Environmental Impact Assessment of Functional and Visual Design Features of Smartphones
Quantitative evaluation of visual design features such as shape, color, texture, and so on is insufficient, although such features are also important for users in determining which product to buy. Enhancing product functions usually causes larger environmental impact. But, some visual design features can be modified without increasing environmental impact. Thus, focusing on visual design features might be a solution to design sustainable products. At least, favorite visual designs can be enough reasons for users to use the product for long.
Our previous study has proposed a method to quantify weights of functional and visual design features. The study focused on smartphone as a case study and extracted color, texture, thickness, and customizability as visual design features. And battery capacity was focused on to compare to the visual design features, applying pair comparison method. Then, the calculated weights of the features were integrated with the weights of functional design features including battery capacity, found in other studies. It is well-known that ICs contain metals with large environmental impact such as gold, silver, etc. And ICs are fabricated through complicated processes using large amounts of water and electricity. So, if “memory size” is not very important for users, it is not eco-efficient to focus on such function. Instead, it might be possible to design attractive and sustainable products by focusing on “customizability” which was almost equally important for users as “memory size.” This study extends the previous study and compares the environmental impact of increasing memory size versus that of increasing customizability quantitatively. Through the effort, the paper tries to discuss a way to design attractive products without increasing the environmental impact. Examining the result, the study tries to extract a strategic guideline to design eco-efficient product.
KeywordsFunctional design Visual design LCA Smartphone Eco-efficiency
- 2.Yanagisawa H, Takatsuji K. Effects of visual expectation on perceived tactile perception: an evaluation method of surface texture with expectation effect. Int J Des. 2015;9(1):39–51.Google Scholar
- 3.Naito T, Mishima N. Integrated evaluation of functional and visual design towards sustainability. Proceedings of Electronics Goes Green 2016; Berlin, Germany: Sept. 2016.Google Scholar
- 4.Ishizaka A, Labib A. Review of the main developments in the analytic hierarchy process. Expert Syst Appl. 2011;38(11):14336–45.Google Scholar
- 6.Hu WC, Kaabouch N. Sustainable ICTs and management systems for green computing, information science reference, Chapter 11, 2012.Google Scholar
- 7.Boyd SB. Life cycle assessment of semiconductors, Ph.D. thesis in UC Berkeley, can be obtained from http://digitalassets.lib.berkeley.edu/etd/ucb/text/Boyd_berkeley_0028E_10192.pdf.
- 8.Takeshima A et. al. A life cycle assessment of mobile phones. Master thesis of Musashi Institute of Technology, can be obtained from http://www.yc.tcu.ac.jp/~itsubo-lab/research/pdf/casestudy/cs2005-c.pdf (In Japanese).