K. Naghshineh et al., USE OF ACOUSTIC BASIS FUNCTIONS FOR ACTIVE CONTROL OF SOUND POWER RADIATED FROM A CYLINDRICAL-SHELL, The Journal of the Acoustical Society of America, 103(4), 1998, pp. 1897-1903
In a previous paper by the authors [J. Acoust. Sec. Am. 92, 856-870 (1
992)], a general strategy was devised for achieving minimum radiation
of sound from structures subjected to a harmonic excitation force. In
this strategy, a quadratic expression is written for the total sound p
ower radiated from the structure in terms of the primary and actuator
(control) forces. Using quadratic optimization of this expression, a s
ingle control force vector is found which minimizes the radiated sound
power for the particular acoustic model of the structure. The structu
ral response to this control force is referred to as the ''weak radiat
or'' response and is then used as an objective function for an adaptiv
e algorithm. In previous work, this strategy was used to control the s
ound radiated from a baffled beam. The work presented in this paper ex
tends the application of this strategy to the case of a cylindrical sh
ell with endcaps. Numerical predictions were verified experimentally.
These results show that this strategy is successful in controlling the
sound radiated from the cylindrical shell by yielding large reduction
s in the structural supersonic wave number content. (C) 1998 Acoustica
l Society of America.