Research in Design of ENT Treatment Unit based on AHP-QFD-FBS

Pengfei Guo; Shanping Ning; Xia Zhong

doi:10.54097/9kenqg49

Authors

Pengfei Guo
Shanping Ning
Xia Zhong

DOI:

https://doi.org/10.54097/9kenqg49

Keywords:

AHP, QFD, FBS, ENT Treatment Unit, Product Design

Abstract

To obtain the demands of doctors and patients, the analysis of user behavior and interviews on the users of the ENT treatment unit are conducted in this paper. Then, the weight of the demands is calculated by using the Analytic Hierarchy Process. We combine the quality function deployment to construct the relationship matrix of the user requirements-functional requirements and rank the importance of functional requirements. Finally, the FBS mapping relationship and functional importance to design the ENT treatment unit are combined. It makes the design process of ENT treatment unit more scientific and provides new ideas to design medical devices.

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References

[1] Guo Xiya, Nie Xiaofen, Wang Jiahao. Research on hardware tool design based on QFD[J]. Journal of Machine Design, 2019,36(12):122-6.

[2] Lu Zhongyi, Yang Bo, Huang Feng. Design and improvement of complex product appearance based on QFD[J]. Machine Design, 2019,36(11):119-26.

[3] Li Na, Li Xiaodong, Tang Dongfang. Selection of the optimal plan for sustainable packaging design based on AHP-TOPSIS[J]. Packaging Engineering, 2020,41(23):242-8.

[4] Su Jianning, Wei Jin. Design of rose bud picking machine based on AHP/QFD/TRIZ[J]. Journal of Machine Design, 2020,37(08):121-6.

[5] Wang Zhen, Lu Jian, Pan Weijie, et al. Research on the quality evaluation method of sorting equipment based on AHP and QFD[J]. Journal of Machine Design, 2019,36(10):39-45.

[6] Tang Lin, Chang Yu, Wang Zirui. Modeling design of fitness equipment for the elderly based on QFD and AHP[J]. Packaging Engineering, 2019,40(24):199-204.

[7] Zhou Shengxiang, Zheng Feng. Research on product design method integrating AHP/QFD/AD[J]. Packaging Engineering, 2021,42(02):150-4+66.

[8] Chen Yuan, Song Duanshu, Gu Junli. Research on product innovation design mode integrating QFD/TRIZ/AHP[J]. Packaging Engineering, 2017,38(20):150-5.

[9] Gao Zhilai, Qiu Zixue, Ren Dong, et al. Research on optimization design method of beam of bridge type gantry milling machine based on QFD[J]. Machinery Design & Manufacture, 2020, (09):44-9.

[10] Ren Gongchang, Zhang Bowen, Zhang Sunzhi. Application of QFD and TRIZ in the design of pineapple peeling machine[J]. Packaging Engineering, 2020,41(07):157-63.

[11] Wang Meixue, Zhai Honglei. Design and evaluation method and application of rehabilitation training products for children with autism based on AHP and TOPSIS[J]. Journal of Graphics, 2020,41(03):453-60.

[12] Deng Xue, Li Jiaming, Zeng Haojian, et al. Analysis of Analytic Hierarchy Process Weight Calculation Method and Its Application Research[J]. Mathematics in Practice and Theory, 2012,42(07):93-100.

[13] Xu Yanqiu, Song Duanshu, Gu Junli, et al. Research on Multi-adaptability Design of Toilets Based on QFD and FBS Models[J]. Packaging Engineering, 2018,39(24):283-7.

[14] Xu Dongping, Pan Qinqin, Xiao Ling, et al. Progress in disinfection and sterilization methods of flexible endoscopes[J]. Chinese Journal of Nosocomiology, 2021,31(06):957-60.

[15] Ge Dongmei. Comparison of the disinfection effects of ortho-phthalaldehyde and acidic oxidizing potential water for soft endoscopes[J]. Chinese Journal of Disinfection, 2017,34(10):922-4.