教育背景
1990.9-1994.7 西北纺织工果冻传媒 学士 (毛纺织工程)
1994.9-1998.2 西北纺织工果冻传媒 硕士 (纺织材料)
1998.2-2001.5 果冻传媒 博士(纺织材料与纺织品设计)
2001.11-2005.8 University of Texas at Austin 博士后(数字化纺织服装)
工作经历
2005.10~至今 果冻传媒
果冻传媒 方向
1.虚拟织物,服装及人体的三维建模与仿真;
2.基于物理建模的织物与服装的虚拟现实及增强现实技术;
3.面向电子商务环境的虚拟人与虚拟服装关键技术;
4.深度学习在纺织服装行业的赋能范式;
教学课程
本科生:专业外语;电子商务;电子商务实习
果冻传媒 生:计算机仿真与建模
科研项目:
主持多项国家级及省部级科研项目。
1.基于最少量输入的高精度虚拟服装悬垂空间的重构方法(批准号:61572124)果冻传媒 期限:2016.1-2019.12
2.基于模块化自适应体型形态仿真试衣机器人的开发(横向课题,在研,主持)
3.羊绒羊毛纤维数字化识别系统开发(横向课题,在研,主持)
4.三维人体/服装扫描仪开发(横向课题,在研,主持)
5.基于稳态变迁的虚拟服装几何与动力学模型(上海市自然科学基金)
6.基于最少量图像的三维着装重建(国家自然科学基金委员会,主持)
7.面向大型电在商务环境虚拟试衣的多态仿真与应用(上海市科学技术委员会,主持)
8.基于物理建模的三维服装原型自动生成算法果冻传媒 (教育部,主持)
9.多重多异虚拟服装的几何与动力学模型(教育部,主持)
10.高精度多重多异虚拟服装的几何与动力学模型(国家自然科学基金委员会,主持);
11.三维扫描人体及服装空间的“染色体”表征与重用(中央高校自由探索项目,主持);
12.基于二维轮廓线的人体与服装三维重构技术(中央高校自由探索项目,主持)
13.面向虚拟设计与制造的高精度虚拟服装成型与多态应用(中央高校重点项目, 主持);
近三年代表性论文
1.Naveed, Tayyab; Hussain, Azmat; Zhong, Yueqi. Reducing fabric wastage through image projected virtual marker (IPVM)[J]. Textile Research Journal. 88(14): 1571-1580, 2018.
2.Zhong, Yueqi; Lu, Kai; Tian, Jun. Wool/cashmere identification based on projection curves[J]. Textile Research Journal. 87(14):1730-1741, 2017.
3.Wu, Ge; Li, Duan; Hu, Pengpeng. Zhong, Yueqi; Pan Ning. Foot shape prediction using elliptical Fourier analysis[J]. Textile Research Journal. 88(9): 1026-1037, 2018.
4.Yue-qi Zhong. A Case Study on Master Students with the Textile Background in Tackling Fiber Identification Problems[C],Proceedings of the 2018 International Conference on Education Reform and Management Science (ERMS 2018).
5.Hu, PengPeng; Li, Duan; Wu, Ge. Personalized 3D mannequin reconstruction based on 3D scanning[J]. International Journal of Clothing science and Technology. 30(02):159-174, 2018.
6.Wu, Ge; Li, Duan; Hu, Pengpeng. Automatic foot scanning and measurement based on multiple RGB-depth cameras[J]. Textile Research Journal. 88(2):167-181, 2018.
7.Hu, PengPeng; Komura, Taku; Li, Duan. 3D textile reconstruction based on KinectFusion and synthesized texture[J]. International Journal of Clothing science and Technology. 29(6):793-806, 2017.
8.Zhong, Yueqi; Lu, Kai; Tian, Jun. Wool/cashmere identification based on projection curves[J]. Textile Research Journal. 87(14): 1730-1741, 2017.
9.K Lu,Y Zhong,D Li,X Chai,H Xie. Cashmere/wool identification based on bag-of-words and spatial pyramid match[J]. Textile Research Journal. 88(21): 2435-2444, 2018.
10.P Hu,T Komura,D Holden,Y Zhong. Scanning and animating characters dressed in multiple-layer garments[J]. Visual Computer. 33(6): 961-969,2017.
11.G Wu,D Li,Y Zhong,PP Hu. A study on improving the calibration of body scanner built on multiple RGB-Depth cameras[J]. International Journal of Clothing Science and Technology 29(3) :314-329, 2017.
12.H Xie,D Li,Z Yu,Y Zhong,T Naveed. Automatic Clustering and Prediction of Female Breast Contours[C],International Conference on Computational Science and Its Applications ICCSA 2017: Computational Science and Its Applications – ICCSA 2017. pp:30-42.
13.P Hu,T Komura,D Li,G Wu,Y Zhong. 3D High-quality Textile Reconstruction with Synthesized Texture[C], International conference on computation science (ICCS 2017), pp: 355-364.
14.Li, Duan; Wu, Ge; Hu, Peng-Peng. 3D Garment Redressing Based on Virtual Tailoring[C],10th Textile Bioengineering and Informatics Symposium (TBIS 2017), pp: 431-437.
15.G Wu, Z Yu, A Hussain,Y Zhong. 3D Drape Reconstruction and Parameterization Based on Smartphone Video and Elliptical Fourier Analysis[C], Procedia Computer Science.108:1552-1561,2017.
16.RG Feng,D Li,Y Zhong. The development and application of 3D body scanning device based on KinectFusion method[C], Mechanics and Mechatronics (ICMM2015), pp:674-682.
17.Han R, Zhong Y, Wu G. Calculating bending stiffness of woven fabrics based on image analysis[C], International Conference on Mechanics and Mechatronics(2015). pp:113-119.
18.Zhang, Hui-Yao, Li, Duan,Xie, Hao-Yang,et al. Elliptic Fourier Analysis on Female Chest Contour[C], 10th Textile Bioengineering and Informatics Symposium(2017),pp: 470-476.
19.R Han,Y Zhong,G Wu. Calculating bending stiffness of woven fabrics based on image analysis[C], Mechanics and Mechatronics (ICMM2015), pp:113-119.
20.Han R, Kun H U, Ge W U, et al. Calculation on bending stiffness of woven fabrics by image processing method[J]. Journal of Textile Research, 37(3):41-46,2016.
21.Yuan S L, Lu K, Zhong Y Q. Identification of Wool and Cashmere Based on Texture Analysis[C], Key Engineering Materials, 671:385-390, 2015,
22.Wu G, Zhong Y Q, Yu W D. Evaluating Tensile Properties of Wool Fibers Based on the Waveform of Acoustic Emission[J]. Key Engineering Materials, 671:391-396, 2016.
23.Wu G, Zhong YQ, Yu WD, Identifying the breaks of wool fibers based on the waveform analysis of acoustic emission. Textile Research Journal, 85(13): 1319-1330, 2015.
24.Wu G, Zhong YQ, Yu WD. Evaluating tensile properties of wool fibers based on the waveform of acoustic emission. Key Engineering Materials. 67(11): 391-396, 2016.
25.Xiao WM, Zhong YQ, Wu G. The optimal resolution of garment 3D model based on geometric deviation and curvature analysis. Proceedings of the First International Conference on Information Sciences. 126: 272-276, 2015.
26.Yuan SL, Lu K, Zhong YQ. Identification of wool and cashmere based on texture analysis. Key Engineering Materials. 671: 385-390, 2015.
27.Hui K, Zhong YQ, 3D Foot Reconstruction from image sequence. Textile Bioengineering and Informatics Symposium Proceedings. 133-137, 2015.
28.Xiao W, Zhong Y, Wu G, et al. The optimal resolution of garment 3D model based on geometric deviation and curvature analysis[J]. Advances in Intelligent Systems Research, 126: 272-276, 2015.
29.Han R, Zhong Y, Wu G. Calculating bending stiffness of woven fabrics based on image analysis[C], International Conference on Mechanics and Mechatronics. 113-119, 2015.
30.Feng R G, Li D, Zhong Y. The development and application of 3D body scanning device based on Kinect Fusion method[C],International Conference on Mechanics and Mechatronics. 674-682, 2015.
31.Hu P, Zhong Y, Wu G, et al. Two-step registration in 3D human body scanning based on multiple RGB-D sensors[J]. Journal of Fiber Bioengineering and Informatics, 8(4): 705-712, 2015.
32.Jiang J F, Dai C, Liu H Y, et al. An Approach of Clothes Appearance Comparison between True and Virtual Sewing. Key Engineering Materials. 671: 460-465, 2016.
专利专著
l《数字化服装设计与管理》,十五国家级规划教材,参编,中国纺织出版社,2006.5, ISBN 7-5064-3863-1;
l《Computer technology for textiles and apparel》,参编,Woodhead Textiles Series No.121, WOODHEAD PUBLISHING LIMITED, 2010, ISBN 1-84569-729-4
授权发明专利4项,申报发明专利12项。
l三维虚拟服装快速姿态同步方法(ZL 200910194537.5)
l三维人体模型的全自动测量方法(ZL 200910194538.X)
l网络环境中三维服装的合身性评价方法(ZL 200910056230.9)
l面向大型电子商务环境虚拟服装的仿真方法 ZL200910055984.2
获奖荣誉
2013年:面向电子商务环境的虚拟试衣关键技术,上海市人民政府,上海市技术发明二等奖(第一完成人)
2013年:面向电子商务环境的虚拟试衣关键技术及应用,中国纺织工业联合会,科学技术三等奖(第一完成人)
2013年:面向大型电子商务环境虚拟服装的仿真方法,香港桑麻科技二等奖(第一完成人)
2011年:上海教育工会“管理新星”提名奖
2008-2011年任纺织材料与纺织品设计系主任期间带领全系获得“全国工人先锋号”“上海市劳动模范集体”及申报成功“国家级教学团队”
2008年:PPT高附加值产品的关键技术,上海市科技进步二等奖(第6完成人)
