2023年航空学院暑期国际学堂课程选课通知

为扎实推进“双一流”建设，有效扩展学生国际化视野，促进学生本土国际化发展，航空学院2023年暑期国际学堂将邀请海外知名高校教学经验丰富的教师为我校师生开设七门全英文课程，包括六门专业选修课程以及一门通识类课程。

此次选课分为正选和补选。正选于6月12日9:00开始，6月16日12:00结束，补选于6月26日9:00开始，6月29日17:00结束（学校通知已于6月3日在西工大教务 注册中心公众号发布）。研究生选课在研究生教育系统选课，选课时间为2023年6月13日-6月29日(选课方式：“翱翔门户”--“研究生教育”--“暑期学堂”--“选课”界面选课)。所有报名学生请及时加入课程QQ群并填写《附件2 2023年航空学院暑期国际学堂学生报名表》发给课程联系人 。具体排课时间请参考《附件1 2023年航空学院暑期国际学堂课程时间安排》。

课程及授课教师简介Course Description and Biography

1.      机器视觉应用/Machine Vision Applications

课程简介Course Description：

机器视觉是一门工程学科，它集成了许多技术来解决现实世界的问题。它可以自动从数字图像中提取信息，用于民用基础设施的过程控制、产品检测和状态评估。本课程将介绍机器视觉的基本原理和原理，描述机器视觉系统的设计过程，并描述各种工程应用。它将涵盖图像形成和处理技术、模式分析和识别、3D视觉和运动、视觉系统设计以及各种工业应用的内容。本课程的目标是帮助学生掌握机器视觉系统开发和应用的工程解决方案和技术趋势。

Machine vision is an engineering discipline, which integrates a number of technologies to solve real-world problems. It can automatically extract information from digital images for process control, product inspection, and condition assessment of civil infrastructure. The course will introduce the fundamentals and principles of machine vision, describe the procedure for machine vision system design, and depict various engineering applications. It will cover the contents of image formation and processing techniques, pattern analysis and recognition, 3D vision and motion, vision system design, and various industrial applications. The objective of this course is to help students acquire knowledge and learn the engineering solutions and technology trends for machine vision system development and applications.

授课专家简介Biography：

刘征教授现为加拿大英属哥伦比亚大学（Top 50）全职教授，一直致力于工业信息获取与处理的前沿技术研究。刘征教授当选国际光学工程学会会士(SPIE Fellow)，为Information Fusion、IEEE Transactions on Mechatronics等8个顶级期刊副主编、编委。发表论文180余篇，引用7800余次，包括IEEE Transactions on Pattern Analysis and Machine Intelligence (IF: 24.314)、Information Fusion (IF: 17.564) 等顶刊论文。近五年，刘征教授主持了加拿大国防项目、加拿大国家研究项目、加拿大国家自然科学工程基金会项目、加拿大-德国3+2工业创新人工智能解决方案项目及企业项目，项目合同额累计380余万加元。

Professor Liu Zheng is currently a fulltime professor at the University of British Columbia (Top 50) in Canada, dedicated to cuttingedge technology research in industrial information acquisition and processing. Professor Liu Zheng was elected SPIE Fellow and served as the associate editor and editorial board member of eight top journals, including Information Fusion and IEEE Transactions on Mechatronics. Published over 180 papers and cited over 7800 times, including top tier papers such as IEEE Transactions on Pattern Analysis and Machine Intelligence (IF: 24.314) and Information Fusion (IF: 17.564). In the past five years, Professor Liu Zheng has led Canadian defense projects, Canadian national research projects, Canadian National Natural Science Engineering Foundation projects, Canada Germany 3+2 Industrial Innovation Artificial Intelligence Solution projects, and enterprise projects, with a total contract value of over 3.8 million Canadian dollars.

2.      飞行器结构设计与完整性/Design and Integrity of Aircraft Structures

课程简介Course Description：

本课程为理解飞机结构设计、分析航空结构要素及其完整性评估提供了重要工具。将特别关注轻型结构和复合材料失效起始和传播、抗损伤、多尺度建模以及适用于完整性评估目的的先进技术方面的最先进概念。

This course provides important tools in understanding of aircraft structures design, analyze the elements of aerial structures, and their integrity assessments. Particular focus will be made on most advanced concepts in lightweight structures and composite failure initiation and propagation, and damage resistance, and multiscale modeling and those advanced techniques applicable for integrity assessment purposes.

授课专家简介Biography：

Abbasali Saboktakin，土耳其İzmir航空航天工程系助理教授，毕业于加拿大蒙特利尔魁北克大学航空航天工程，拥有22年工作经验。曾教授课程：飞机设计、推进系统、空气动力学、先进复合材料、先进液压与气动、有限元法、材料科学、项目管理与控制、材料力学。

Abbasali Saboktakin, is working inAerospace Engineering Dept., İzmir, Turkey as Assistant Professor. He got his PhD Degree, Mechanical/Aerospace Eng., Quebec University. He got 22 years working experience. Some of his courses are: Aircraft Design; propulsion systems; aerodynamics; advanced composite; materials; advanced hydraulics and pneumatics; finite element method; materials science; project management and control; mechanics of materials.

3.      跨文化沟通与管理/Cross-Cultural Communication and Management

课程简介Course Description：：

本课程拓宽国际视野，提升自我价值，培养全球胜任力，获得在欧洲学习/工作机会，掌握跨文化沟通和管理技巧。课程涵盖了各教育体系的比较、留学机会与申请指导、以及跨文化沟通和全球领导力的培养，有助于帮助同学们在国际化职业生涯中取得成功并与有全球背景的专业人才更好地协作与交流。

课程重点在于认识欧洲及法国文化及历史，了解欧洲及法国的教育体系以及航空航天行业进展，介绍并分享留学法国学习、实习及工作经验和机会，让学生充分了解和掌握跨文化沟通技巧和能力，拓宽学生国际视野，帮助学生更好地融入国外学习、生活环境和将来的工作环境。

The objective of the course is to understand the culture and history of Europe and in particularly in France. It also aims to understand the country's educational system and to know more about its progress in the aerospace industry. The program will also present, share experience and opportunities (for study, internship and job opportunity) in France. The idea is to make students fully understand the intercultural differences between France and China, and to master communication skills so that they can be ready for any circumstances in both countries. Therefore, this course helps students broaden their international horizons and better integrate into studying, living and future working environment abroad.

授课专家简介Biography：

刘艳萍副教授，MBA，法国高等航空航天技术与汽车制造工程师学院（ESTACA）亚洲区国际发展和伙伴关系经理，法国巴黎商学院客座教授，20年法国学习/工作经验。

Associate Professor Liu Yanping is the manager of Asia International Development and Partnerships of the French Institute of Advanced Aeronautics and Aerospace Technology and Automotive Manufacturing Engineers (ESTACA). And she is a visiting professor of the Paris Business School and has 20 years of study/work experience in France.

4.      机械振动与测量/Mechanical Vibration and Measurement

课程简介Course Description：

振动和声学在机械和结构系统的行为、性能、设计、预期寿命甚至失效中起着重要作用。在航空航天、机械和机电工程领域，设计具有复杂动态行为的机械，必须根据给定的原因对其进行控制，以满足适当的设计标准。 本课程介绍了振动与噪声建模、分析和测量的概念和方法，包括机械系统刚柔体建模和分析的先进方法、以及现有系统分析和评估的实验技术。 本课题还结合现代控制理论介绍了控制系统设计的新概念和新方法。 利用实验收集的数据集以及MATLAB和Simulink进行的项目工作是课堂活动的重要组成部分，使学生熟练掌握数据采集、噪声和振动测试、测量、信号处理和振动与控制工程等技术。

Vibration and acoustics play a significant role in the behavior, performance, design, life expectancy, and even failure, of mechanical and structural systems. Aerospace, mechanical, and mechatronic engineers design machines, with complex dynamic behavior, which must be controlled for the reasons given and for meeting the appropriate design standards. This subject introduces concepts and approaches to noise and vibration modelling, analysis, and measurement, including advanced approaches in rigid and flexible body modelling and analysis of mechanical systems as well as experimental techniques for the analysis and evaluation of existing systems. This subject additionally introduces new concepts and approaches to control system design with modern control theories. The project work using the experimentally collected datasets as well as the MATLAB and Simulink form a significant proportion of in-class activities, in which students become proficient in the techniques of data acquisition, noise and vibration testing, measurement, signal processing and vibration and control engineering.

授课专家简介Biography：

Hamed Kalhori博士目前是澳大利亚悉尼科技大学机械与机电工程学院(MME)讲师。2017年，Hamed博士加入UTS，担任UTS自治系统中心的研究助理，后来加入MME担任讲师。在加入UTS之前，Hamed博士是澳大利亚Data61-CSIRO的研究助理，致力于新南威尔士州各种基础设施的结构健康监测。Hamed博士于2017年获得悉尼大学机械工程博士学位，并在此期间获得多项奖项。Hamed博士对学术研究的贡献导致发表了30多篇同行评议的期刊文章和16篇国际会议论文。Hamed博士被授予2019年悉尼大学院长卓越教学和辅导奖。在过去的几年里，Hamed博士还担任了一些不同期刊的特刊的客座编辑。Hamed博士的研究兴趣包括逆动力学问题，线性和非线性振动，振动测量，模态分析，结构健康监测，智能材料和结构。

Dr. Hamed Kalhori is currently a sessional lecturer in the School of Mechanical and Mechatronic Engineering (MME) at the University of Technology Sydney (UTS) in Australia. Hamed started his career at UTS as a research associate in the Centre for Autonomous Systems at UTS in the year 2017, and later joined MME as a lecturer. Prior to joining UTS, Hamed was a research assistant in Data61-CSIRO in Australia, working on structural health monitoring of various infrastructures across New South Wales.

Hamed received his PhD in mechanical engineering from the University of Sydney in the year 2017 and received several awards during this period. Hamed’s contribution to academic research has led to the publication of over 30 peer-reviewed journal articles and 16 international conference papers. Furthermore, Hamed is a reviewer for several leading scientific journals, such as Mechanical Systems and Signal Processing, Journal of Sensors, Advanced Experimental Mechanics, Vibrations, etc. Hamed has demonstrated excellence in his performance in teaching and learning also, evidenced by his recognition. Hamed was bestowed with the 2019 University of Sydney Dean’s Award for Excellence in Teaching and Tutoring. Over the past a few years, Hamed has also been acting as the guest editor for a few special issues in different journals. Hamed’s research interests include inverse dynamics problems, linear and nonlinear vibrations, vibration measurement, modal analysis, structural health monitoring, and smart materials and structures.

5.      航空航天轻量化结构动力学分析/Dynamic analysis of lightweight aerospace structures

课程简介Course Description：

本课程主要针对航空航天结构的动力学问题，讲授当前主流的分析方法以及经典案例。首先，将介绍如何推导多自由度系统（MDOF）的运动方程，以及求解该系统获得固有频率、瞬态和稳态响应解的常用方法，同时讲授瞬态分析中降阶模型的建立技术，并给出减小降阶模型截断误差的挑选准则。然后，我们将介绍航空航天薄壁结构中常出现的梁单元和板单元的结构矩阵，并在推导过程中考虑结构预应力的非线性效应，针对完美和含缺陷结构，讲授考虑非线性效应的结构振动分析最新技术。本课程同时涵盖了实验模态分析的内容，介绍了如何验证数值模型，以及如何从实际结构中获得固有频率、模态阻尼比和振型。本课程的最后一部分涵盖频域方法，从傅里叶变换开始，给出频域中瞬态问题的求解方案。最后是频率响应分析和随机振动分析，包括在频域中计算疲劳的方法等等。本课程将结合代尔夫特理工大学航空航天系Saullo G.P.Castro博士所开发的开放源码的Python库进行实例讲解，课堂上涉及到的结构动力学分析示例程序都将无偿提供给学生。

本课程是代尔夫特理工大学航空航天学院的专业核心课程，在基础理论讲解、前沿方法介绍以及专业案例展示方面具有自己的课程特色，目前已有近20年的开课历史。Saullo Giovani Pereira Castro 目前是该课程的主讲教师。

In this course, the students will learn how to derive the equations of motion for a multiple degree-of-freedom system (MDOF), and to solve this system for obtaining the natural frequencies, and to perform transient and steady-state solutions. The transient analysis is performed by means of a reduced-order model constructed from an orthonormal basis that is the mass-normalized version of the vibration mode shapes. The course utilizes an open-source Python library developed by the instructor (Dr. Saullo G. P. Castro), and all examples covered in class are made available to the students. Selection criteria to reduce the truncation error of the reduced-order model are derived and discussed. The structural matrices for beam and plate elements are derived. Nonlinear effects of prestresses are derived and the vibration-correlation technique that takes into account these nonlinear effects is presented; for perfect and imperfect structures. Topics on experimental modal analysis are covered, presenting how to validate a numerical model and how to obtain the natural frequencies, modal damping ratios and mode shapes from real structures. The final part of the course covers frequency domain methods, starting with the Fourier transform, passing through the solution of transient problems in the frequency domain, and finalizing with frequency response analysis and random vibration analysis, including a method to calculate fatigue in the frequency domain.

授课专家简介Biography：

主讲教师Saullo Giovani Pereira Castro 副教授在德国Technical University of Clausthal大学获得博士学位，目前在代尔夫特理工大学航空航天学院的结构分析与计算力学研究团队工作，在薄壁结构的承载性能评估、静\动力学行为分析以及轻量化设计方法等方向有长期积累，完成了多项欧盟框架项目，具有较强的学术背景及行业影响力。S.G.P.Castro教授在薄壁结构的稳定性及动力学分析算法，热力耦合计算以及物理实验研究等方面取得了一系列代表性成果，发表学术论文50余篇，出版专著一本，是该领域的知名专家。

6.      Reliability Engineering/可靠性工程

课程简介Course Description：

可靠性是工程系统的一个关键性能指标。它测量系统在特定运行条件和特定时间内，执行其预期功能的能力。汽车、计算机、电视等消费设备以及石油和天然气系统、电信系统、化学精炼厂、发电和配电网络等工业系统对可靠性的要求越来越高。对于所有准备进入设计和/或操作各种工程设施的现实世界的工程师来说，可靠度工程方面的扎实背景是很有价值的。

本次课程的内容从可靠性运算和可靠性概念等基础讲起，然后介绍正态分布、对数分布、指数分布、韦布尔分布等各种分布；接着讲解可靠性数据分析和系统可靠性分析；讲解系统可靠性分析的方法和原理；故障树分析以及故障模式和影响分析。通过学习本课程，学生可以初步分析系统的可靠性，即如何分析从实验室和现场获得的数据，并拟合统计分布，计算基于组件可靠性的系统可靠性。

Reliability is a key performance measure of engineering systems. It measures the ability of a system to perform its intended functions for a specified period of time under specified operating conditions. This course aims to provide students with reliability analysis tools and techniques for designing and operating systems at high reliability levels. There has been a higher and higher requirement on the reliability of consumer devices such as automobiles, computers, and televisions as well as industrial systems such as oil and gas systems, telecommunication systems, chemical refineries, and power generation and distribution networks. A solid background in reliability engineering is valuable for all engineers preparing to go into the real world of designing and/or operating various engineering facilities. From this course, students will learn how to analyze data obtained from laboratories and the field and fit statistical distributions, compute system reliability based on component reliabilities, and design reliability into devices or systems.

授课专家简介Biography：

梁喜辉博士现为加拿大曼尼托巴大学机械工程学院助理教授。多年来从事机械设备故障诊断，预测及健康管理的研究工作。近五年发表SCI文章50篇，其中中科院机械学科SCI一区文章12篇 (6篇为第一或者通讯作者)，中科院SCI二区文章12篇 (5篇为第一或者通讯作者)。其中6篇文章为ESI top 1%高引论文。根据Google Scholar统计结果，其文章近五年被引近2000次。研究成果已在加拿大工业界获得广泛应用，比如齿轮箱故障诊断技术已被加拿大Syncrude集团应用在油砂设备，Enmax集团应用在风电设备，Rice有限公司应用在齿轮泵设备中，故障预测技术已被Enbridge集团应用在输油管道裂纹寿命预测中。

Dr. Liang is currently an Assistant Professor at the School of Mechanical Engineering at the University of Manitoba in Canada. For many years engaged in mechanical equipment fault diagnosis, prediction and health management research work. In the past five years, he has published 50 SCI articles, of which 12 articles (6 are the first or corresponding authors) in the Mechanical Science SCI Region I of the Chinese Academy of Sciences, and 12 articles (5 are the first or corresponding authors) in the SCI Region II of the Chinese Academy of Sciences. Six of them are ESI top 1% highly cited papers. According to the statistics of Google Scholar, his articles have been cited nearly 2,000 times in the past five years. Research results have been widely used in Canadian industry, such as gearbox fault diagnosis technology has been applied by Syncrude Canada in oil sands equipment, Enmax Group in wind power equipment, Rice Limited in gear pump equipment, fault prediction technology has been applied by Enbridge Group in oil pipeline crack life prediction.

7.      Structural dynamics/飞机结构动力学

课程简介Course Description：

本课程的目的是学习飞机结构动力学建模和分析的基本理论方法,将依照如下次序进行：首先介绍飞机结构动力学的研究范围，然后讲授单自由度系统和多自由度系统的动态响应计算方法，并介绍拉格朗日方程和哈密尔顿原理及其在结构动力学方程推导中的应用，连续系统的结构动力学近似分析方法，有限元方法在结构动力学中的应用，介绍飞机机翼结构及全机的结构动力学分析方法，最后对课程内容进行总结和综述相关领域的研究进展。

This course covers the fundamentals of modeling and analyzing dynamic behavior of aircraft structures. In the first few lectures context of the present subject has been introduced with a correlation to aircraft structures. Subsequently it introduces structures modeled as single degree-of-freedom system and presents important methods for the solution of such dynamic systems. Multi degree-of-freedom system related methodology and concept have been discussed in the following few lectures. Finally mathematical solution for some simple structures modeled as systems with distributed properties and approximate methods related to the structural dynamics have been presented.

授课专家简介Biography：

Ranjan Banerjee，博士（1978），伦敦城市大学教授（2003-）。长期从事材料力学、飞机结构动力学和复合材料力学教学工作和气动弹性研究工作。累计发表期刊和会议论文150余篇。主要学术兼职包括：英国工程和自然科学研究委员会(EPSRC)评委，皇家航空学会(RAeS)会士，美国航空航天学会(AIAA)副会士。

Prof. Ranjan Banerjee joined City University in 1985 as a Lecturer. In March 2003 he was promoted to Professorship. He was elected into the EPSRC Peer Review College in 1996 and served until 1999, and was re-elected in 2002, and is currently serving in the College. He has continued to teach the subjects of mechanics, strength of materials, aircraft structures and composite materials, and is carrying out research in the field of structural dynamics and aeroelasticity. To date he has published around one hundred and fifty papers in international journals and established.