Authors: Y. H. Wang, C. C. Hsieh

Abstract:

Good service design can increase organization revenue and consumer satisfaction while reducing labor and time costs. The problems facing consumers in the original serve model for eyewear and optical industry includes the following issues: 1. Insufficient information on eyewear products 2. Passively dependent on recommendations, insufficient selection 3. Incomplete records on progression of vision conditions 4. Lack of complete customer records. This study investigates the case of Kobayashi Optical, applying the Theory of Inventive Problem Solving (TRIZ) to develop innovative solutions for eyewear and optical industry. Analysis results raise the following conclusions and management implications: In order to provide customers with improved professional information and recommendations, Kobayashi Optical is suggested to establish customer purchasing records. Overall service efficiency can be enhanced by applying data mining techniques to analyze past consumer preferences and purchase histories. Furthermore, Kobayashi Optical should continue to develop a 3D virtual trial service which can allow customers for easy browsing of different frame styles and colors. This 3D virtual trial service will save customer waiting times in during peak service times at stores.

Keywords: Theory of inventive problem solving, service design, augmented reality, eyewear and optical industry.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1339205

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References:

[1] S. K. Feiner, Augmented Reality: A New Way of Seeing, Scientific American Magazine, vol. 286, no. 4, pp. 34–41, 2002.
[2] P. Milgram, H. Takemura, A. Utsumi and F. Kishino, “Augmented Reality: A class of displays on the reality-virtuality continuum” SPIE, 2351, pp. 282-292.
[3] “10 Examples of Augmented Reality in Retail,” Creative guerrilla marketing, 2014. http://www.creativeguerrillamarketing.com/ augmented-reality/10-examples-augmented-reality-retail/.
[4] Total Immersion, “TryLive: Virtual Try-On and Product Visualization Solutions”, 2015. http://www.timmersion.com/trylive/trylive%E2%84% A2-augmented-reality-fashion.
[5] G. Altshuller, The Innovation Algorithm: TRIZ, Systematic Innovation and Technical Creativity. Technical Innovation Center, 2000.
[6] E. Domb, J. Terninko, J. Miller, and E. MacGran, “The Seventy-Six Standard Solutions: How They Relate to the 40 Principles of Inventive Problem Solving”, The TRIZ Journal, 1999.
[7] H. I. Peng, Integrated TRIZ and DFMA in Patent Design around Process, 2008.
[8] TRIZ Matrix. http://www.triz40.com/aff_Matrix_TRIZ.php.
[9] H. H. Chang, P. W. Lu. P.W., Using a TRIZ-based Method to Design Innovative Service Quality - A Case Study on Insurance Industry. Journal of Quality, 16(3): 179-193, 2009.
[10] C. H. Lee, Y. H. Wang, and A. J. C Trappey, “ Service design for intelligent parking based on theory of inventive problem solving and service blueprint” Advanced Engineering Informatics, in press, 2014.