Mass customization explained

Mass customization makes use of flexible computer-aided systems to produce custom products. Such systems combine the low unit costs of mass production processes with the flexibility of individual customization.

Mass customization is the new frontier in business for both manufacturing and service industries. At its core, is a tremendous increase in variety and customization without a corresponding increase in costs. At its limit, it is the mass production of individually customized goods and services. At its best, it provides strategic advantage and economic value.

Product design strategy

Mass customization is a product design strategy and is currently used with both delayed differentiation and modular design to enhance the value delivered to customers.[1]

Mass customization is the method of, "effectively postponing the task of differentiating a product for a specific customer until the latest possible point in the supply network".[2]

From collaborative engineering perspective, mass customization can be viewed as collaborative efforts between customers and manufacturers, who have different sets of priorities and need to jointly search for solutions that best match customers' individual specific needs with manufacturers' customization capabilities.[3]

History

The concept of mass customization is attributed to Stan Davis in Future Perfect,[4] and was defined by as "producing goods and services to meet individual customers' needs with near mass production efficiency". concurred, calling it "a strategy that creates value by some form of company-customer interaction at the fabrication and assembly stage of the operations level to create customized products with production cost and monetary price similar to those of mass-produced products". Similarly, highlights that mass customization involves balancing operational drivers by defining it as, "the capability to manufacture a relatively high volume of product options for a relatively large market (or collection of niche markets) that demands customization, without tradeoffs in cost, delivery and quality".

Implementation

Many implementations of mass customization are operational today, such as software-based product configurators that make it possible to add and/or change functionalities of a core product or to build fully custom enclosures from scratch. This degree of mass customization, however, has only seen limited adoption. If an enterprise's marketing department offers individual products (atomic market fragmentation), it doesn't often mean that a product is produced individually, but rather that similar variants of the same mass-produced item are available. Additionally, in a fashion context, existing technologies to predict clothing size from user input data have been shown to be not yet of high enough suitability for mass customization purposes.[5]

Companies that have succeeded with mass-customization business models tend to supply purely electronic products.[6] However, these are not true "mass customizers" in the original sense, since they do not offer an alternative to mass production of material goods.

Variants

described four types of mass customization:

He suggested a business model, "the 8.5-figure-path", a process going from invention to mass production to continuous improvement to mass customization and back to invention.

Market research

Kamis, Koufaris and Stern (2008) conducted experiments to test the impacts of mass customization when postponed to the stage of retail, online shopping. They found that users perceive greater usefulness and enjoyment with a mass customization interface vs. a more typical shopping interface, particularly in a task of moderate complexity.[8]

See also

Bibliography

Notes and References

  1. Adel . H. M. . Younis . R. A. A. . Using co-creating mass-customisation and innovation climate for enhanced value: Empirical investigation in international modular jewellery market . Journal of Humanities and Applied Social Science . 2019 . 1 . 1 . 25–42 . 10.1108/JHASS-05-2019-002 . free .
  2. Book: Chase . Richard B. . Jacobs . F. Robert . Aquilano . Nicholas J. . 2006 . Operations Management for Competitive Advantage . 11th . McGraw-Hill/Irwin . December 2019.
  3. Chen . Songlin . Wang . Yue . Tseng . Mitchell . 2009 . Mass Customization as a Collaborative Engineering Effort . International Journal of Collaborative Engineering . 1 . 2 . 152–167 . 10.1504/ijce.2009.027444 . free.
  4. http://www.managingchange.com/masscust/overview.htm Mass Customisation – Overview
  5. Book: 10.15221/17.210 . Online Virtual Fit is not yet Fit for Purpose: An Analysis of Fashion e-Commerce Interfaces . Proceedings of 3DBODY.TECH 2017 - 8th International Conference and Exhibition on 3D Body Scanning and Processing Technologies, Montreal QC, Canada, 11-12 Oct. 2017 . 210–217 . 2017 . Januszkiewicz . Monika . Parker . Christopher J. . Hayes . Steven G. . Gill . Simeon . 9783033064362 .
  6. Web site: Smart Manufacturing Enables Mass Customization Trend. www.protolabs.com. en. 2020-05-08.
  7. The Four Faces of Mass Customization. Harvard Business Review. January 1997. Gilmore. James H.. Ii. B. Joseph Pine. 75. 1. 91–101. 10174455.
  8. Kamis . Koufaris . Stern . 2008 . Using an Attribute-Based Decision Support System for User-Customized Products Online: An Experimental Investigation . MIS Quarterly . 32 . 1 . 159 . 10.2307/25148832 . 25148832.