Aplikasi Metode Augmented Lagrange Multiplier Pada Optimasi Bentuk Kantilever

Abstract: The globalization and free trade era all fields require be optimizing and working efficiently. In they are of design, optimization is used for reducing process times and production cost, increase quality, and the accuration of product design in other to produce competitive products. Optimization process also provide a systematic design procedure which can used for solving several design variables and constraints which are difficult tovisualized graphically. Augmented Lagrange Multiplier (ALM) is promising optimization method because of the fast convergence rate and insensitive with penalty multiplier. Convergence rate is more influenced by the addition of Lagrange multiplier. The objective of this study is to understand ALM method and its characteristics, to create the computer program using this method and their application, to optimize the shape of a cantilever beam to get optimum design. The ALM method optimization software has already programed with several cases. This program can be applied in the other optimization cases. The optimization of a cantilever beam has applied to the program and resulted a minimum weight of 875, 56 kg in third model.
Keywords: Optimization, ALM, cantilever beam
Penulis: Nasrullah, Sir Anderson, Yazmendra Rosa
Kode Jurnal: jptmesindd110151

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