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Design and optimization of inertial amplifier for enhanced vibration control of bridges under moving loads

Susmita Panda, Arnab Banerjee, Bappaditya Manna

2024Applied Mathematical Modelling14 citationsDOIOpen Access PDF

Abstract

This paper introduces a vibration control strategy for bridges that involves the implementation of an inertial amplifier to mitigate train-induced vibrations. The study comprehensively evaluates the effectiveness of two types of vibration absorbers , namely spring-mass resonator (SMR) and inertial amplifiers (IA), using a non-dimensional mechanics-based framework. The study further employs a heuristic search adaptive genetic algorithm (GA) to determine the optimal design parameters for the proposed vibration absorbers . The aim is to minimize the mid-span displacement of the bridge through the optimization process. The theoretical non-dimensional framework and the optimization technique are first validated with existing literature, and further, the efficiency of the optimized IA over the SMR of the same static mass is estimated. The comparative studies elucidate that with a lower mass ratio and higher values of the speed parameter ( η ) and inter-spatial distance between loads ( ϵ ), the IA system is more effective in reducing the vibration amplitude due to significant mass amplification. However, for lower values of η and ϵ , the SMR seems effective with a higher mass ratio, consequently resulting in amplified static deflection .

Topics & Concepts

Inertial frame of referenceVibrationVibration controlAmplifierEngineeringStructural engineeringControl theory (sociology)Control (management)Computer scienceAcousticsPhysicsElectrical engineeringClassical mechanicsArtificial intelligenceCMOSVibration Control and Rheological FluidsStructural Engineering and Vibration AnalysisVibration and Dynamic Analysis