期刊名称:International Journal of Applied Mathematics and Computer Science
电子版ISSN:2083-8492
出版年度:2018
卷号:28
期号:1
页码:1-14
DOI:10.2478/amcs-2018-0002
出版社:De Gruyter Open
摘要:This paper provides a complete characterization of solvability of the problem of structural model matching by output
feedback in linear impulsive systems with nonuniformly spaced state jumps. Namely, given a linear impulsive plant and a
linear impulsive model, both subject to sequences of state jumps which are assumed to be simultaneous and measurable,
the problem consists in finding a linear impulsive compensator that achieves exact matching between the respective forced
responses of the linear impulsive plant and of the linear impulsive model, by means of a dynamic feedback of the plant
output, for all the admissible input functions and for all the admissible sequences of jump times. The solution of the stated
problem is achieved by reducing it to an equivalent problem of structural disturbance decoupling by dynamic feedforward.
Indeed, this latter problem is formulated for the so-called extended linear impulsive system, which consists of a suitable
connection between the given plant and a modified model. A necessary and sufficient condition for the solution of the
structural disturbance decoupling problem is first shown. The proof of sufficiency is constructive, since it is based on the
synthesis of the compensator that solves the problem. The proof of necessity is based on the definition and the geometric
properties of the unobservable subspace of a linear impulsive system subject to unequally spaced state jumps. Finally, the
equivalence between the two structural problems is formally established and proven.
