报告题目:Lucas-Kanade 30 Years On: Computation of Optical Flow and Its Impact on experimental Mechanics
(L-K算法30年:光流计算及其在实验力学领域的影响)
报告时间:5月31日(本周二)下午3:00
报告地点:力一楼237教室
报告摘要:Since first proposed in 1981, the Lucas-Kanade gradient-based optical flow algorithm has become one of the most widely used computational imaging techniques in computer vision, target tracking, motion estimation, mosaic image construction, medical image registration, and many other applications. In this talk, the original formulation of the Lucas-Kanade optical flow algorithm will be presented and its subsequent extensions will be described with a particular focus on their developments in the field of experimental mechanics. As full-field deformation measurement techniques based the Lucas-Kanade optical flow algorithm and many of its variants have been increasingly used in applications such as mechanical testing, constitutive model validation, and microscale structures and materials characterization, the impact of computational optical flow on experimental metrology in solid mechanics is now similar to that of the laser optics first developed since 1960s. Finally, some potential opportunities in further development of the optical flow algorithm for improved measurement accuracy and precision with reduced implementation complexity and computational cost will also be discussed.
报告人简介:童玮,现为美国Southern Methodist大学(SMU)教授。主要研究方向为生物材料力学,基于图像的全场位移应变测量技术,塑性力学。在动态压剪加载和应力波传播,纳米和生物组织力学性能研究,以及全场位移和应变测试技术等方面做出了领先的工作,获得多项奖项。
(L-K算法30年:光流计算及其在实验力学领域的影响)
报告时间:5月31日(本周二)下午3:00
报告地点:力一楼237教室
报告摘要:Since first proposed in 1981, the Lucas-Kanade gradient-based optical flow algorithm has become one of the most widely used computational imaging techniques in computer vision, target tracking, motion estimation, mosaic image construction, medical image registration, and many other applications. In this talk, the original formulation of the Lucas-Kanade optical flow algorithm will be presented and its subsequent extensions will be described with a particular focus on their developments in the field of experimental mechanics. As full-field deformation measurement techniques based the Lucas-Kanade optical flow algorithm and many of its variants have been increasingly used in applications such as mechanical testing, constitutive model validation, and microscale structures and materials characterization, the impact of computational optical flow on experimental metrology in solid mechanics is now similar to that of the laser optics first developed since 1960s. Finally, some potential opportunities in further development of the optical flow algorithm for improved measurement accuracy and precision with reduced implementation complexity and computational cost will also be discussed.
报告人简介:童玮,现为美国Southern Methodist大学(SMU)教授。主要研究方向为生物材料力学,基于图像的全场位移应变测量技术,塑性力学。在动态压剪加载和应力波传播,纳米和生物组织力学性能研究,以及全场位移和应变测试技术等方面做出了领先的工作,获得多项奖项。