电子科学与技术专业培养方案.doc
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1、电子科学与技术专业培养方案(080606)(Electronic Science and Technology Training Program 080606)一、专业简介(、Major Introduction)电子科学与技术是现代电子和信息技术的核心与基础,其主要专业方向为光电子技术,它是由光学、激光、电子学和信息技术互相渗透而形成的一门高新技术学科,它以近代物理为基础,涉及激光技术、光波导技术、光检测技术、光计算和信息处理技术、光存储技术、光显示技术、激光加工与激光生物技术。光电子产业是全球战略产业,高层次光电子人才是现代社会信息技术发展的急需人才。Electronic Science
2、and Technology is the core and foundation of the modern Electronics and Information technology, and the main specialty direction is Optoelectronics, which has become a high-tech discipline formed from the merger of Optics, Laser, Electronics and Information technology. Electronic Science and Technol
3、ogy is based on the modern physics, concerning Laser Technology, Optical Waveguide Technology, Optical Detection, Optical Computing and Information Processing Technique, Optical Storage Technology, Optical Display Technology, Laser Processing and Laser Biotechnology. Optoelectronics industry is the
4、globally strategic industry, and high-level optoelectronics talents are much needed for the development of information technology in the modern society. 二、培养目标(、Academic Objectives)培养在光电子技术领域内具有宽厚的理论基础、扎实的专业知识和较强的实验技能,能从事光电子技术领域的研究、设计、制造及新产品、新技术、新工艺的研究与开发等工作的应用型和研究型专门人才。This program aims to cultivat
5、e the students, with comprehensive knowledge of mathematics and physics, solid specialized knowledge and solid experimental skills in the field of Optoelectronics technology. Eventually the students will be trained to be specialists with the capabilities of engineering in research, design, manufactu
6、re, as well as the research and development of new products, novel technology and advanced craft. 三、培养要求(、Academic Requirement)通过四年完整知识结构体系的培养,本专业毕业生应具有较高的思想道德和文化素质修养、敬业精神和社会责任感,具有健康的体魄和良好的心理素质,具备光电子技术领域的自然科学基础、宽广的专业知识和较强的实验技能,具有良好的外语能力,具有创新精神和工程实践能力以及跟踪掌握该领域新理论、新知识、新技术的能力。The graduates from this pr
7、ogram will not only possess high ideological morality and cultural quality accomplishment, professional dedication spirit and social responsibility sense, have healthy physique and good psychological quality, but have a solid foundation of natural science, broad professional knowledge and proficient
8、 experimental skills and good foreign language capabilities, innovation spirit, as well as the ability of engineering practice and of mastering new theory, new knowledge and novel technology in the field of Optoelectronics technology.四、学制与学位(、Length of Schooling and Degree)学制 四年。按计划要求完成学业者授予工学学士学位。L
9、ength of Schooling: 4 yearsStudents who complete all the required courses will be granted the Bachelors degree of Engineering.五、学时与学分(、Hours/Credits)总学分:154 (Total Credits:154)课程教学学时/学分: 1888/118 占总学分的比例:78.6(Curriculum Class Hours/Credits:1888/118 Percentage in Total Credits:78.6 %)六、专业主干课程(、Main C
10、ourses)本专业主修课程:物理光学、应用光学、信息光学、模拟与数字电子技术、光电检测技术、光电显示原理与技术、光通信技术、微处理器原理与应用、计算机辅助设计、计算机软件技术基础、计算机网络技术、信号与系统、激光原理与技术、电动力学、量子力学、固体物理等基础课和专业课。Main courses of this specialty: Physical Optics, Applied Optics, Information Optics, Analog and Digital Electronic Technology, Photoelectric Testing Technology, The
11、 Principle and Technology of Photoelectric Display, Optical Communication Technology, Principles and Applications of Microprocessors, Compute Assisted Design, Foundation of Computer Software Technology, Computer Network Technology, Signal and System, The Principle and Technology of Laser, Electrodyn
12、amics, Quantum Mechanics, Solid Physics, etc. 七、主要专业实验和实习安排(、Main Laboratory and Practice)(1)单独设课的实验课程:基础光学实验 (1.5学分,48学时)、现代光学实验 (1.5学分,48学时)、光电技术实验 (2学分,64学时)、计算机技术基础(C语言)实验(1学分,32学时)、数字电子技术实验(1学分,32学时)、模拟电子技术实验(1学分,32学时)、工程制图(1学分,32学时)、计算机网络(实验) (1学分,32学时)、微处理器原理与应用实验(1.5学分,48学时)。共计有9门课,11.5学分,36
13、8学时。(1)Independent experimental curriculums: Fundamental Experiments in Optics (1.5 credits, 48 hours), Modern Experiments in Optics (1.5 credits, 48 hours), Experiments in Optoelectronic Technology (2 Credits, 64 Hours), Foundation of Computer Technologies (C Language) (1 Credit, 32 Hours), Experim
14、ents for Digital Electronic Technologies(1 Credit, 32 Hours), Experiments for Analog Electronic Technologies (1 Credits, 32 Hours), Engineering Drawing(1 Credit, 32 Hours), Computer Networking (Experiments) (1 Credit, 32 Hours), Experiments for Principles and Applications of Microprocessors (1.5 Cre
15、dits, 48 Hours). Total: 9 Courses, 11.5 Credits, 368 class Hours.(2)课程设计:光学课程设计(2学分,64学时)、光电课程设计(2学分,64学时)Designing Courses: Optical Designing (2 Credits, 64 Hours), Optoelectronics Designing (2 Credits, 64 Hours).(3)实习实训:金工实习(1学分,32学时)、工程训练(1学分,32学时)、专业实习(1学分,1周)、毕业论文(设计) (12学分,12周。)Practice and Tr
16、aining: Metalworking Practice (1 Credit, 32 Hours), Engineering training (1 Credit, 32 Hours), specialty practice (1 Credit, 1 Week), Senior Thesis (12 Credits, 12 Weeks).(4)讲座:专业前沿讲座(1学分,32学时)。Seminars: Seminars on frontiers of specialty (1 Credit, 32 Hours)八、专业优势及特色(、Major Predominance and charact
17、eristics)本专业主要方向为光电子科学与技术,是由光学、电子学和计算机技术与信息技术互相渗透而形成的一门高新技术学科。本专业经过几十年的发展壮大,形成了特色鲜明的激光科学与技术,光全息和光电存储技术,光电检测技术等专业方向,依托光学工程一级学科和“激光技术及应用”山东省重点实验室,培养出一批批在光电子技术领域内具有良好的理论基础、扎实的专业知识和熟练的实验技能,能在该领域内从事研究、教学、设计、开发、应用和管理工作的高级科学研究、工程技术及管理人才。毕业生除直接参加工作外,还可继续攻读硕士、博士学位。The main direction of the Major is Optoelect
18、ronic Science and Technology, which is a high-tech discipline formed from the merger of Optics, Electronics, Computer Technology and Information Technology. After several decades of development and growth, several distinctive specialty directions have been formed, such as Laser Science and Technolog
19、y, Optical Holography, Optical Storage Technology and Optoelectronic Detection Technology, etc. Based on the platforms of first level discipline of Optical Engineering and Key lab of Laser Technology and Application of Shandong Province, we have cultivated a batch of talents with excellent theory ba
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