Feedback linearisation of nonlinear vibration problems: A new formulation by the method of receptances

Abstract New output feedback-linearisation theory is presented for the treatment of nonlinear vibration problems by a receptance-based approach. An important aspect is a new formulation for investigating the stability of the zero dynamics. The overall methodology possesses the usual benefits of the receptance method, namely that the system matrices (with associated assumptions and approximations) do not have to be known. In addition, it has the distinction of not requiring the form and parameter values of the nonlinearity when the input and output degrees of freedom are away from the nonlinearity itself. This represents a valuable advance over the conventional time-domain feedback linearisation approach.

[1]  Biswa Nath Datta,et al.  Robust partial quadratic eigenvalue assignment with time delay using the receptance and the system matrices , 2016 .

[2]  Raymond M. Kolonay,et al.  Receptance-Based Active Aeroelastic Control with Embedded Control Surfaces Having Actuator Dynamics , 2016 .

[3]  John E. Mottershead,et al.  Robust pole placement in structures by the method of receptances , 2011 .

[4]  Viet-Hung Dang,et al.  Partial feedback linearization control of a three-dimensional overhead crane , 2013 .

[5]  John E. Mottershead,et al.  Partial pole placement in structures by the method of receptances: theory and experiments , 2010 .

[6]  Amir Nassirharand Matlab software for inversion of describing functions , 2009, Adv. Eng. Softw..

[7]  Amir Poursamad,et al.  Adaptive feedback linearization control of antilock braking systems using neural networks , 2009 .

[8]  A. Isidori Nonlinear Control Systems , 1985 .

[9]  Charalampos P. Bechlioulis,et al.  Robust Adaptive Control of Feedback Linearizable MIMO Nonlinear Systems With Prescribed Performance , 2008, IEEE Transactions on Automatic Control.

[10]  John E. Mottershead,et al.  Feedback Linearization in Systems with Nonsmooth Nonlinearities , 2016 .

[11]  Thor I. Fossen,et al.  Adaptive feedback linearization applied to steering of ships , 1993 .

[12]  John E. Mottershead,et al.  Multiple-input active vibration control by partial pole placement using the method of receptances , 2013 .

[13]  Austin Blaquière,et al.  Nonlinear System Analysis , 1966 .

[14]  John E. Mottershead,et al.  Receptance Method in Active Vibration Control , 2006 .

[15]  A. Kurdila,et al.  Adaptive Feedback Linearization for the Control of a Typical Wing Section with Structural Nonlinearity , 1997, 4th International Symposium on Fluid-Structure Interactions, Aeroelasticity, Flow-Induced Vibration and Noise: Volume III.

[16]  Jonathan E. Cooper,et al.  Active Aeroelastic Control Using the Receptance Method , 2010 .

[17]  Dario Richiedei,et al.  Eigenstructure assignment in undamped vibrating systems: A convex-constrained modification method based on receptances , 2012 .

[18]  Arthur Gelb,et al.  Multiple-Input Describing Functions and Nonlinear System Design , 1968 .

[19]  Stephen J. Elliott,et al.  Receptance method for active vibration control of a nonlinear system , 2013 .

[20]  Alireza Mohammad Shahri,et al.  Adaptive feedback linearizing control of nonholonomic wheeled mobile robots in presence of parametric and nonparametric uncertainties , 2011 .

[21]  Hassan Karimi,et al.  Nonlinear controller synthesis based on inverse describing function technique in the MATLAB environment , 2006, Adv. Eng. Softw..

[22]  Kumar Vikram Singh,et al.  Optimization of Control Surface Parameters with Augmented Flutter Boundary Constraints , 2014 .

[23]  John E. Mottershead,et al.  Experimental nonlinear control for flutter suppression in a nonlinear aeroelastic system , 2017 .