面向高性能运动服数字化设计中的热功能量化计算与舒适性评估研究

项目名称： 面向高性能运动服数字化设计中的热功能量化计算与舒适性评估研究

项目编号： No.61502112

项目类型： 青年科学基金项目

立项/批准年度： 2016

项目学科： 计算机科学学科

项目作者： 罗洁

作者单位： 广州大学

项目金额： 21万元

中文摘要： 高性能运动服是可针对穿着环境提供人体抵抗内、外部气候能力并获得高舒适性的高科技体育服装产品，通常具有智能保温、快速排汗、透气干爽、防风防雨等高性能的特征，对提高运动成绩和人们生活品质都有重要意义。如何将运动服的热功能进行量化计算实现功能定制设计是高性能运动服数字化设计的关键技术。本项目将进行高性能运动服数字化设计中热功能的量化计算与舒适性评估研究，研究内容为：1）高性能运动服穿着体系的热物理机制原理研究；2）高性能运动服穿着体系的热物理过程数学建模和量化仿真算法研究；3）高性能运动服的热功能属性与设计参数的映射关系研究；4）高性能运动服的动态热舒适性评价模型构建研究。本项目的研究可快速实现和改进高性能运动服的热功能设计，缩短设计周期，提升高性能运动服的核心竞争力与附加值，可帮助我国体育运动服与装备行业实现从代工生产到自主品牌的产业转型，具有重要的应用前景和价值。

中文关键词： 高性能运动服；热功能模拟；舒适性评估；数字化设计

英文摘要： High performance sportswear is able to protect the wearer from the inner and outer climate environments and thus gain high quality comfort. Due to the functional features, such as intelligent thermal insulation, rapid wicking, breathable dry, waterproof and windproof, it has great significance in improving the sport performance and even the life quality. How to quantized simulate the thermal functions of the sportswear is the key technology to realize the design of sportswear with customized functions. This project will focus on the quantized simulation of thermal functions and comfort evaluation of the high performance sportswear. The main research content include: 1) research on the thermal mechanism of the sportswear wearing system; 2) research on the modeling and simulation algorithm of thermal mechanisms of sportswear wearing system; 3) research on mapped relationships between the function variables and design variables; 4) research on the dynamic thermal comfort evaluation of high performance sportswear. The output of this research will help to fast design and improve the thermal functional design of high performance sportswear, shorten the design cycle, increase the core competence and additional value, thus help the sportswear and equipment industry to transform from OEM production to self-owned brand, which has great application potential and research value.

英文关键词： High Performance Sportswear;Thermal Functional Simulation;Comfort Evaluation;Digital Design