Active mass driver system as the first application of active structural control

## Abstract This study investigates an electric‐type active mass driver (AMD) system for structural vibration control. Composed primarily of an electric servomotor and a ball screw, the electrical AMD system is free from noise problems, oil leakage, and labor‐intensive maintenance that commonly are

This paper presents the overview and problem definition for a benchmark structural control problem. The structure considered-chosen because of the widespread interest in this class of systems\-is a scale model of a three-storey building employing an active mass driver. A model for this structural sy

A probability-based robust control design methodology is presented that is applied to the 'benchmark system', which is a high-fidelity model of an active-mass-driver laboratory structure. For the controller design, the objective is to maximize the probability that the uncertain structure/controller

The structured singular value ( ) synthesis technique is used to design controllers for the Active Mass Damper (AMD) Benchmark problem. The motivation for using synthesis is its ability to directly incorporate performance and robustness objectives into a multivariable control design framework. In ad

A systematic design procedure and an algorithm are devised for variable gain feedback (VGF) control of buildings with active mass damper (AMD) systems. The limit of the stroke length of the auxiliary mass, which is considered to be one of the most important physical constraints for application of AM