Kano model
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In a product development project it is recommended to use the kano model to meet customers needs and to determine requirements in an early project phase. The article provides the explanation of the kano model, the application and how to make projects successful by involving it. | In a product development project it is recommended to use the kano model to meet customers needs and to determine requirements in an early project phase. The article provides the explanation of the kano model, the application and how to make projects successful by involving it. | ||
| − | == | + | ==The five quality elements== |
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| + | The Kano model distinguish five typs of quality elements as followed: | ||
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| + | '''Must-be Quality Elements''' | ||
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| + | '''One-dimension Quality Elements''' | ||
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| + | '''Attractive Quality Elements''' | ||
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| + | '''Indifferent Quality Elements''' | ||
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| + | '''Reverse Quality Elements''' | ||
==References== | ==References== | ||
<references/> | <references/> | ||
Revision as of 11:01, 11 September 2017
Abstract
The Kano model is a method to scale the layers of quality and to achieve consumer satisfaction in a project or for a product. The Model was published in 1978 by Noriaki Kano (*1940), a Professor of the Tokyo University of Science. [1] The theory is proposed to understand the relationship between customer satisfaction and quantitative measures. The requirement and the performance of the product or service derive from the different types, the model provides. The model gather the needs of the customers to include them in the development of a product or service. [2] In a product development project it is recommended to use the kano model to meet customers needs and to determine requirements in an early project phase. The article provides the explanation of the kano model, the application and how to make projects successful by involving it.
The five quality elements
The Kano model distinguish five typs of quality elements as followed:
Must-be Quality Elements
One-dimension Quality Elements
Attractive Quality Elements
Indifferent Quality Elements
Reverse Quality Elements
References
- ↑ Kano, N.; Seraku, N.; Takahashi, F.; Tsuji (1984). Attractive Quality and Must-be Quality; Journal of the Japanese Society for Quality Control
- ↑ Hans-Joachim Lenz, Peter-Theodor Wilrich, Wolfgang Schmid (2010). Frontiers in Statistical Quality Control 9. Physica-Verlag Heidelberg, ISBN 978-3-7908-2379-0
