We present an algorithm for generating a binary search tree that allows efficient computation of piecewise affine (PWA) functions defined on a polyhedral partition. This is useful for PWA control approaches, such as explicit model predictive control, as it allows the controller to be implemented online with small computational effort. The computation time is logarithmic in the number of regions in the PWA partition
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...
This paper proposes the design of hierarchical piecewise-affine (PWA) controllers to alleviate the p...
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...
We present an algorithm for generating a binary search tree that allows efficient computation of pie...
In this paper we introduce a digital architecture implementing piecewise-affine functions defined ov...
This paper concentrates on the fragility margins of discrete-time Piecewise Affine (PWA) closed-loop...
In this paper we propose a digital architecture suited for fast, low-power and small-size electronic...
In this paper we propose a digital architecture suited for fast, low-power and small-size electronic...
This paper introduces a digital architecture to implement piecewise-affine (PWA) functions based on ...
Piecewise affine (PWA) control laws offer an attractive solution to real-time control of linear, non...
In this paper we review and discuss digital circuit architectures implementing piecewise-affine (PWA...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as for instanc...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as, for instan...
In this paper, we propose an iterative approach to PWA system identification. At each iteration, a s...
Explicit model predictive controllers computed exactly by multi-parametric optimization techniques o...
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...
This paper proposes the design of hierarchical piecewise-affine (PWA) controllers to alleviate the p...
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...
We present an algorithm for generating a binary search tree that allows efficient computation of pie...
In this paper we introduce a digital architecture implementing piecewise-affine functions defined ov...
This paper concentrates on the fragility margins of discrete-time Piecewise Affine (PWA) closed-loop...
In this paper we propose a digital architecture suited for fast, low-power and small-size electronic...
In this paper we propose a digital architecture suited for fast, low-power and small-size electronic...
This paper introduces a digital architecture to implement piecewise-affine (PWA) functions based on ...
Piecewise affine (PWA) control laws offer an attractive solution to real-time control of linear, non...
In this paper we review and discuss digital circuit architectures implementing piecewise-affine (PWA...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as for instanc...
Piecewise affine (PWA) feedback control laws defined on general polytopic partitions, as, for instan...
In this paper, we propose an iterative approach to PWA system identification. At each iteration, a s...
Explicit model predictive controllers computed exactly by multi-parametric optimization techniques o...
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...
This paper proposes the design of hierarchical piecewise-affine (PWA) controllers to alleviate the p...
This paper investigates the use of canonical piecewise affine (PWA) functions for approximation and ...