主页:http://www.thss.tsinghua.edu.cn/publish/soft/index.html
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基本概况
清华大学软件学院是2001年经国家教育部和国家计委联合发文批准成立的首批全国示范性软件学院之一,隶属于清华大学信息科学与技术学院。清华大学作为创办国家示范性软件学院的发起单位之一,清华大学软件学院以推进办学机制改革,探索软件人才培养模式,培养具有国际竞争力、高层次、创新性、应用型软件人才为使命,坚持“质量第一、素质与技术并重、理论与实践结合”的建院宗旨,以“教学立院、管理建院、学科兴院、科技强院”为办学理念,遵循“练中学、练中闯、练中创”的实践教学思想,追求并践行精品教育。几年来学院在人才培养、队伍建设、课程体系建设、教学模式创新、产学研结合等方面积极探索、锐意改革,取得了一定的成绩。“现代服务业创新创业人才培养标准体系次研究与示范”获2012年北京市高等教育教学成果一等奖、清华大学教学成果特等奖,“清华大学软件学院人才培养模式的探索与实践”和“软件创新人才培养的课程体系与实验平台建设”分别获2006年、2008年清华大学教学成果一等奖,“清华大学软件拔尖创新人才培养实验区”入选2008年度教育部人才培养模式创新实验区。截止目前,学院共有2门国家级精品课程,4门校级精品课,2部教材被评为普通高等教育精品教材,7部教材入选“十一五”国家规划教材。
学院以培养软件系统应用、设计、开发、运维和服务的科学家与工程师为目标,努力培养学生具有良好的综合素质、良好的职业道德、扎实的软件理论和软件工程专业基础知识,具有良好的软件设计与实现能力、良好的项目管理能力、良好的交流与组织协调能力、较强的参与国际竞争能力和创新能力,全力探索优秀软件人才的培养模式。先后确定了“案例教学”、“课程大作业”、“专业专题实践”、“强化英语训练”等实践教学策略和“教授备课制”、“论文盲评制”、“博士生开题四段制”等教学管理策略;同时为培养学生的创新创业意识、团队协作能力和综合职业素养,学院还设立软件学院科学研究奖学金项目(SSRT),主办清华大学软件设计大赛,与国内外知名软件企业联合举办软件创新人才高级训练营,鼓励学生参与国内外各类相关领域赛事,每年拿出10万余元支持学生的科学研究与实践项目。不仅如此,学院的科研平台也为学生提供了良好的参与科研活动的环境。
学院设有软件工程一级学科及其软件工程理论、软件工程技术与管理、信息系统工程、软件服务工程四个二级学科。学科涵盖科学与工程两个方面,从软件系统的可信性度量和演化的基本规律出发,研究现代软件系统面临的复杂性、开放性、演化性等挑战性问题,同时立足软件工程应用和产业发展需求,研究提高软件开发效率和质量的方法、技术和工具。注重向下拓展软件工程理论基础研究,向上拓展软件服务应用研究。
学院科学研究工作以国际前沿与国家重大需求为导向,注重安静干净地组成团队做顶天立地、开天辟地的科研,注重科研成果转化为现实生产力,服务社会。软件学院拥有一个国家级工程中心——国家企业信息化应用支撑软件工程技术研究中心和一个教育部重点实验室——信息系统安全实验室(筹)作为其科研工作的支撑平台,同时还组建了四个研究所,分别在软件理论系统、信息组织与管理、软件工程、计算机图形学和计算机辅助设计、信息系统安全等领域从事教学科研工作。学院先后承担了七十余项国家自然科学基金、973计划、863计划、国家“核高基”科技重大专项及国际合作项目、地方与企业等合作项目,研究出十余项拥有自主知识产权的软件产品,获得国家数十项奖励,包括国家科技进步二等奖、国家九五科技攻关重大成果奖、中国软件行业协会优秀软件奖、863目标产品评测第一名等。
学院在教师队伍建设中强调激励与约束并重、量化考核与注重实绩结合,实行分类管理,追求人尽其才,注重团队建设,形成了良性的人才培养与流动机制。目前学院共有教工39名,其中1名中国工程院院士,1名长江特聘教授,1人入选千人计划,2人入选青年千人计划,3名教师获“国家杰出青年基金”,2名教师获教育部“新世纪优秀人才支持计划”,2名北京市高等学校教学名师,2名北京市教育创新标兵,2名北京市师德先进个人,1名北京高校优秀辅导员, 1名国家示范性软件学院十佳教师,多名清华大学良师益友和2名“清韵烛光——我最喜爱的教师”。
学院注重教师队伍的国际化建设,设立了“软件理论”讲席教授组,由2007年图灵奖获得者Joseph Sifakis教授担任首席,其余团组成员10人均由海外知名专家学者组成。另外,学院聘请客座教授1人,兼职教授1人,访问教授5人,其中中国工程院院士1人。
至目前为止学院共向社会输送各类毕业生3206名,受到社会普遍欢迎,就业率一直是100%。学院现有在校学生800人,其中本科生240人,软件工程硕士生(MSE)443人,工学硕士生50人,博士生67人。
作为国家示范性软件学院,清华大学软件学院秉承清华大学“自强不息、厚德载物”的校训,积极推行我国软件人才培养的改革和创新,努力将学院建设成国际一流水平的学院。
●Faculty and Students
As part of the Tsinghua National Laboratory for Information Science and Technology, and the National Engineering Research Center for Enterprise Information Software (NERCEIS), the faculty has a good combination of teachers with international research and teaching background and teachers with strong domestic engineering and teaching experience, covering different aspects of computer software. The school also hires visiting professors from top-tier universities and world class software companies. In 2008, the School organized a Software Theory Adjunct Professors Committee, including Professor Joseph Sifakis (Turing Award winner, 2007) as the Chair as well as a group of well-established professors coming from overseas. So far, around a thousand students have been graduated from various degree programs in the school of software, including Bachelor of Computer Engineering, Master of Software Engineering (MSE), Master of Computer Engineering and Doctor of Philosophy in Computer Engineering program.
● Research
Under the umbrella of the software engineering program, there are four specializations: software theory and system, big data and knowledge engineering, trustworthy networks and systems, and computer graphics and visualization. The discipline focuses on both the science and engineering of software, with emphasis on conducting the fundamental research of software engineering theory and applied research of software service, respectively. Based on some fundamental laws of trustworthy measurement and evolution in software systems, we focus on addressing many challenging and fundamental research issues faced by modern software engineering, such as the software complexity, software openness, and software evolvability. To meet the requirement of software engineering application and industrial development, we also conduct extensive research on the methods, technologies and tools for improving the efficacy and quality of software development. The school of software has a long history of meeting research and industry challenges through quality education and cutting-edge research.
Furthermore, our research has been closely related to the national strategic plan and demands of China by transforming research results to the development of the economy and our society. Relying on the “National Enterprise Information Application Support Software Engineering Technology Research Center” and “Information System Security Key Laboratory of Ministry of Education”, our faculty members have served as PIs of more than one hundred research/industry projects, with supports from a diversified funding agencies including 973, 863, National Natural Science Foundation, Major National Science and Technology Programs, Major International Cooperation Projects. The total fund received by our faculty is more than one hundred million RMB since 2001.
●Software Theory and Systems:
Aiming at increasing the software trustworthiness, the discipline focuses on the whole life cycle of software systems, software-hardware Hybrid system, especially in the following research areas: software system modeling and verification, trustworthy software architectures, and software system measurement. Our interests span from theories to techniques and methodologies. The main research topics include: domain-specific system modeling language; software verification, simulation and testing; modeling and monitoring of software system behaviors; construction of software system relation network; evolution of software architecture; measurement of software systems, etc. We are developing a modeling and verification toolset for trustworthy software systems, called Tsmart, which will be applied to embedded software systems, guiding each step in its whole life cycle. With all these theories, tools and applications, we will then build the trustworthy software engineering methodology.
●Trustworthy Network and Systems
This discipline focuses on computer networks and distributed systems, especially wireless networking, sensor network and IoT, Internet and P2P computing, mobile and pervasive computing, RFID systems and applications. The research topics range from the design of software and underlying hardware, Localization, Crowdsourcing and Participatory Sensing, MAC protocol, routing protocol, OS, security, to the implementation of Large-scale systems. These research topics form a unique platform for conducting various challenging research projects with extensive innovations.
●Big Data and Knowledge Engineering:
This discipline mainly focuses on developing a new generation platform for managing big data, including the management of big data in cloud, big data system architecture design, management and mining of non-relational or unstructured data, modeling and behavior analysis over processes, content protection in mobile computation, and related topics in system performance analysis. We also emphasize the collaboration with the industry, by developing novel Web services and enterprise applications.
●Computer Graphics and Visualization:
The discipline is supported by a 3D digital kernel software system with full intellectual property rights. It builds its strengths in the core theory and technique of modeling, rendering and visualization to improve or extend the kernel. The research features the combination of several key application areas, such as machinery, automobile, aerospace, construction, medicine, disaster prevention and reduction, etc. The ultimate goal of our research under this discipline is to enhance the 3D digital innovation platform for the Industry-University-Research cooperation.