[1] 刘卉,刘静民,郑秀媛,等.鞋的触觉舒适性研究进展[J].皮革科学与工程,2012,22(4):44-51. [2] 张向辉,汤须眉,田苗.人体足部压力舒适性研究进展及应用[J].上海纺织科技,2019,47(9):5-10. [3] 赵碎浪,杨峰,傅陆军,于百计.鞋垫对足底压力舒适性影响研究进展[J].中国皮革,2018,47(9):57-61. [4] Tamara J, Lane Karl B, Landorf Daniel R,et al.Effects of shoe sole hardness on plantar pressure and comfort in older people with forefoot pain[J].Gait&Posture,2014,39(1):247-251. [5] Anderson Jennifer,Williams Anita E,Nester Chris.Development and evaluation of a dual density insole for people standing for long periods of time at work.[J].Journal of foot and ankle research,2020,13(1):1-13. [6] 陈磊,李宇鹏,喻伟才,等.楦与脚的跖围、基宽差值对鞋穿着舒适性的影响研究[J].皮革科学与工程,2019,29(6):63-66+71. [7] Lam Wing-Kai,Ng Wei Xuan,Kong Pui Wah.Influence of shoe midsole hardness on plantar pressure distribution in four basketball-related movements.[J].Research in sports medicine(Print),2017,25(1):37-47. [8] 宋影,沈妮,张慧彬.大底硬度对高跟女鞋足底压力舒适性的影响研究[J].西部皮革,2016,38(17):54-59. [9] Business-Manufacturing;Recent Findings from BioRobot Institute Provides New Insights into Manufacturing(Digital and Experimental Synergies To Design High-heeled Shoes)[J].Journal of Technology,2020,109(1):385-395. [10] 柯思成,谢红,李杰聪.有限元建模技术在预测鞋底减震性能中的应用研究[J].皮革科学程,2020,30(1):68-73. [11] 顾汉杰.一种鞋类舒适度测试机器人[P].浙江:CN206568147U,2017-10-20. [12] NGUYEN Thanh Luan,Samuel James ALLEN,PHEE Soo Jay Louis.Position tracking control in torque mode for a robotic running foot for footwear testing[J].Proceedings of the Institution of Mechanical Engineers,Part P:Journal of Sports Engineering and Technology,2019,233(3):351-361. [13] 胡宗祥,陈学灿,关雪琼.对慢跑鞋力学舒适性评价的研究[J].体育科学研究,2013,17(6):72-77. [14] 陈大志,陈学灿,吴文.足底压力测试方法的构建与应用[J].西部皮革,2017,39(11):28-34. [15] 汤运启,吕美莲,秦蕾,邹利民.跑鞋类型对走跑过程中足底压力分布的影响[J].中国皮革,2018,47(4):50-55+65. |