Jump to content

Grey relational analysis

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Monkbot (talk | contribs) at 05:00, 13 December 2020 (Task 18 (cosmetic): eval 18 templates: del empty params (2×);). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Grey relational analysis (GRA), also called Deng's Grey Incidence Analysis model, was developed by a Chinese Professor Julong Deng of Huazhong University of Science and Technology. It is one of the most widely used models of Grey system theory. GRA uses a specific concept of information. It defines situations with no information as black, and those with perfect information as white. However, neither of these idealized situations ever occurs in real world problems. In fact, situations between these extremes, which contain Dispersed knowledge (partial information), are described as being grey, hazy or fuzzy. A variant of GRA model, Taguchi-based GRA model, is very popular in engineering.

Grey System Theory

GRA is an important part of grey system theory pioneered by Professor Deng in 1982[citation needed]. A grey system means that a system in which part of information is known and part of information is unknown. With this definition, information quantity and quality form a continuum from a total lack of information to complete information – from black through grey to white. Since uncertainty always exists, one is always somewhere in the middle, somewhere between the extremes, somewhere in the grey area. Grey analysis then comes to a clear set of statements about system solutions[specify]. At one extreme, no solution can be defined for a system with no information. At the other extreme, a system with perfect information has a unique solution. In the middle, grey systems will give a variety of available solutions. Grey analysis does not attempt to find the best solution, but does provide techniques for determining a good solution, an appropriate solution for real world problems. The theory inspired many noted scholars and business leaders like Jeffrey Yi-Lin Forrest, Sifeng Liu, Ren Zhengfei and Joseph L. Badaracco, a professor at Harvard Business School.

Dr. Sifeng Liu, the pupil of Deng, building upon the work of Deng's GRA model proposed his own Absolute GRA model.[1] In 2018, Liu and his doctoral student merged Deng's GRA model and Absolute GRA model to propose the Second Synthetic GRA model.[2]

The theory has been applied in various field of engineering and management. Initially, the grey method was adapted to effectively study air pollution [3] and subsequently used to investigate the nonlinear multiple-dimensional model of the socio-economic activities’ impact on the city air pollution.[4] It has also been used to study the research output and growth of countries.[5]

In the world there are many universities, associations and societies promoting Grey System Theory e.g., International Association of Grey Systems and Decision Sciences (IAGSUA), Chinese Grey System Association (CGSA), Grey Systems Society of China (GSSC), Grey Systems Society of Pakistan (GSSP), Polish Scientific Society of Grey Systems (PSGS), Grey Systems Committee (IEEE Systems, Man, and Cybernetics Society), Centre for Computational Intelligence (De Montfort University) etc. [6][7][8][9][10]

There are several journals dedicated to grey systems research and studies e.g., "The Journal of Grey System" (UK),[11][12] "Grey Systems Theory and Application" (Emerald Group Publishing),[13] "Journal of Grey System" (Taiwan),[14] "Grey Room" (MIT Press),[15] "The Grey Journal",[16] "Grey Matters",[17] Journal of Intelligent and Fuzzy Systems,[18] Kybernetes, etc.

References

  1. ^ Liu, Sifeng; Yang, Yingjie; Forrest, Jeffrey (2017). Grey Data Analysis. Methods, Models and Applications. Singapore: Springer. ISBN 978-981-10-1841-1.
  2. ^ Javed, Saad Ahmed; Liu, Sifeng (2018-10-08). "Evaluation of outpatient satisfaction and service quality of Pakistani healthcare projects". Grey Systems: Theory and Application. 8 (4): 462–480. doi:10.1108/gs-04-2018-0018. ISSN 2043-9377.
  3. ^ Pai, Tzu-Yi; Hanaki, Keisuke; Chiou, Ren-Jie (2013-03-27). "Forecasting Hourly Roadside Particulate Matter in Taipei County of Taiwan Based on First-Order and One-Variable Grey Model". CLEAN - Soil, Air, Water. 41 (8): 737–742. doi:10.1002/clen.201000402.
  4. ^ Xiaolu, Li; Zheng, Wenfeng; Yin, Lirong; Yin, Zhengtong; Song, Lihong; Tian, Xia (2017-08-10). "Influence of Social-economic Activities on Air Pollutants in Beijing, China". Open Geosciences. 9 (1): 314–321. doi:10.1515/geo-2017-0026.
  5. ^ Javed, Saad Ahmed; Liu, Sifeng (2018), "Predicting the research output/growth of selected countries: application of Even GM (1, 1) and NDGM models", Scientometrics, 115: 395–413, doi:10.1007/s11192-017-2586-5
  6. ^ "International Association of Grey Systems and Uncertainty Analysis | International Association of Grey Systems and Uncertainty Analysis". Retrieved 2019-04-10.
  7. ^ "Grey Systems Society of Pakistan (GSSP)". GreySys Foundation. Retrieved 2019-04-10.
  8. ^ "Chinese Grey System Association". grey.org.tw. Retrieved 2019-04-10.
  9. ^ "Grey Systems - IEEE SMC". www.ieeesmc.org. Retrieved 2019-04-10.
  10. ^ "Centre of Computational Intelligence". www.dmu.ac.uk. Retrieved 2019-04-10.
  11. ^ "RIL: The Journal of Grey System". researchinformation.co.uk. Retrieved 2019-04-10.
  12. ^ "Journal of Grey System". www.scimagojr.com. Retrieved 2019-04-10.
  13. ^ "Emerald | Grey Systems information". emeraldgrouppublishing.com. Retrieved 2019-04-10.
  14. ^ "Chinese Grey System Association". grey.org.tw. Retrieved 2019-04-10.
  15. ^ "Grey Room". www.greyroom.org. Retrieved 2019-04-10.
  16. ^ "Grey Literature - TGJ, An International Journal on Grey Literature". www.greynet.org. Retrieved 2019-04-10.
  17. ^ "Grey Matters". greymattersjournal.com. Retrieved 2019-04-10.
  18. ^ "Journal of Intelligent & Fuzzy Systems". www.iospress.nl. Retrieved 2019-04-10.
  • Chan WK and Tong TKL, (2007), Multi-criteria material selections and end-of-life product strategy: Grey relational analysis approach, Materials & Design, Volume 28, Issue 5, Pages 1539-1546
  • Free Multi-criteria Decision Aiding (MCDA) Tools for Research Students http://sites.google.com/site/mcdafreeware/