期刊
IEEE CONTROL SYSTEMS LETTERS
卷 7, 期 -, 页码 2551-2556出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LCSYS.2023.3288232
关键词
Positive systems; discrete-time linear systems; geometric programming; convex optimization
This letter addresses the optimization problems of discrete-time positive linear systems. It introduces parameterized system coefficient matrices and optimizes system parameters to solve the synthesis problem. By utilizing results from positive linear systems and nonnegative matrix theory, the authors show that the optimization problems of minimizing parameter tuning cost while satisfying certain norm constraints can be reduced to geometric programming problems. Additionally, under reasonable assumptions on system matrices, these geometric programming problems can be further transformed into convex optimization problems. Simulation experiments validate the main results on a numerical example and epidemic spreading process example.
This letter focuses on optimization problems of discrete-time positive linear systems. To this end, the synthesis problem is presented by introducing parameterized system coefficient matrices and optimizing system parameters directly. Based on results concerning positive linear systems and nonnegative matrix theory, we demonstrate that optimization problems of minimizing the parameter tuning cost while satisfying the H-2 norm, H infinity norm, and l(1)/l infinity Hankel norm constraints can be reduced to corresponding geometric programming problems. In turn, by imposing reasonable assumptions on system matrices, these geometric programming problems can be further transformed into convex optimization problems owing to the convexity of the logarithm transformation on posynomials. Finally, simulation experiments on a numerical example and epidemic spreading process example are used to show the validity of the main results.
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