Your search keyword '"Chuang Sheng Walter Yang"' showing total 3 results

1. Optimal design formulas for viscous tuned mass dampers in wind-excited structures

Author

Mei-Chun Lin, Lap-Loi Chung, Chuang-Sheng Walter Yang, Lai-Yun Wu, Kuan-Hua Lien, and Hsu-Hui Huang

Subjects

Optimal design, Sequence, Engineering, Damping ratio, business.industry, Building and Construction, White noise, Function (mathematics), Mass ratio, Nonlinear system, Mechanics of Materials, Control theory, Tuned mass damper, business, Civil and Structural Engineering

Abstract

SUMMARY Optimal design for tuned mass dampers (TMDs) with linear or nonlinear viscous damping is formulated in order for design practitioners to directly compute the optimal parameters of a TMD in a damped structure subjected to wind excitations. The optimal TMD tuning frequency ratio and damping coefficient for a viscous TMD system installed in a damped structure under 10 white noise excitations are determined by using the time-domain optimization procedure, which minimizes the structural response. By applying a sequence of curve-fitting schemes to the obtained optimal values, design formulas for optimal TMDs are then derived. These are expressed as a function of the mass ratio and damping power-law exponent of the TMD as well as the damping ratio of the structure. The feasibility of the proposed optimal design formulas is verified in terms of formulary accuracy and of comparisons with existing formulas from previous research works. In addition, one numerical example of the Taipei 101 building with a nonlinear TMD, which is redesigned according to the proposed optimal formulas, is illustrated in effort to describe the use of the formulas in the TMD design procedure and to investigate the effectiveness of the optimal TMD. The results indicate that the proposed optimal design formulas provide a convenient and effective approach for designing a viscous TMD installed in a wind-excited damped structure. Copyright © 2011 John Wiley & Sons, Ltd.

Published

2011

2. Modified predictive control of structures with direct output feedback

Author

Lai-Yun Wu, Nan-Hao Chung, Chuang-Sheng Walter Yang, and Lap-Loi Chung

Subjects

Engineering, business.industry, Numerical analysis, Control (management), Control engineering, Building and Construction, Nonlinear control, Decentralised system, Model predictive control, Matrix (mathematics), Mechanics of Materials, Control theory, Control system, Constant (mathematics), business, Civil and Structural Engineering

Abstract

The algorithm of modified predictive control (MPC) is derived with the partial-state concept of direct output feedback (DOF) to reduce the number of sensors for real implementation. The feasibility of using modified predictive control with direct output feedback (MPCwDOF) is verified through numerical and experimental study. According to the MPCwDOF algorithm, the online control forces are simply generated from the actual output measurements that are multiplied by a prescribed constant output feedback gain matrix. An off-line numerical method is introduced to find the feedback gain systematically and efficiently. Numerical examples of two control systems with respect to single-controller and multiple-controller systems are illustrated for validating the feasibility of using the MPCwDOF algorithm and the application of the decentralized control strategy to the MPCwDOF algorithm. An experiment of a large-scale 5-story structural model with an MPCwDOF-controlled active mass damper on the roof is also performed. Results indicate that the controlled structures achieve good performance under environmental excitations. Simple online calculations and a small number of sensors make the proposed control algorithm more favorable to real implementation. Copyright © 2010 John Wiley & Sons, Ltd.

Published

2010

3. Semi-active phase control of tuned mass dampers for translational and torsional vibration mitigation of structures

Author

Chuang Sheng Walter Yang, Lap Loi Chung, Yong An Lai, and Lai Yun Wu

Subjects

Torsional vibration, Materials science, business.industry, 020101 civil engineering, 02 engineering and technology, Building and Construction, Structural engineering, 0201 civil engineering, Power flow, Semi active, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, Tuned mass damper, business, Phase control, Civil and Structural Engineering

Published

2018