This paper investigates the integration of control theory and real-time implementation specifications within a single tractable controller synthesis method. It is proposed to guarantee real-time feasibility through specific low-complexity partitions of the piecewise affine (PWA) control law. The control-theory specification, i.e., stability under state and input constraints, are integrated through conic partitions induced by a polyhedral control Lyapunov function (CLF). The combination of the controller and conic partitions yields the hybrid polytopic partition, which is the cornerstone of the developed synthesis method. Based on the HPP, the controller synthesis is pursued by low complexity linear programming. The effectiveness of the appr...
The software package ConPAHS facilitates control design of continuous-time piecewise-affine hybrid s...
This paper proposes the use of canonical piecewise affine (PWA) functions for the approximation of l...
This paper proposes a method to obtain stabilizing controllers for constrained linear systems with a...
This paper investigates the integration of control theory and real-time implementation specification...
Stabilization of a class of bilinear systems is investigated in this paper, i.e., bilinear systems w...
Explicit model predictive controllers computed exactly by multi-parametric optimization techniques o...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as, for instan...
This paper proposes a method for interpolating two (or more) polytopic control Lyapunov functions (C...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as for instanc...
Piecewise affine (PWA) control laws offer an attractive solution to real-time control of linear, non...
We propose a procedure for synthesizing piecewise linear optimal controllers for hybrid systems and ...
Abstract — The software package ConPAHS facilitates con-trol design of continuous-time piecewise-aff...
The software package ConPAHS facilitates control design of continuous-time piecewise-affine hybrid s...
The software package ConPAHS facilitates control design of continuous-time piecewise-affine hybrid s...
This paper proposes the use of canonical piecewise affine (PWA) functions for the approximation of l...
This paper proposes a method to obtain stabilizing controllers for constrained linear systems with a...
This paper investigates the integration of control theory and real-time implementation specification...
Stabilization of a class of bilinear systems is investigated in this paper, i.e., bilinear systems w...
Explicit model predictive controllers computed exactly by multi-parametric optimization techniques o...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as, for instan...
This paper proposes a method for interpolating two (or more) polytopic control Lyapunov functions (C...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as for instanc...
Piecewise affine (PWA) control laws offer an attractive solution to real-time control of linear, non...
We propose a procedure for synthesizing piecewise linear optimal controllers for hybrid systems and ...
Abstract — The software package ConPAHS facilitates con-trol design of continuous-time piecewise-aff...
The software package ConPAHS facilitates control design of continuous-time piecewise-affine hybrid s...
The software package ConPAHS facilitates control design of continuous-time piecewise-affine hybrid s...
This paper proposes the use of canonical piecewise affine (PWA) functions for the approximation of l...
This paper proposes a method to obtain stabilizing controllers for constrained linear systems with a...