AN ANALYTICAL STUDY OF FUZZY CONTROL OF A FLEXIBLE ROD MECHANISM

The authors are engaged in a long-term research project studying the potential of fuzzy control strategies for active structural control in civil engineering applications. The advantage of this approach is its inherent robustness and its ability to handle the non-linear behaviour of the structure. M

This paper presents initial analytical studies of a new method for active interior noise control. The method proposes to control the vibration of segmented trim panels in order to reduce interior noise levels. Since trim panels are often made of light-weight and sti! composite materials, this actuat

Dynamic modelling and controller design for a ¯exible four-bar mechanism is studied. The fully coupled non-linear equations of motion are obtained through a constrained Lagrangian approach. Resulting dierential-algebraic equations are solved numerically to obtain the system response. A linearized dy

The response and stability of a flexible rod, rigid crank quick return mechanism is investigated without a small crank restriction. A Galerkin's approach was found to be too computationally intensive, due to the moving boundary and complex mode shapes, and thus unsuitable for monodromy based paramet

In the authors' earlier work, a concept called a mechanical ,lter was introduced and investigated for suppressing non-linear, planar crane}load oscillations on #oating platforms. To implement this concept, the pivot point about which the load oscillations occur was constrained to follow a circular t

## Synopsis A general treatment for the solution dynamics of segmentally flexible macromolecules having two subunits is presented. Bead modeling allows for a complete inclusion of hydrodynamic interactions in this treatment. "he finite size of the beads is also considered, so that it is therefore