Estimating the Parameters in a Mathematical Product Design Model
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- SHINZATO Takashi
- Mori Arinori Center for Higher Education and Global Mobility, Hitotsubashi University, Kunitachi, Tokyo, Japan
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- JIANG Dongxiao
- Huawei Central Software Laboratory in ChinaSoft International Corporation, China
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- HOSHINO Mitsuhiro
- Department of Management Science and Engineering, Akita Prefectural University, Yurihonjo, Akita, Japan
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- KAKU Ikou
- Department of Environmental Management, Tokyo City University, Yokohama, Kanagawa, Japan
書誌事項
- タイトル別名
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- <b>Estimating the Parameters in a Mathematical Product Design Model </b>
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説明
Mathematical approaches for solving product designs problem can be used by not only elder designers who have implicit/ambiguous knowledge of design experienced, but also younger designers even they have not so much experience, because such mathematical methods lead designers to obtain an optimal design automatically. However, there is a very serious lake to use such optimal methods in practice where the optimal solution has been obtained by a set of given coefficient parameters, which are so hard to be fixed accurately by even those most-experienced designers. In this paper,a set of simultaneous equations is built to represent the relations between product designs and correlative category labels. Parameter estimation is to fix the parameters that making all of relations to be feasible. A Boltzmann machine algorithm with belief propagation is used to perform the parameter estimation, where the number of simultaneous equations may be less than the number of parameters, to be solved possibly. Numerical experiments are provided to show the efficiency and utility of the algorithm. As a result, the value of training error is approaching to 0 slowly and stably, so it can be foresaw that parameters are estimated.
収録刊行物
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- Innovation and Supply Chain Management
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Innovation and Supply Chain Management 9 (3), 95-102, 2015
特定非営利活動法人 日本マネージメント研修センター