Model Predictive Vibration Control [electronic resource] : Efficient Constrained MPC Vibration Control for Lightly Damped Mechanical Structures / by Gergely Takács, Boris Rohaľ-Ilkiv.

By: Takács, Gergely [author.]Contributor(s): Rohaľ-Ilkiv, Boris [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Publisher: London : Springer London, 2012Description: XXXVIII, 518 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781447123330Subject(s): Engineering | Systems theory | Computer science -- Mathematics | Vibration | Engineering | Control | Mathematical Modeling and Industrial Mathematics | Vibration, Dynamical Systems, Control | Computational Intelligence | Computational Mathematics and Numerical Analysis | Systems Theory, ControlAdditional physical formats: Printed edition:: No titleDDC classification: 629.8 LOC classification: TJ212-225Online resources: Click here to access online
Contents:
1. Introduction -- 2. Basics of Vibration Dynamics -- 3. Smart Materials in Active Vibration Control -- 4. Algorithms in Active Vibration Control -- 5. Laboratory Demonstration Hardware for AVC -- 6. Basic MPC Formulation -- 7. Stability and Feasibility of MPC -- 8. Efficient MPC Algorithms -- 9. Applications of Model Predictive Vibration Control -- 10. MPC Implementation for Vibration Control -- 11. Simulation Study of Model Predictive Vibration Control -- 12. Experimental Model Predictive Vibration Control -- A. FE Modeling of the Active Structure -- B. MPC Code Implementation Details.
In: Springer eBooksSummary: Real-time model predictive controller (MPC) implementation in active vibration control (AVC) is often rendered difficult by fast sampling speeds and extensive actuator-deformation asymmetry. If the control of lightly damped mechanical structures is assumed, the region of attraction containing the set of allowable initial conditions requires a large prediction horizon, making the already computationally demanding on-line process even more complex. Model Predictive Vibration Control provides insight into the predictive control of lightly damped vibrating structures by exploring computationally efficient algorithms which are capable of low frequency vibration control with guaranteed stability and constraint feasibility. In addition to a theoretical primer on active vibration damping and model predictive control, Model Predictive Vibration Control provides a guide through the necessary steps in understanding the founding ideas of predictive control applied in AVC such as: ·         the implementation of computationally efficient algorithms ·         control strategies in simulation and experiment and ·         typical hardware requirements for piezoceramics actuated smart structures.   The use of a simple laboratory model and inclusion of over 170  illustrations provides readers with clear and methodical explanations, making Model Predictive Vibration Control the ideal support material for graduates, researchers and industrial practitioners with an interest in efficient predictive control to be utilized in active vibration attenuation. 
Tags from this library: No tags from this library for this title. Log in to add tags.
    Average rating: 0.0 (0 votes)
No physical items for this record

1. Introduction -- 2. Basics of Vibration Dynamics -- 3. Smart Materials in Active Vibration Control -- 4. Algorithms in Active Vibration Control -- 5. Laboratory Demonstration Hardware for AVC -- 6. Basic MPC Formulation -- 7. Stability and Feasibility of MPC -- 8. Efficient MPC Algorithms -- 9. Applications of Model Predictive Vibration Control -- 10. MPC Implementation for Vibration Control -- 11. Simulation Study of Model Predictive Vibration Control -- 12. Experimental Model Predictive Vibration Control -- A. FE Modeling of the Active Structure -- B. MPC Code Implementation Details.

Real-time model predictive controller (MPC) implementation in active vibration control (AVC) is often rendered difficult by fast sampling speeds and extensive actuator-deformation asymmetry. If the control of lightly damped mechanical structures is assumed, the region of attraction containing the set of allowable initial conditions requires a large prediction horizon, making the already computationally demanding on-line process even more complex. Model Predictive Vibration Control provides insight into the predictive control of lightly damped vibrating structures by exploring computationally efficient algorithms which are capable of low frequency vibration control with guaranteed stability and constraint feasibility. In addition to a theoretical primer on active vibration damping and model predictive control, Model Predictive Vibration Control provides a guide through the necessary steps in understanding the founding ideas of predictive control applied in AVC such as: ·         the implementation of computationally efficient algorithms ·         control strategies in simulation and experiment and ·         typical hardware requirements for piezoceramics actuated smart structures.   The use of a simple laboratory model and inclusion of over 170  illustrations provides readers with clear and methodical explanations, making Model Predictive Vibration Control the ideal support material for graduates, researchers and industrial practitioners with an interest in efficient predictive control to be utilized in active vibration attenuation. 

There are no comments on this title.

to post a comment.

Implemented and Maintained by Biju Patnaik Central Library.
For any Suggestions/Query Contact to library or Email: library@nitrkl.ac.in OR bpcl-cir@nitrkl.ac.in. Ph:91+6612462103
Website/OPAC best viewed in Mozilla Browser in 1366X768 Resolution.

Powered by Koha