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| Generálás oszlopokkal (Dantzig-Wolfe)× | Augmented Lagrangian módszer× | Benders-dekompozíció× | |
|---|---|---|---|
| Tudományterület | Operációkutatás | Operációkutatás | Operációkutatás |
| Módszercsalád | Machine learning | Machine learning | Machine learning |
| Keletkezés éve≠ | 1960 | 1969 | 1962 |
| Megalkotó≠ | George B. Dantzig and Philip Wolfe | Magnus R. Hestenes and M. J. D. Powell | Jacques F. Benders |
| Típus | algorithm | algorithm | algorithm |
| Alapmű≠ | Dantzig, G. B., & Wolfe, P. (1960). Decomposition principle for linear programs. Operations Research, 8(1), 101-111. DOI ↗ | Hestenes, M. R. (1969). Multiplier and gradient methods. Journal of Optimization Theory and Applications, 4(5), 303-320. DOI ↗ | Benders, J. F. (1962). Partitioning procedures for solving mixed-variables programming problems. Numerische Mathematik, 4(1), 238-252. DOI ↗ |
| Alternatív nevek≠ | Dantzig-Wolfe decomposition, column generation method | method of multipliers, augmented Lagrangian, ADMM | cutting plane method, constraint generation |
| Kapcsolódó | 3 | 3 | 3 |
| Összefoglaló≠ | Column Generation, developed by George B. Dantzig and Philip Wolfe in 1960, is a powerful optimization technique for solving large-scale linear programming problems with special structure. Also known as Dantzig-Wolfe Decomposition, it decomposes the problem into a master problem (restricted to a subset of variables/columns) and a pricing subproblem (identifying new variables), iteratively improving the solution by introducing only relevant columns. | The Augmented Lagrangian Method, developed by Magnus R. Hestenes and M. J. D. Powell in 1969, is a powerful technique for solving constrained optimization problems. It converts a constrained problem into a sequence of unconstrained subproblems by augmenting the Lagrangian with a quadratic penalty term, enabling efficient solution of large-scale problems including convex and nonconvex cases. | Benders Decomposition, introduced by Jacques F. Benders in 1962, is a powerful algorithmic framework for solving large-scale mixed-integer programming (MIP) problems. It decomposes the problem into a master problem (controlling complicating variables) and subproblems (handling remaining variables), using cutting planes generated from subproblem dual information to iteratively tighten the master problem. |
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