|
1.Shih-Wen Hsiao. (2002) "Concurrent design method for developing a new product. " International Journal of Industrial Ergonomics 29.1: 41-55. 2.F.Kimura,Y.Matoba, and K.Mitsui. (2007) "Designing product reliability based on total product lifecycle modelling." CIRP annals 56.1: 163-166. 3.Wankhade Nitesh Prakash, V. G. Sridhar and K. Annamalai. (2014) "New product development by DFMA and rapid prototyping." ARPN J Eng Appl Sci 9.3: 274 -279. 4.Jui-Hung Cheng and Shuo-Fang Liu. (2017) "A study of innovative product marketing strategies for technological SMEs." Journal of Interdisciplinary Mathematics, 20.1: 319-337. 5.Hajime Yamashina, Takaaki Ito, and Hiroshi Kawada. (2002) "Innovative product development process by integrating QFD and TRIZ. " International Journal of Production Research 40.5: 1031-1050. 6.Karin Bergquist, and John Abeysekera. (1996) "Quality function deployment (QFD) - A means for developing usable products." International journal of industrial ergonomics 18.4: 269- 275. 7.E. Ertugrul Karsak, Sevin Sozer, and S. Emre Alptekin. (2003) "Product planning in quality function deployment using a combined analytic network process and goal programming approach." Computers & industrial engineering 44.1: 171 -190. 8.Tomohiko Sakao. (2007) "A QFD-centred design methodology for environmentally conscious product design." International journal of production research 45.18-19: 4143-4162. 9.C. H. Yeh, Jay CY Huang, and C. K. Yu. (2011)"Integration of four-phase QFD and TRIZ in product R&D: a notebook case study." Research in Engineering Design 22.3: 125-141. 10.Caligiana, Gianni, et al. (2017) "Integrating QFD and TRIZ for innovative design." Journal of Advanced Mechanical Design, Systems, and Manufacturing 11.2: JAMDSM0015 -JAMDSM0015. 11.Chang-Hee Cho, and Kwon-Hee Kim. (2010) "Product development with TRIZ: design evolution of deburring tools for intersecting holes." Journal of Mechanical Science and Technology 24.1: 169-173 12.Imoh M. Ilevbare, David Probert, and Robert Phaal. (2013) "A review of TRIZ, and its benefits and challenges in practice." Technovation33.2-3: 30-37 13.D. Francia, et al. (2018) "PrinterCAD: A QFD and TRIZ integrated design solution for large size open moulding manufacturing." International Journal on Interactive Design and Manufacturing (IJIDeM) 12.1: 81-94. 14.L. Y. Zheng, Q. Liu, and C. A. McMahon. (2010) "Integration of process FMEA with product and process design based on key characteristics." Proceedings of the 6th CIRP-sponsored international conference on digital enterprise technology. Springer, Berlin, Heidelberg, 15.Sekar Vinodh, and D. Santhosh. (2012) "Application of FMEA to an automotive leaf spring manufacturing organization." The TQM Journal 24.3: 260-274. 16.van Zanten, Julian FJ Veldhuijzen, and Wessel W. Wits. (2015) "Patent circumvention strategy using TRIZ-based design-around approaches." Procedia engineering 131: 798-806. 17.Waguih ElMaraghy, et al. (2012) "Complexity in engineering design and manufacturing. " CIRP annals 61.2: 793-814. 18.Miao Li, et al. (2013) "A framework of product innovative design process based on TRIZ and Patent Circumvention." Journal of Engineering Design 24.12: 830-848. 19.Miao Li, et al. (2015) "A TRIZ-based trimming method for patent design around. " Computer-Aided Design 62: 20-30.
|