基于逆向工程数字人体技术的产品可用性设计评价研究:以颈部按摩器为例
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摘要
文章从人机工程学角度出发,运用逆向工程及数字人体的客观方法对颈部按摩器进行了可用性评价,将人机工程学理论融合在实际设计中,使设计因素条理化、创造性设计理性化,从而引导产品设计成功。
In this paper, the usability evaluation of the neck massager is carried out by using reverse engineering and digital human body objective method. The ergonomics theory is integrated into the practical design, which makes the design factors rationalized and the creative design rationalized, leading to product design success.
In this paper, the usability evaluation of the neck massager is carried out by using reverse engineering and digital human body objective method. The ergonomics theory is integrated into the practical design, which makes the design factors rationalized and the creative design rationalized, leading to product design success.
引文
[1]Jan P.L.Schoormans.Product design and apparent usability.The influence of novelty in product appearance.Applied Ergonomics 2012;43:1081-1088.
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[4]Jiyoung Kwahk.A methodology for evaluating the usability of audiovisual consumer electronic products.Applied Ergonomics 2002;33:419-431.
[5]Catherine Harvey.A usability evaluation toolkit for In-Vehicle Information Systems(IVISs).Applied Ergonomics 2011;42:563-574.
[6]Mar?a Paula Gonza lez.Enhancing usability testing through datamining techniques:A novel approach to detecting usability problem patterns for a context of use.Information and Software Technology 2008;50:547-568.
[7]Mingxing Wu.An approach of product usability evaluation based on Web mining in feature fatigue analysis.Computers&Industrial Engineering 2014;75:230-238.
[8]Jongseo Kim.A methodology for developing a usability index of consumer electronic products.International Journal of Industrial Ergonomics2008;38:333-345.
[9]LüTing.Research and application of digital human.Journal of Clinical Rehabilitative Tissue Engineering Research2010;48(14):9041-9045.
[10]Patrik Polá?ek.Comparison of Digital Tools for Ergonomics in Practice.Procedia Engineering 2015;100:1277-1285
[11]Chenmao.A sketch-based approach to human body modelling.Computers&Graphics 2009;33:521-541.
[12]Yueh-Ling Lin.Constructing 3D human model from front and side images.Expert Systems with Applications2012;39:5012-5018.
[13]Yan Luximon.The 3D Chinese head and face modeling.Computer-Aided Design 2012;44:40-47.
[14]张绍祥.首套中国男、女数字化可视人体结构数据的可视化研究.第三军医大学学报2003;25(7):563-565.
[15]Renran Tian.Computerized task risk assessment using digital human modeling based Job Risk Classification Model.Computers&Industrial Engineering 2001;61:1044-1052.
[16]Seung-Yeob Baek.Parametric human body shape modeling framework for human-centered product design.ComputerAided Design 2012;44:56-67.
[17]任金东.数字人体模型技术及其在汽车人机工程设计中的应用综述.汽车工程2006;28(1):647-651.
[18]张静.基于数字人机技术的老年肢体残障者轮椅可用性研究.设计2015;30-31
[19]王登峰.适合重型商用车人机设计的数字人体模型研究.机械工程学报2010;46(2):69-75.
[20]张丽艳.逆向工程的关键技术及其应用研究.数据采集与处理1999;14(1).
[21]许智钦.逆向工程技术三维激光扫描测量.天津大学学报2001;34(3).
[22]金涛.逆向工程技术研究进展.中国机械工程2002;13(16).
[23]罗大兵.逆向工程中数字化测量与点云数据处理.机械设计与制造2005;9:56-58
[24]Eyup Bagci.Reverse engineering applications for recovery of broken or worn parts and re-manufacturing:Three case studies Advances in Engineering Software 2009;40:407-418.
[25]N.Werghi.Object reconstruction by incorporating geometric constraints in reverse engineeringO riginal Research Article.Computer-Aided Design 1999;31(6):363-399.
[26]C.K.Au,M.M.F.Yuen.Feature-based reverse engineering of mannequin for garment design.Computer-Aided Design1999;31(12):751-759.
[2]Andreas Sonderegger.The influence of prototype fidelity and aesthetics of design in usability tests:Effects on user behaviour,subjective evaluation and emotion.Applied Ergonomics 2009;40:670-677.
[3]Patrick W.Jordan.Human factors for pleasure in product use.Applied Ergonomics 1998;29(1):25-33.
[4]Jiyoung Kwahk.A methodology for evaluating the usability of audiovisual consumer electronic products.Applied Ergonomics 2002;33:419-431.
[5]Catherine Harvey.A usability evaluation toolkit for In-Vehicle Information Systems(IVISs).Applied Ergonomics 2011;42:563-574.
[6]Mar?a Paula Gonza lez.Enhancing usability testing through datamining techniques:A novel approach to detecting usability problem patterns for a context of use.Information and Software Technology 2008;50:547-568.
[7]Mingxing Wu.An approach of product usability evaluation based on Web mining in feature fatigue analysis.Computers&Industrial Engineering 2014;75:230-238.
[8]Jongseo Kim.A methodology for developing a usability index of consumer electronic products.International Journal of Industrial Ergonomics2008;38:333-345.
[9]LüTing.Research and application of digital human.Journal of Clinical Rehabilitative Tissue Engineering Research2010;48(14):9041-9045.
[10]Patrik Polá?ek.Comparison of Digital Tools for Ergonomics in Practice.Procedia Engineering 2015;100:1277-1285
[11]Chenmao.A sketch-based approach to human body modelling.Computers&Graphics 2009;33:521-541.
[12]Yueh-Ling Lin.Constructing 3D human model from front and side images.Expert Systems with Applications2012;39:5012-5018.
[13]Yan Luximon.The 3D Chinese head and face modeling.Computer-Aided Design 2012;44:40-47.
[14]张绍祥.首套中国男、女数字化可视人体结构数据的可视化研究.第三军医大学学报2003;25(7):563-565.
[15]Renran Tian.Computerized task risk assessment using digital human modeling based Job Risk Classification Model.Computers&Industrial Engineering 2001;61:1044-1052.
[16]Seung-Yeob Baek.Parametric human body shape modeling framework for human-centered product design.ComputerAided Design 2012;44:56-67.
[17]任金东.数字人体模型技术及其在汽车人机工程设计中的应用综述.汽车工程2006;28(1):647-651.
[18]张静.基于数字人机技术的老年肢体残障者轮椅可用性研究.设计2015;30-31
[19]王登峰.适合重型商用车人机设计的数字人体模型研究.机械工程学报2010;46(2):69-75.
[20]张丽艳.逆向工程的关键技术及其应用研究.数据采集与处理1999;14(1).
[21]许智钦.逆向工程技术三维激光扫描测量.天津大学学报2001;34(3).
[22]金涛.逆向工程技术研究进展.中国机械工程2002;13(16).
[23]罗大兵.逆向工程中数字化测量与点云数据处理.机械设计与制造2005;9:56-58
[24]Eyup Bagci.Reverse engineering applications for recovery of broken or worn parts and re-manufacturing:Three case studies Advances in Engineering Software 2009;40:407-418.
[25]N.Werghi.Object reconstruction by incorporating geometric constraints in reverse engineeringO riginal Research Article.Computer-Aided Design 1999;31(6):363-399.
[26]C.K.Au,M.M.F.Yuen.Feature-based reverse engineering of mannequin for garment design.Computer-Aided Design1999;31(12):751-759.