This study presents a system based on passively controlled leading- and trailing-edge flaps that is designed to suppress wind-induced instabilities such as flutter and torsional divergence. The utility of the approach is demonstrated on a three-dimensional bridge model. Particular emphasis is placed on the early stages of the deck erection process when the bridge is particularly vulnerable to flutter. The flaps are activated by the deck's movements though passive phase-compensating mechanisms comprising of springs, dampers and inerters. It is demonstrated that optimised compensator parameters, and optimum hinge locations, result in a substantially improved deck aerodynamic performance. Particular importance is given to ensuring that the con...
The world today is facing a growing need of control of the increasing number of large structures, as...
The purpose of this study is to investigate the flutter control scheme of super long-span bridges wi...
Modern design of long suspension bridges must satisfy at the same time spanning very long distances ...
This study presents a system based on passively controlled leading- and trailing-edge flaps that is ...
This study investigates different ways to passively suppress wind-induced instabilities such as flut...
Long-span bridges constitute landmark projects, whose iconic impact blends together aesthetic creati...
The dynamic stabilization of a sectional model of a long-span suspension bridge is considered. Feedb...
We experimentally investigate the suppression of flutter in long-span suspension bridges. A rigid se...
The structural-aerodynamic modelling and dynamic stabilization of a three-dimensional suspension bri...
A floating system using a continuous girder between two anchor blocks is often adapted for increasin...
This paper describes experiments relating to the buffet response and control of a section of a long-...
A nonlinear reduced-order model of suspension bridges (SB) is presented to study the dynamical respo...
Abstract — In this work, we investigate active flutter control of a bridge section model equipped wi...
A suspended bridge model is developed at numerical level, its global geometry is freely inspired by ...
Modern design of long suspension bridges must satisfy at the same time performance and safety under ...
The world today is facing a growing need of control of the increasing number of large structures, as...
The purpose of this study is to investigate the flutter control scheme of super long-span bridges wi...
Modern design of long suspension bridges must satisfy at the same time spanning very long distances ...
This study presents a system based on passively controlled leading- and trailing-edge flaps that is ...
This study investigates different ways to passively suppress wind-induced instabilities such as flut...
Long-span bridges constitute landmark projects, whose iconic impact blends together aesthetic creati...
The dynamic stabilization of a sectional model of a long-span suspension bridge is considered. Feedb...
We experimentally investigate the suppression of flutter in long-span suspension bridges. A rigid se...
The structural-aerodynamic modelling and dynamic stabilization of a three-dimensional suspension bri...
A floating system using a continuous girder between two anchor blocks is often adapted for increasin...
This paper describes experiments relating to the buffet response and control of a section of a long-...
A nonlinear reduced-order model of suspension bridges (SB) is presented to study the dynamical respo...
Abstract — In this work, we investigate active flutter control of a bridge section model equipped wi...
A suspended bridge model is developed at numerical level, its global geometry is freely inspired by ...
Modern design of long suspension bridges must satisfy at the same time performance and safety under ...
The world today is facing a growing need of control of the increasing number of large structures, as...
The purpose of this study is to investigate the flutter control scheme of super long-span bridges wi...
Modern design of long suspension bridges must satisfy at the same time spanning very long distances ...