Modular Function Deployment
Encyclopedia
Modular function deployment (MFD) is a systematic method and procedure for company-supportive product modularization
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(QFD) analysis to establish customer requirements and to identify important design requirements with a special emphasis on modularity. The functional requirements on the product are analysed and technical solutions are selected. This is followed by systematic generation and selection of modular concepts, in which the module indication matrix (MIM) is used to identify possible modules by examining the interrelationships between ”module drivers” and technical solutions. MIM also provides a mechanism for investigating opportunities of integrating multiple functions into single modules. The expected effects of the redesign can be estimated and an evaluation can be carried out for each modular concept. The MIM is then re-used to identify opportunities for further improvements to the single modules.
Modularization
The notion of ontology modularization refers to a methodological principle in ontology engineering. The idea is that an ontology is built in a modular manner, i.e...
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Five steps
MFD consists of five major steps. It starts with quality function deploymentQuality function deployment
Quality function deployment is a “method to transform user demands into design quality, to deploy the functions forming quality, and to deploy methods for achieving the design quality into subsystems and component parts, and ultimately to specific elements of the manufacturing process.”, as...
(QFD) analysis to establish customer requirements and to identify important design requirements with a special emphasis on modularity. The functional requirements on the product are analysed and technical solutions are selected. This is followed by systematic generation and selection of modular concepts, in which the module indication matrix (MIM) is used to identify possible modules by examining the interrelationships between ”module drivers” and technical solutions. MIM also provides a mechanism for investigating opportunities of integrating multiple functions into single modules. The expected effects of the redesign can be estimated and an evaluation can be carried out for each modular concept. The MIM is then re-used to identify opportunities for further improvements to the single modules.