In this paper we address the problem of linearizability of systems in strict feedforward form. We provide an algorithm, along with explicit transformations, that linearizes a system by change of coordinates when some easily checkable conditions are met. Those conditions turn out to be necessary and sufficient, that is, if one fails the system is not linearizable. We revisit type I and type II classes of linearizable strict feedforward systems provided by Krstic in [6] and illustrate our algorithm by various examples mostly taken from [5], [6]
Feedback linearization provides an effective means of designing nonlinear control systems. This meth...
The following problem is examined: given a nonlinear control system dot-x(t) = f(x(t)) + the sum to ...
1929-1934. doi: 10.1109/ACC.2008.4586774. ©2008 IEEE. Personal use of this material is permitted. Ho...
We address the problem of linearizability of systems in feedforward form. In a recent paper [22] we ...
The problem of feedback linearizability of systems in feedforward form is addressed and an algorith...
For any strict feedforward system that is feedback linearizable we provide (following our earlier re...
In this paper we address the problem of linearization of nonlinear control systems using coordinate ...
We establish a relation between strict feedforward form and symmetries of nonlinear control systems....
This paper addresses the problem of feedback linearization of nonlinear control systems via state an...
We identify a class of feedforward nonlinear systems that are linearizable by a coordinate change. T...
Recently we proved that any smooth (resp. analytic) strict feedforward system can be brought into it...
We show that any symmetry of a smooth strict feedforward system is conjugated to a scaling translati...
Abstract. In a companion paper (Krstic, “Feedforward systems linearizable by coordinate change, ” AC...
This paper deals with the problem of convergence of normal forms of control systems. We identify a $...
Çamlıbel, Mehmet Kanat (Dogus Author)One of the classical problems of nonlinear systems and control ...
Feedback linearization provides an effective means of designing nonlinear control systems. This meth...
The following problem is examined: given a nonlinear control system dot-x(t) = f(x(t)) + the sum to ...
1929-1934. doi: 10.1109/ACC.2008.4586774. ©2008 IEEE. Personal use of this material is permitted. Ho...
We address the problem of linearizability of systems in feedforward form. In a recent paper [22] we ...
The problem of feedback linearizability of systems in feedforward form is addressed and an algorith...
For any strict feedforward system that is feedback linearizable we provide (following our earlier re...
In this paper we address the problem of linearization of nonlinear control systems using coordinate ...
We establish a relation between strict feedforward form and symmetries of nonlinear control systems....
This paper addresses the problem of feedback linearization of nonlinear control systems via state an...
We identify a class of feedforward nonlinear systems that are linearizable by a coordinate change. T...
Recently we proved that any smooth (resp. analytic) strict feedforward system can be brought into it...
We show that any symmetry of a smooth strict feedforward system is conjugated to a scaling translati...
Abstract. In a companion paper (Krstic, “Feedforward systems linearizable by coordinate change, ” AC...
This paper deals with the problem of convergence of normal forms of control systems. We identify a $...
Çamlıbel, Mehmet Kanat (Dogus Author)One of the classical problems of nonlinear systems and control ...
Feedback linearization provides an effective means of designing nonlinear control systems. This meth...
The following problem is examined: given a nonlinear control system dot-x(t) = f(x(t)) + the sum to ...
1929-1934. doi: 10.1109/ACC.2008.4586774. ©2008 IEEE. Personal use of this material is permitted. Ho...