MATEC Web of Conferences.
EDP Sciences.
Vol. 224.
2018.
A recursive algorithm based on the maximum principle of pontryagin
This article reports findings in designing a conceptual optimal control algorithm based on the maximum principle of Pontryagin and of the steepest descent type for a relaxed version of the original problem. Allowing the relaxation of initial condition in order to rewrite the two boundary value problem as one with boundary conditions in the same endpoint, key properties of this algorithm are proved. Then, some results are obtained by using an optimization algorithm of the same type for which off-the-shelf routines taking into account the numerical issues, which are always tricky for infinite dimensional problems. © 2018 IEEE.
Authors
Pereira F.L.
1,
2
,
Gama S.3
,
Arafa N.4,
5
,
Chertovskih R.6,
7
Conference proceedings
Publisher
Institute of Electrical and Electronics Engineers Inc.
Language
English
Pages
288-293
Status
Published
Number
8514293
Year
2018
Organizations
- 1 SYSTEC, FEUP, Porto University, Portugal
- 2 RUDN University, Moscow, Russian Federation
- 3 CMUP, FCUP, Porto University, Portugal
- 4 SYSTEC, CMUP Porto University, Portugal
- 5 Aswan University, Egypt
- 6 SYSTEC, Porto University, Portugal
- 7 Samara National Research University, Russian Federation
Keywords
Gledzer model; Maximum principle; Optimal control; Optimal control algorithms
Date of creation
04.02.2019
Date of change
04.02.2019
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