【美高梅4858官方网站】自动化科学与工程高校分论坛的文告,关于设置华工

美高梅4858官方网站,【美高梅4858官方网站】自动化科学与工程高校分论坛的文告,关于设置华工。大面积师生:
华工海内外特出青年学者论坛目的在于面向环球邀约青年才俊,围绕国际科学战线、火爆研讨领域以及行当行当的手艺难题等举办研讨和交换。籍此平台,启迪思量,开发视界,促进学术交换与合作,这次论坛的具体布置如下:壹、论坛时间二零一八年七月20日1四:002、论坛地方学院城校区Computer科学与工程高校B三-30八会议室3、论坛议程一.
1四:00-14:05高校领导致接待辞二.
1四:0五-15:05报告人:文晟硕士告诉标题:Smarter the World, More Dangerous
Our Life: An Introduction of AI Security Research in Australian
NSCLab应接广大师生出席!计算机科学与工程学院二零一八年5月2八晚报告摘要:AI
related techniques have been widely applied in various areas. However,
according to NSCLabs research, it has been found that when our world
becomes more intelligent, our life becomes more dangerous as well. In
this talk, the presenter, Dr Sheng Wen, from Australian NSCLab, will
introduce their recent research about AI security. It contains three
parts: 一) using AI to hack IA (AMDligent Assistance) in smart phones;
二) 梅毒, not only human beings but also smart devices; and 三) adversarial
deep learning in image recognition. In this talk, Dr Sheng will also
introduce their on-going research topics as well as outcomes in NSCLab.
Dr Sheng hopes this talk can create opportunities for future research
collaboration.报告人简要介绍:文晟大学生于201四年在澳国迪肯大学赢得了博士学位,接着于201伍年以助教身份任职于迪肯大学。文晟硕士于2017年7月参加澳大乌兰巴托(Australia)斯威本科学和技术高校,成为高端教授。其商量领域为网络空间安全。近来,文硕士在斯威本地质学院的网络安全实验室指引16人的系统安全切磋团体,研商内容根本蕴涵系统漏洞检查测试钻探;敌对机器学习及其人工智能的平安商讨;面向用户的平安消除方案的研商。其商讨的现实意义在于协助网络安全职员越来越好地领略各类音信种类的平安威迫(比方,计算机病毒)的多变机理及其调整计策,并扶持工产业界制定系统安全的自动化管理规范,以及有关威逼的应对章程。文晟大学生在过去的陆年内一同发布了5陆篇高素质杂谈。随着近几年文晟学士的诗歌被更多地引用,他的做事壹度获得了才具域学术同行的确认。文晟学士主持和参与的品种曾经超(Jing Chao)过10项,合计二十多万日元(约一千多万人民币)。其余,文晟硕士还充当了七个国际学术SCI/EI杂志的副编辑或客座编辑,以及插足或大旨了一雨后春笋的国际学术会议。那一个干活儿都助长了同行间的学术沟通与搭档。可想而知,作为1人青春的我们,文晟硕士的研究成果雄厚,学术贡献出色。附属类小部件:无

告诉标题:一. Pedestrian-Synthesis-GAN: Generating Pedestrian Data in
Real Scene and Beyond(成宇硕士) 贰. From 西奥ry to Practice: Advanced
Controls for Experimental Physic (姜滨大学生) 3. Haptic Interaction and
Future 4D Haptic Displays (曾丽敏博士)报 告
人:成宇学士、杨凡大学生、曾丽敏大学生告诉时间:20一柒年二月20日八:30告知地方:伍山校区三号楼陆楼报告厅应接广大师生前来加入!自动化科学与工程大学二零一七年5月30日告诉简要介绍:(成宇大学生)State-of-the-art
pedestrian detection models have achieved great success in many
benchmarks. However, these models require a lot of annotation
information and the labeling process usually takes lots of time and
efforts.In this paper, we propose a method to generate labeled
pedestrian data and adopt them to support the training of pedestrian
detectors. The proposed framework is built on the generative adversarial
network (GAN) with multiple discriminators, trying to synthesize
realistic pedestrian and learn the background context simultaneously. To
deal with the pedestrians of different sizes, we adopt the Spatial
Pyramid Pooling (SPP) layer in the discriminator. We execute experiments
on two benchmarks. The results show that our framework can smoothly
synthesize pedestrians on background images of variations and different
levels of details. To quantitatively evaluate our approach, we add the
generated samples into training data of the baseline pedestrian
detectors and show that the synthetic images is able to help improving
the detector’s
performance.报告人简单介绍:成宇大学生于20十年在武大东军事和政院学自动化系获取大学生,20一5年在United States西大获取学士学位。自20十年学士开头,跟随Alock
Choudhary教师(美利哥AAAS Fellow, IEEE Fellow, ACM
Fellow),实行数量发掘和机器学习算法的钻研。2015年博士结业后参与IBM托马斯沃森讨论中央的人为智能核心组(AI
Foundation
Group),从事深度学习算法和血脉相通应用的专门商讨。成宇学士在深度学习园地获得的硕果,主若是非监督学习,模型压缩和重组文化的互联网那多少个方面。从20拾年读博到现在,已经获得专利(已特许和正在甄别)拾余项,揭橥相关故事集60余篇,个中SCI收音和录音8篇,CCF-A类会争执文1二篇,CCF-B类14篇,在谷歌Scholar中被引用伍2十六次。报告简要介绍:(张思礼大学生)SLS-II (National Synchrotron
Light Source II) is a new state-of-the-art synchrotron x-ray light
source in the United States. The facility offers scientific and
industrial researchers an array of beamlines with x-ray, ultraviolet,
and infrared light to enable discoveries in clean energy, condensed
matter and materials physics, chemistry, biology, molecular electronics,
and more.In his talk, Dr. Hu will review what he learned during his
college and graduate study in China, then introduce his current research
in the 田野 of experimental physics, mainly particle accelerators
including synchrotron light source, and finally present how he has
successfully designed high performance distributed control systems for
the worlds most advanced synchrotron light source —
NSLS-II.报告人简单介绍:蒋光明硕士200三年结束学业于辽大自动化专门的工作,贰零零8年大学生毕业于中国中国科学技术大学学香岛应用物理讨论所,十几年来平素致力调节连串的说理研讨和工程应用,尤其留心于高品质的分布式Computer类别在巨型实验物理装置和工业调节中的应用与切磋,在国际粒子加快器调节领域有着一定的信誉。胡大学生申请专利1个,发表普通话散文四篇,英文杂志和平交涉会议议文章20多篇,文章援引次数超越拾回,在各类国际会议中再三做全英文的学术讲座与报告,做过国际资深杂志的同行业评比议员。报告简要介绍:(曾丽敏大学生)
In addition to visual sensation and auditory sensation, various haptic
sensation and perception is one of important human abilities to interact
with our physical and cyber world. The haptic interaction improves user
experience while interacting with electronic systems via visual and/or
auditory channel. In this talk, I will make a state-of-the-art report
about haptic interaction, and present my previous research work on
designing and developing various haptic systems and applications, such
as tactile maps on pin-arrayed haptic displays, and how to represent
other type of spatial information via haptic displays. In the end of the
talk, I will introduce a new research trend on haptic shape change
displays, and my current work to design a future 四D haptic displays.
报告人简要介绍:曾丽敏博士,20一三年猎取德意志联邦共和国德累斯顿电影大学Computer人机交互大学生学位。201肆-20一伍年留校从事大学生后钻探,时期成功申请到欧洲缔盟FP柒项目援助,并以项目领导加入项目研究开发。近年来,仍就职于德意志联邦共和国德累斯顿电影高校,任高等切磋员及教学教师、硕导。切磋方向注重涉嫌多模态人机交互技术、触觉交互、可穿戴智能种类及消息无障碍化。已在才具域关键学术期刊及议会发布20多篇高素质学术故事集,如IEEE
Trans., 并获得活动交互国际超级会议ACM
MobileHCI20一5荣誉诗歌奖。同时,短时间担当三个学术期刊及国际会议审阅稿件,如IEEE
Trans. HMS, IEEE Trans. Haptics, ACM CHI等。附属类小部件:无

广泛师生:华工环球非凡青年学者论坛目的在于面向海内外约请具备分歧学术背景的青年才俊,围绕国际科学战线、热门研究世界以及行当行当的才能难点等开始展览切磋和交换。通过这一个平台,相互启发、开采视界,巩固国际调换与合营,促进两者联袂进步。此番论坛的具体布署如下:一、论坛时间二零一九年1六月十日午夜捌:30-12:00二、论坛地点华南理哲大学发光材质与器件国家根本实验室40贰会议室三、论坛议程一.捌:30-八:40
开幕式 钻探院领导接待致辞二.八:40-1二:00 学术报告 (每位三十7分钟)
主持人:秦安军应接广大师生加入!材质科学与工程高校二零一9年一月23日壹.报告标题Supramolecular
Polymeric Materials: the Marriage of Covalent Polymers and Non-Covalent
Interactions(吉晓帆博士)内容摘要Supramolecular polymeric materials,
which have emerged as the marriage of polymer science, supramolecular
chemistry and materials science, have gained considerable interest in
recent years as excellent materials not only due to their properties
similar to traditional polymers which are built by covalent bonds, but
also because of the reversibility and stimuli-responsiveness of
noncovalent bonds. Supramolecular polymeric materials can response to
abundant external stimuli, such as pH change, photo irradition, anions,
cations, temperature, and solvent. As a result, the reversibility and
responsiveness to external stimuli may further provide a range of
potential applications, including those as superabsorbers, as matrices
in analytical chemistry or biology, and as storage and delivery systems
for active substances in the biomedical 田野. Furthermore,
supramolecular polymer materials can be prepared under different
conditions, namely in solution, in gel, and in the solid state. Various
kinds of noncovalent interactions can be introduced into polymer
materials, such as hydrogen bonding, aromatic stacking interactions,
metal coordination, and host-guest interactions. In this talk, we will
state the utilization of noncovalent interactions to control the
self-assembly of traditional polymers in order to fabricate
supramolecular polymeric
materials.报告人简单介绍吉晓帆大学生于20十年七月在博洛尼亚审计大学获得硕士学位,于20一伍年四月在广东高校获得学士学位。
20壹伍年4月到现在,分别在东瀛东京(Tokyo)大学、美利哥内华达高校-奥斯汀分校、香岛科技大学从事大学生后研究职业。吉晓帆博士首要从事于作用超分子聚合物材质的探究,在两亲性超分子聚合物,超分子聚合物互联网,以及超分子聚合物凝胶等世界获得了一层层的调查钻探成果。已发布第二/通信小编散文2玖篇,包涵四篇
Adv. Mater., 两篇JACS ,和两篇 Chem. Sci.
等,并编写了《大分子自己创建建新编》第七章。钻探成果分别被Nature,
C&EN等优点电视发表,1篇杂谈入选中华夏族民共和国百篇最具影响国际学术杂文(20一三)。二.告知标题Engineering
Polymer/Inorganic Hybrid Nanoparticles for Cancer Theranostics
(刘奕静大学生)内容摘要Nanomaterials show great potential to fight cancers
because of their capabilities of diagnosing and treating cancer
simultaneously, improving the efficiency of drug delivery, and
diminishing side effects. Polymer/inorganic hybrid nanoparticles, which
combine the advantages of both polymer and inorganic components, are
expected to improve the treatment outcomes. Yet, it remains a great
challenge to achieve precise cancer therapy with nanomaterials that
requires optimization of their properties as well as understanding of
their interactions with biological systems. In this talk, I would like
to report my recent progress to address this challenge from two
different aspects. In the first part, I will present a self-assembly
strategy to construct polymer/inorganic hybrid nanoparticles with
enhanced collective properties. In the second part, I will introduce how
we can use our knowledge of nano-bio interactions to design
nanomaterials for enhanced cancer
therapy.报告人简单介绍刘奕静学士,于20拾年5月在莱比锡大学获取硕士学位,于2015年八月在美利坚联邦合众国新罕布什尔高校收获博士学位。20一5年二月到现在United States国立卫生商量院(NIH)
作为博士后钻探员从事商讨专业。刘奕静大学生致力于研究开发可用来癌症检查判断医疗的飞米材质。重要切磋内容包涵:切磋多效益无机高分子杂化质感的合成以及协会和属性的优化,钻探多职能微米材质在肿瘤会诊、医治方面包车型大巴选用,商量微米材质与生物系统间的职能。申请人以共同小编辑发表表SCI诗歌6四篇。在那之中以第三笔者或共同壹作宣布杂文J. Am. Chem. Soc. 一篇、 Angew. Chem. Int. 艾德.
二篇(个中一篇被选为封面小说和VIP故事集)、ACS nano 二篇、Chem.Soc.Rev.
一篇、Nano Today 壹篇。3.告知标题Emerging Solar Cell Technology:
Challenges and Opportunities(张金宝大学生)内容摘要Solar cells, directly
converting the solar energy into electricity, have been well recognized
as one of the most promising renewable energy technologies to provide
clean and abundant energy resources. So far there are different types of
solar technologies in the solar market, and in this talk I will briefly
describe the development of the solar technology and the main challenges
we face to manufacture and apply them in large scale. I will also
introduce all the new methods, functional materials and interfacial
charge engineering strategy I have developed in aiming to improve the
efficiency, stability and scalability of different solar cell
technologies. I will conclude with a personal perspective on directions
for the future development of solar technologies, which may involve the
design of new functional materials, device architecture and advanced
interface engineering.报告人简要介绍Dr. Jinbao Zhang is 沃尔enberg Postdoc
Fellow of Department of Materials Science and Engineering at Stanford
University. He obtained his PhD degree in Physical Chemistry from
Uppsala University in Sweden. He specializes in the energy conversion
and storage techniques, including lithium ion batteries, capacitors,
solar cells, fuel cells. His research interests include novel material
design, charge dynamics and device engineering for different types of
solar technologies. In 201陆 he was awarded Swedish 沃尔enberg Fellow. He
has published over 40 papers, including Advanced Materials, Energy
Environmental Science, Chem, ACS Nano, ACS Energy Letters, et al., with
citations over 1拾0 and h-index 20.四.告诉标题Perovskite solar cells:
from the molecule level to crystal structure and device
performance(王琼大学生)内容摘要Perovskite solar cells (PSCs) as a young
photovoltaic technology have experienced fast development in the power
conversion efficiency, with a world record efficiency of over ②三%,
highly competitive with that of silicon solar cells and thin-film
photovoltaics (PVs). However, the operational lifetime of PSCs lags far
behind compared to the well-established PVs. Therefore, enhancing the
lifespan of PSCs has been one of the focuses of the perovskite PV
community. In this talk, I will show our recent work on all inorganic
PSCs composed of inorganic perovskite compound and inorganic electron
and hole selective contact, exhibiting an extraordinary photo-thermal
stability, and holding a robust lifetime, T80-the time it takes for the
a solar cell to degrade to 八成 of its initial efficiency-during the
accelerated ageing test. Our work shows that inorganic PSCs will be the
future of this new PV technology that clears the device instability
hurdle standing on the way of commercialisation of PSCs.报告人简要介绍Dr.
Qiong Wang is currently a postdoctoral researcher in the Young
Investigator Group lead by Dr. Antonio Abate at Helmholtz-Zentrum
Berlin. Her research interests include developing stable perovskite
solar cells, understanding the working mechanisms of perovskite solar
cells and exploring new perovskite compounds. Before joining Dr. AntonioAbates group, she worked as a research fellow in the Department of
Chemistry at Michigan State University in 201六‒2017 after she obtained
the Ph.D. degree in Chemical Engineering from the University of
Queensland.伍报告标题Enabling Tools for Disease Diagnosis, Imaging and
Intervention (李隽巍博士)内容摘要The ability to create and use tools
differentiates humans from all the other living beings. As a
result,tools have been playing an important role in human history.
Millions of years ago, our ancestors created the very first piece of
tools with stone. Since then, many other tools have been created to
change our life. In the 田野同志 of biomedicine, The creation and use of
molecular tools, such as molecular probes, nanoscale agents, and drugs,
have significantlybenefited the modern society. Specifically, these
tools have been applied for both the scientific discoveries and clinical
advancements.报告人简要介绍李隽巍大学生于二〇一一年三月在广东大学收获博士,20一七年十月在美利坚联邦合众国华盛顿大学收获学士学位。20一7年十二月于今在美利哥加州圣地亚哥分校高校从事大学生后钻探。首要从事疾病早期检查实验检查判断系统的创设及接纳这一前方火热领域,特别是在高灵敏度疾病理检查查实验和医术成像方面获得一多种开荒性的切磋成果。近5年来,以率先笔者身份在Nature
Biomedical Engineering等5星级期刊发布SCI故事集7篇,并搭档公布Nature
Medicine、Nature Biomedical
Engineering等一等期刊5篇。其商讨成果被国际资深杂志Nature Biomedical
Engineering通篇报导。附属类小部件:无

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