TY - GEN
T1 - Application of the vincent circle to noise suppresion
AU - Herrin, D. W.
AU - Sampath, G.
PY - 2008
Y1 - 2008
N2 - The Vincent Circle1,2 principle may be stated as follows. If a structure is excited harmonically, the response at another position at a particular frequency will trace a circle in the complex plane as a result of a dynamic stiffness modification between two points. As either the real or imaginary part of an introduced dynamic stiffness is varied from plus and minus infinity, the structural or acoustic response will map a circle in the complex plane. This paper summarizes the basis for this little known principle. Two numerical simulations are included to demonstrate how the principle can be applied. In the first example, a cantilevered plate is used to confirm that the principle is amenable to noise problems. A similar analysis is then performed on a construction cab to illustrate the applicability of the method if the structure is excited at multiple locations. The results suggest that the principle can be used in place of or in conjunction with more sophisticated numerical optimization schemes.
AB - The Vincent Circle1,2 principle may be stated as follows. If a structure is excited harmonically, the response at another position at a particular frequency will trace a circle in the complex plane as a result of a dynamic stiffness modification between two points. As either the real or imaginary part of an introduced dynamic stiffness is varied from plus and minus infinity, the structural or acoustic response will map a circle in the complex plane. This paper summarizes the basis for this little known principle. Two numerical simulations are included to demonstrate how the principle can be applied. In the first example, a cantilevered plate is used to confirm that the principle is amenable to noise problems. A similar analysis is then performed on a construction cab to illustrate the applicability of the method if the structure is excited at multiple locations. The results suggest that the principle can be used in place of or in conjunction with more sophisticated numerical optimization schemes.
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U2 - 10.1115/NCAD2008-73009
DO - 10.1115/NCAD2008-73009
M3 - Conference contribution
AN - SCOPUS:80053098219
SN - 0791848396
SN - 9780791848395
T3 - American Society of Mechanical Engineers, Noise Control and Acoustics Division (Publication) NCAD
SP - 271
EP - 275
BT - ASME 2008 Noise Control and Acoustics Division Conference, NCAD 2008
T2 - ASME 2008 Noise Control and Acoustics Division Conference, NCAD 2008
Y2 - 28 July 2008 through 30 July 2008
ER -