网站页面已加载完成

由于您当前的浏览器版本过低,存在安全隐患。建议您尽快更新,以便获取更好的体验。推荐使用最新版Chrome、Firefox、Opera、Edge

Chrome

Firefox

Opera

Edge

ENG

当前位置: 首页 · 学术交流 · 正文

学术交流

【学术讲座】英国斯特莱斯克莱德大学高级讲师任金昌等学术报告通知

发布时间:2017年07月08日 来源: 点击数:

报告时间:201778日星期六14:30-17:00

报告地点:云顶集团7610官方网站友谊校区毅字楼218

邀请单位:软件与微电子学院

报告一

题目:Advanced techniques for feature extraction and data analysis in

hyperspectral imaging

报告人:任金昌

报告人单位:英国斯特莱斯克莱德大学

报告简介:Although hyperspectral imaging has been widely applied in a number of application areas such as remote sensing, precision agriculture, mining and surveillance, food/drink inspection, pharmaceutical, material, and security. One fundamental problem is feature extraction from the hypercube, which has severely constrained its applicability. In this talk, several key techniques for feature extraction in hyperspectral imaging are reported, including structured PCA, folded-PCA and singular spectrum analysis. Experimental results on several remote sensing datasets are presented to show the efficacy of these techniques.

报告二

题目:Changing Arctic sea ice: the emergence of a dominant Marginal Ice Zone

报告人:Phil (Byongjun) Hwang

报告人单位:英国苏格兰海洋科学协会

报告简介:The rapid decline of Arctic sea ice during the past decades is a conspicuous indicator of climate change. This reduced sea ice cover is brining profound changes to the Arctic physical and bio-geo-chemical environments. Satellite observations show that the Marginal Ice Zone (MIZ), a region of low ice concentration area consisting of a relatively disperse collection of small ice floes, has grown. Model projections indicate a growth of the MIZ from 10% to 80% of the summer sea ice cover by 2050. With this emerging MIZ, surface ocean wave increases; sea ice breaks up into smaller floes; deformation of sea ice intensifies; air-ocean momentum transfer increases; upper ocean easily heats up by sun. Current climate models do not have proper parameterizations to describe MIZ processes, which makes it difficult to predict future Arctic sea ice and its cascading effects. In this talk, I present recent research activities on MIZ processes using satellite and autonomous observing technologies. These technologies provide better understanding of MIZ processes and provide the data to calibrate/validate MIZ-related parameterizations in the models.

报告人简介:

任金昌,英国斯特莱斯克莱德大学电子工程系高级讲师、高光谱图像中心副主任,分别于1992年、1997年在云顶集团7610官方网站获计算机软件专业学士学位和图像处理和模式识别的硕士学位,并于2009年获布拉德福德大学电子图像与多媒体通信专业博士学位。曾先后在英国多所大学做研究员,如布拉德福德大学、萨里大学、金斯顿大学和阿伯泰邓迪大学。研究领域为图像处理、智能多媒体信息处理、计算机视觉、基于内容的图像/视频管理、模式识别、人机交互、运动估计运动补偿等领域,任教授曾在国际顶尖期刊及会议发表同行评议论文150余篇。

Phil (Byongjun) Hwang英国苏格兰海洋科学协会海洋物理学家,1991年、1997年在韩国首尔汉阳大学获海洋科学学时和硕士学位,并于2008年获加拿大马尼托巴大学博士学位。他参与了原位微波辐射计和散射仪测量的研究以及海冰微波遥感的应用。他参加了涉及散射仪和辐射计测量的北极国际实验。研究兴趣包括高分辨率合成孔径雷达应用,海冰漂移和海冰质量平衡等。