| 摘要: |
| 目的 在恶劣天气下,有效增强交通指挥手势辨识度,准确传递指挥信息,降低交通事故发生率。方法 分析交通指挥产品的现状和不足,构建交警与驾驶者的交通情境交互关系模型,洞察关键设计问题,优化交通指挥手套功能设计。探索智能织物与人体的交互方式,设计发光织物动态数字符号,增强交通手套的手势可视性,提升手套交互效果,提高交警与驾驶者之间的信息互动效率。最后根据以上分析提出设计方案。结果 基于可控发光织物的交通手套,可以有效增强手势可视性,提高交警工作效率。结论 交互关系模型有助于人们快速发现产品使用的问题点、获取相应的设计目标,为交通指挥产品设计提供新的思路,为相关研究及设计实践提供参考。 |
| 关键词: 发光织物 交通指挥 交互设计 交互关系模型 |
| DOI:10.19554/j.cnki.1001-3563.2022.12.015 |
| 分类号:TB472 |
| 基金项目:河北省引进留学人员资助项目(C20190370) |
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| Intelligent Interaction Design of Traffic Command Gloves Based on Luminous Fabric |
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LIU Yue-lin, LI Jia-ling, ZHAO Ling-ling
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(School of Art and Design, Yanshan University, Hebei Qinhuangdao 066004, China)
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| Abstract: |
| This paper aims to effectively enhance traffic command hand signal recognition in bad weather, accurately convey command information and reduce the rate of traffic accidents.Firstly, it analyzes the current situation and shortcomings of traffic command products. By constructing a traffic police and driver traffic context relationship model, it gives insight into key design issues and optimization of traffic command glove function design. Secondly, explore the way of interaction between intelligent fabric and human body. Design dynamic digital symbols based on luminous fabric to enhance the gesture visibility of traffic gloves, improve the glove interaction effect, and strengthen the efficiency of information interaction between traffic police-driver. Finally, we design the corresponding scheme according to the above analysis. The traffic glove based on controllable luminous fabric can effectively enhance the gesture visibility. In this way, the efficiency of traffic police is improved. The construction of interaction relationship model helps to quickly find the problems of product usage and obtain the corresponding design objectives. The proposed product design based on light-emitting fabric provides new ideas for future traffic command product design. It also provides a helpful idea for related research and design practice. |
| Key words: luminous fabric traffic command interactive design interaction model |
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