On the Complexity of the Boolean Minimal Realization Problem in the
Max-Plus Algebra
Reference
B. De Schutter,
V. Blondel, and
B. De Moor,
"On the Complexity of the Boolean Minimal Realization Problem in the
Max-Plus Algebra," Advances in Systems, Signals,
Control and Computers (Proceedings of the International
Conference on Systems, Signals, Control, Computers (SSCC'98), Durban,
South Africa, Sept. 1998) (V.B. Bajić, ed.), vol. II, pp.
451-455, 1998.
Abstract
One of the open problems in the max-plus-algebraic system theory for
discrete event systems is the minimal realization problem. We consider
a simplified version of the general minimal realization problem: the
boolean minimal realization problem, i.e., we consider models in which
the entries of the system matrices are either equal to the
max-plus-algebraic zero element or to the max-plus-algebraic identity
element. We show that the corresponding decision problem (i.e.,
deciding whether or not a boolean realization of a given order exists)
is decidable, and that the boolean minimal realization problem can be
solved in a number of elementary operations that is bounded from above
by an exponential of the square of (any upper bound of) the minimal
system order.
Downloads
- Corresponding technical report:
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Bibtex entry
@inproceedings{DeSDeM:98-41,
author={B. {D}e Schutter and V. Blondel and B. {D}e Moor},
title={On the Complexity of the {B}oolean Minimal Realization Problem in the
Max-Plus Algebra},
booktitle={Advances in Systems, Signals, Control and Computers
\normalfont(Proceedings of the International Conference on Systems, Signals,
Control, Computers (SSCC'98), Durban, South Africa, Sept. 1998)},
volume={II},
editor={V.B. Baji\'c},
pages={451--455},
year={1998}
}
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