A new effective dynamic program for an investment optimization problem

A new effective dynamic program for an investment optimization problem

After a series of publications of T.E. O’Neil et al. (e.g. in 2010), dynamic programming seems to be the most promising way to solve knapsack problems. Some techniques are known to make dynamic programming algorithms (DPA) faster. One of them is the graphical method that deals with piecewise linear...

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Veröffentlicht in:Automation and remote control 2016-09, Vol.77 (9), p.1633-1648
Hauptverfasser: Gafarov, E. R., Dolgui, A., Lazarev, A. A., Werner, F.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Approximation
Biology
CAE) and Design
Calculus of Variations and Optimal Control
Optimization
Computer Science
Computer-Aided Engineering (CAD
Control
Control in Social Economic Systems
Discrete Mathematics
Documents
Dynamic programming
Financing
Functional equations
Functions (mathematics)
Investment
Mathematical analysis
Mathematics
Mathematics and Statistics
Mechanical Engineering
Mechatronics
Medicine
Operations Research
Optimization
Robotics
Run time (computers)
Systems Theory
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Zusammenfassung:After a series of publications of T.E. O’Neil et al. (e.g. in 2010), dynamic programming seems to be the most promising way to solve knapsack problems. Some techniques are known to make dynamic programming algorithms (DPA) faster. One of them is the graphical method that deals with piecewise linear Bellman functions. For some problems, it was previously shown that the graphical algorithm has a smaller running time in comparison with the classical DPA and also some other advantages. In this paper, an exact graphical algorithm (GrA) and a fully polynomial-time approximation scheme based on it are presented for an investment optimization problem having the best known running time. The algorithms are based on new Bellman functional equations and a new way of implementing the GrA.
ISSN:0005-1179
1608-3032
DOI:10.1134/S0005117916090101