Luís Rodrigues scite author profile

This paper presents a new synthesis method for both state and dynamic output feedback control of a class of hybrid systems called piecewise-affine (PWA) systems. The synthesis procedure delivers stabilizing controllers that can be proven to give either asymptotic or exponential convergence rates. The synthesis method builds on existing PWA stability analysis tools by transforming the design into a closed-loop analysis problem wherein the controller parameters are unknown. More specifically, the proposed technique formulates the search for a piecewise-quadratic control Lyapunov function and a piecewise-affine control law as an optimization problem subject to linear constraints and a bilinear matrix inequality. The linear constraints in the synthesis guarantee that sliding modes are not generated at the switching. The resulting optimization problem is known to be N P hard, but suboptimal solutions can be obtained using the three iterative algorithms presented in the paper. The new synthesis technique allows controllers to be designed with a specified structure, such as a combined regulator and observer. The observers in these controllers then enable switching based on state estimates rather than on measured outputs. The overall design approach, including a comparison of the synthesis algorithms and the performance of the resulting controllers, is clearly demonstrated in four simulation examples.

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Impact of Weather Regimes on the Wind Power Ramp Forecast in Portugal

Couto

Costa

Rodrigues

et al. 2015

IEEE Trans. Sustain. Energy

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Output feedback controller synthesis for piecewise-affine systems with multiple equilibria

Rodrigues¹,

Hassibi²,

How³

2000

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A sum of squares approach to backstepping controller synthesis for piecewise affine and polynomial systems

Samadi

Rodrigues

2013

Int. J. Robust. Nonlinear Control

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SUMMARYThis paper develops a backstepping controller synthesis methodology for piecewise polynomial (PWP) systems in strict form. The main contribution of the paper is to formulate sufficient conditions for controller design for PWP systems in strict form as a sum of squares feasibility problem under the assumption that an initial control Lyapunov function exists to start the iterative backstepping procedure. This problem can then be translated into a convex SDP problem and solved by available software packages. The controller synthesis problem for PWP systems in strict feedback form is divided into two cases. The first case consists of the construction of a sum of squares polynomial control Lyapunov function for PWP systems with discontinuous vector fields. The second case addresses the construction of a PWP control Lyapunov function for PWP systems with continuous vector fields. One major advantage of the proposed method is the fact that it can handle systems with discontinuous vector fields and sliding modes. The new synthesis method is applied to several numerical examples. One of these examples offers the first convex optimization solution to piecewise affine (PWA) control of a benchmark circuit system addressed before in the literature using non‐convex PWA control solutions. Copyright © 2013 John Wiley & Sons, Ltd.

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Luís Rodrigues

Piecewise-affine state feedback for piecewise-affine slab systems using convex optimization

Observer-based control of piecewise-affine systems

Impact of Weather Regimes on the Wind Power Ramp Forecast in Portugal

Output feedback controller synthesis for piecewise-affine systems with multiple equilibria

A sum of squares approach to backstepping controller synthesis for piecewise affine and polynomial systems

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