Decomposition Procedure for Solving NLP and QP Problems based on Lagrange and Sander's Method

Das, HK

doi:10.4018/ijoris.2016100103

Cited by 2 publications

(1 citation statement)

References 45 publications

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“…Since constraints are linear then the solution space is convex. Karush-Kuhn-Tucker Method 6,7,10 Let z be a real valued function of n variables defined by ) , . ...., ,…”

Section: Quadratic Programming Problemmentioning

confidence: 99%

A Procedure for Solving Quadratic Programming Problems

Das¹

2017

Dhaka Univ. J. Sci.

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In this paper, we study on the well-known procedure of quadratic programming (QP) and its corresponding linear programming (LP) problem. We then introduce a LP problem corresponding to the QP problem. Unfortunately, an unboundedness question arises into the new converting LP problem. We then modify the converted LP problem that overcomes the unboundedness. We introduce a general computer technique that can be solved the QP problem. An example is given to clarify the procedure and the computer technique. Dhaka Univ. J. Sci. 65(1): 9-13, 2017 (January)

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“…Since constraints are linear then the solution space is convex. Karush-Kuhn-Tucker Method 6,7,10 Let z be a real valued function of n variables defined by ) , . ...., ,…”

Section: Quadratic Programming Problemmentioning

confidence: 99%

A Procedure for Solving Quadratic Programming Problems

Das¹

2017

Dhaka Univ. J. Sci.

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Analyzing Decomposition Procedures in LP and Unraveling for the Two Person Zero Sum Game and Transportation Problems

Das

Dhar

2020

International Journal of Smart Vehicles and Smart Transportation

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This paper studies some decomposition methods, including Dantzig-Wolfe decomposition (DWD), decomposition-based pricing (DBP), Benders decomposition (BD), and a recently proposed improved decomposition (ID) method for solving linear programs (LPs). The authors then develop a new decomposition algorithm for solving LPs in a general form, allowing authors to combine the concept of Benders decomposition and decomposition-based pricing methods. The authors generate conditions for solving problems that have either infeasible or unbounded solutions. As an illustration, the authors give the corresponding models and numerical results for two standard mathematical programs: the two-person zero-sum game and the transportation problem. The authors compare several procedures and identify which one produces the best solution by giving the authors the smallest iteration number. This study reveals that the algorithm along with Benders decomposition produce the most efficient computational solutions of LPs.

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Decomposition Procedure for Solving NLP and QP Problems based on Lagrange and Sander's Method

Cited by 2 publications

References 45 publications

A Procedure for Solving Quadratic Programming Problems

A Procedure for Solving Quadratic Programming Problems

Analyzing Decomposition Procedures in LP and Unraveling for the Two Person Zero Sum Game and Transportation Problems

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