Abstract An observability canonical form for non-linear time-variable systems, [xdot]=f(x,u,t), y=h(x,u,t), is introduced by analogy with the corresponding linear phase-variable forms. The transformation into observability canonical form follows from the nonlinear observability map, whose jacobian must be assumed to be a regular matrix in the considered domains of state x, input u and time t. If this observability matrix can be inverted analytically or numerically, the transformation into the observability canonical coordinates can be achieved directly. As opposed to linear systems, the non-linear observability canonical form with input depends, additionally, on the time derivatives of the input. This restricts a practical implementation.
[1]
John H. Seinfeld,et al.
Observability of nonlinear systems
,
1972
.
[2]
Thomas Kailath,et al.
Linear Systems
,
1980
.
[3]
J. Gauthier,et al.
Observability for any of a class of nonlinear systems
,
1981
.
[4]
Michael Zeitz,et al.
Controllability canonical (phase-variable) form for non-linear time-variable systems
,
1983
.
[5]
Arthur J. Krener,et al.
Linearization by output injection and nonlinear observers
,
1983
.
[6]
D. Bestle,et al.
Canonical form observer design for non-linear time-variable systems
,
1983
.