Control of kinetic energy of a one-dimensional structure using multiple vibration neutralizers

Tunable vibration absorbers are used to control vibration due to time-varying harmonic disturbances. Either vibration which is local to the neutralizer, or global vibration of the host structure can be chosen as the quantity to be suppressed. In this paper, the latter is the subject of investigation

Tunable vibration neutralizers are currently used to control harmonic vibration of structures at the point at which they are attached, and the way in which the characteristics of the neutralizers in#uence their e!ectiveness in this role are reasonably well understood. However, the use of tunable vib

Recently, a new chaotic cryptosystem using external 128-bit key and multiple chaotic maps has been proposed. In this paper, a fundamental flaw of this cryptosystem is pointed out and a known plaintext attack is presented. Furthermore, a remedial modification is suggested, which avoids the flaw while

Vibrations of machines and structures vanish perfectly at a certain frequency when they have a vibration absorber without damping. But if forced frequencies vary from the anti-resonance frequency, their vibration amplitudes increase signi"cantly. Then the absorber without damping cannot be applied t

The active control of longitudinal and flexural waves propagating on a finite beam with a scattering termination has been investigated theoretically and experimentally. The system consisted of a finite beam excited by a primary source at one end, with a control actuator placed in the middle of the b