of smart foam. J Acoust Soc Am 126: 2873–2885.

17.

Leroy

Berry

Herzog

Atalla

(2011) Experimental study of a smart foam sound absorber. J Acoust Soc Am 129: 154–164.

18.

Moheimani

SOR

(2003) A survey of recent innovations in vibration damping and control using shunted piezoelectric transducers. IEEE Trans Control Syst Technol 11: 482–494.

19.

Peterson

Cazzolato

Zander

Hansen

(2006) Active noise control at a moving location using virtual sensing. In: Proceedings of the 13th International Congress on Sound and Vibration, Vienna, Austria, July 2–6.

20.

Peterson

Fraanje

Cazzolato

Zander

Hansen

(2007) A Kalman filter approach to virtual sensing for active noise control. Mech Syst Sig Process 22: 490–508.

21.

Roure

Albarrazin

(1999) The remote microphone technique for active noise control. In: Proceedings of Active '99, Fort Lauderdale, USA1233–1244.

22.

Vipperman

Clark

(1996) Implementation of an adaptive piezoelectric sensoriactuator. AIAA J 34: 2102–2109.

Active sound control with smart foams using piezoelectric sensoriactuator

Abstract

Keywords

Get full access to this article

References