基于户外视觉警示功能的智能骑行服的研发
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摘要
分析国内外智能化安全服装研究原型和网络技术研究案例,明确多功能户外骑行服装的设计原则。基于户外骑行服装需求的调研结果,分析骑行服的设计要素,包括骑行服面料选择、骑行服缝制要求。从面料、智能元件、款式结构和色彩搭配角度进行基于姿势控制LED的荧光骑行服设计,并进行视觉效果有效性主观评价试验。试验结果验证了姿势控制LED灯组元件的灵敏度,以及LED灯组与荧光面料组合视觉警示的协调功能,为此类服装的开发提供参考。
Through analyzing the research prototype and network technology of domestic and foreign intelligent safety clothing, the design principles of multi-functional clothing for outdoor cycling are clarified. Based on the survey results of outdoor cycling clothing demand, the design elements of cycling clothing are analyzed, including the selection of cycling clothing fabric and the requirements of cycling clothing sewing. Then the design of fluorescent cycling suit based on posture control LED is carried out from the aspects of fabric, smart components, style structure and color matching, and the subjective evaluation test of visual effectiveness is carried out. The experimental results validate the sensitivity of the posture control LED light set components and the coordination function of the combination of the LED light set and fluorescent fabrics visual warning, which provides a reference for the development of this kind of clothing.
Through analyzing the research prototype and network technology of domestic and foreign intelligent safety clothing, the design principles of multi-functional clothing for outdoor cycling are clarified. Based on the survey results of outdoor cycling clothing demand, the design elements of cycling clothing are analyzed, including the selection of cycling clothing fabric and the requirements of cycling clothing sewing. Then the design of fluorescent cycling suit based on posture control LED is carried out from the aspects of fabric, smart components, style structure and color matching, and the subjective evaluation test of visual effectiveness is carried out. The experimental results validate the sensitivity of the posture control LED light set components and the coordination function of the combination of the LED light set and fluorescent fabrics visual warning, which provides a reference for the development of this kind of clothing.
引文
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[2]陈琪,杜奕莹,王建萍.骑行裤舒适性与运动功能性调研分析[J].针织工业,2017(4):56-59.
[3]郭静,殷恒婵.非竞技自行车骑行人群骑行舒适性调查研究[J].针织工业,2017(4):60-64.
[4]常丽霞.自行车运动服装的舒适性与功能性研究[J].针织工业,2014(6):60-63.
[5]吴艳,沈雷,洪文进.基于无线传感技术的智能化安全针织内衣设计[J]上海纺织科技,2015,43(5):21-23.
[6]远志.户外资料网骑行服需求调查[EB/OL].(2014-05-07)[2018-05-27]http://t1.qpic.cn/mblogpic/9b7a1e5220bfd6ee6d54/460.
[7]王莹,陈雁.利用感性工学原理设计学生装[J].纺织学报,2007,28(3):96-99.
[8]张幼红,杨淑丽.织物反光安全色的研究[J].纺织学报,1995,16(6):42-46.
[9]赵广艳,侯东昱.环卫用反光警示服的安全性能探究[J].上海纺织科技,2015,43(4):54-55.
[10]刘浩,李伟民,李晓丽.无线体征监测系统的低功耗调度方法[J].计算机应用,2012,32(3):839-842,851.
[11]张灏,刘锋.智能化电子服装的最新技术及其应用[J].纺织导报,2011(12):108-110.
[12]张亮,王瑞芹,温平则,等.微电子服装的结构特点和生产方式趋势探析[J].纺织导报,2008(9):108-109.
[13]陈姗姗.基于传感装置的安全性服装设计研究[D].无锡:江南大学,2013.