2004
DOI: 10.1177/1063293x04044758
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Product Variety Optimization Simultaneously Designing Module Combination and Module Attributes

Abstract: This paper proposes a product variety optimization method for both module combination and module attributes of multiple products. As manufacturing competition has become restricted with high profitability and external constraints, simultaneous design of multiple products, called product variety design etc., becomes an important strategy. The systems-based optimal design paradigm is essential for rationalizing such practices, since design for product variety is more complicated than for a single product. In suc… Show more

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Cited by 115 publications
(65 citation statements)
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“…For example, some scholars use indirect measures, i.e., they assess the degree of product modularity indirectly by asking managers to estimate the degree to which certain consequences that are often associated with modularity -for example, the degree to which a buyer can customize a product, or the degree to which a manufacturing process allows late configuration -are more or less true for their own products (Duray, Ward, Milligan and Berry 2000;Worren, Moore and Cardona 2002;Tu, Vonderembse, Ragu-Nathan and Ragu-Nathan 2004). Others, particularly in the engineering literature, have developed numerous approaches to measure product architecture characteristics such as modularity, commonality, and platforms directly on the product (Nelson, Parkinson and Papalambros 2001;Fujita and Yoshida 2004;Simpson and D'Souza 2004). The majority of these latter approaches takes a product architecture in its overall structure as a given, and then searches for the optimal solution in the configuration space.…”
Section: Product Architecturementioning
confidence: 99%
“…For example, some scholars use indirect measures, i.e., they assess the degree of product modularity indirectly by asking managers to estimate the degree to which certain consequences that are often associated with modularity -for example, the degree to which a buyer can customize a product, or the degree to which a manufacturing process allows late configuration -are more or less true for their own products (Duray, Ward, Milligan and Berry 2000;Worren, Moore and Cardona 2002;Tu, Vonderembse, Ragu-Nathan and Ragu-Nathan 2004). Others, particularly in the engineering literature, have developed numerous approaches to measure product architecture characteristics such as modularity, commonality, and platforms directly on the product (Nelson, Parkinson and Papalambros 2001;Fujita and Yoshida 2004;Simpson and D'Souza 2004). The majority of these latter approaches takes a product architecture in its overall structure as a given, and then searches for the optimal solution in the configuration space.…”
Section: Product Architecturementioning
confidence: 99%
“…Modularity often means using the same module in multiple products enabling a large variety of products while using more common component types than if the different products did not share common modules. This brings scale and scope advantages, such as reduced capital requirements, and economies in parts sourcing and manufacturing [5][6][7].…”
Section: A Modularitymentioning
confidence: 99%
“…The single-step approach uses a single optimized computation for product family planning based on internal and external characteristics directly. An example of the single-step approach was proposed by Fujita et al [27] who simultaneously optimized the system structure and configuration of a product family and applied their approach to a family of aircraft. In general, the one-step approach is more preferable when the number of alternatives is large, as the intermediate step of enumeration can be eliminated [28].…”
Section: Optimization Approachesmentioning
confidence: 99%