光电信息科学与工程专业本科培养计划
Undergraduate Program for Specialty In
Optoelectronic Information Science and Engineering
一、培养目标
Ⅰ.Program Objectives
培养德、智、体全面发展,具有系统、扎实的光电理论基础,在信息的获取、传递、处理及应用等方面具有较宽广的专业知识,英语应用能力和工程实践动手能力强,人文素质和创新精神优秀,并在激光科学与工程、光纤通信系统与技术、光电系统与信息处理、光电子集成器件技术等方向具有一定专长的高素质人才。毕业生能在研究院所、高等院校、信息产业部门及其相关领域从事信息科学与技术的研究、系统集成与设计、开发等方面的工作。
Aiming at preparing all-rounded, high-quality talents with international competence, this program will enable students to be solid grounded in basic theory, wide-ranged in specialized
knowledge, capable of practical work and particularly specialized in Laser Science and Engineering, Optical Fiber Communication System and Technology, Optoelectronic System and Information Processing, Optoelectronic Integrated Devices. Students can be fit into jobs in IT department research centers and colleges. They can do research, design and develop the integrated system in Information Science and Technology area.
二、基本规格要求
Ⅱ.Learning Outcomes
毕业生应获得以下几个方面的知识和能力:
1.扎实的数理基础;
2.掌握光学与光电子学、电子与信息科学的基本理论和方法;
3.解决本学科领域内的科研及工程问题的能力;
4.了解本学科发展的前沿动态;
5.较强的英语语言能力;
6.优秀的文献检索、资料查询与综述,以及科技论文和研究报告撰写的能力;
7.较好的人文社科知识和人文素质,以及较强的协调、组织能力;
8.较强的创新精神。
As students of this program, you will gain:
1.Solid grounding in maths and physics;
2.Basic theories and methods of Optics, Optoelectronics, Electronics and Information Science;
3.The competency in solving the problems in specialty of scientific research and engineering;
4.Knowledge of the development of the discipline;
5.Mastery of English;
6.Basic methods of literature survey, reviewing and scientific thesis writing ability;
7.Solid grounding in humanities and arts and ability of managing and organizing;
8.Innovative thinking.
三、培养特
Ⅲ.Program Highlights
注重拓宽学科基础,坚持理工交叉,突出专业特,重视科学实践,适应市场导向,发展学生个性。坚持将学科资源转化为优质教学资源的理念,设置“光电创新实践”及选拔优秀学生进入科研团队参加科研等科学实践等环节。设置四组学科特鲜明、市场需求旺盛的专业方向选修课和多达三十余门的专业任选课,供学生选修。
The main guiding ideology is broadening the subject groundings, aiming at inter-discipline development in Science and Engineering, featuring in specialty competence, stressing on s
cientific practice, meeting the market requirements, and developing the initiatives of the students as well. The specialties transform the disciplinary resources into superior educational resources, and introduce the innovative scientific methods in the optoelectronic practices course, and recommend the excellent students to scientific research teams to do scientific practice. The specialties share four groups of limited electives, which are discipline-featured and the market required. There are more than 30 technical electives in specialty to meet the students’ needs.
四、主干学科
Ⅳ.Main Discipline
光学工程
Optical Engineering
五、学制与学位
Ⅴ.Program Length and Degree
学制:四年
Duration: 4 years
授予学位:工学学士
Degrees Conferred: Bachelor of Engineering
六、学时与学分
Ⅵ.Credits Hours and Units
Minimum Credits of Curricular(Comprising course system and intensified internship practical training):157 credits
其中,专业基础课程、专业核心课程学分不允许用其他课程学分进行学分冲抵和替代。
Major-related basic courses and core courses cannot be covered using credits from other c
ourses in the program
完成学业最低课外学分要求:3学分。
Minimum Extracurricular Credits:3 credits.
1. 课程体系学时与学分
Course Credits Hours and Units
课程类别 | 课程性质 | 学时/学分 | 占课程体系学分比例(%) | |
通识教育基础课程 | 必修 | 1032/59 | 41.1 | |
选修 | 160/10 | 7.0 | ||
学科(专业)基础课程 | 学科大类基础课程 | 必修 | 552/31 | 21.6 |
学科专业基础课程 | 必修 | 472/27 | 18.8 | |
续表 | ||||
课程类别 | 课程性质 | 学时/学分 | 占课程体系学分比例(%) | |
专业 课程 | 专业核心课程 | 必修 | 96/6 | 4.2 |
专业方向课程 | 必修 | 40/2.5 | 1.7 | |
选修 | 128/8 | 5.6 | ||
合计 | 2480/143.5 | 100 | ||
Course Type | Required /Elective | Hrs/Crs | Percentage (%) | |
General Education Core Curriculum | Required | 1032/59 | 41.1 | |
Elective | 160/10 | 7.0 | ||
Discipline-related Courses | General | Required | 552/31 | 21.6 |
Basic Subdisciplinary | Required | 472/27 | 18.8 | |
Major-specific Courses | Common Core Courses | Required | 96/6 | 4.2 |
Specialty-Oriented Courses 光电信息科学与工程就业方向 | Required | 40/2.5 | 1.7 | |
Elective | 128/8 | 5.6 | ||
Total | 2480/143.5 | 100 | ||
2. 集中性实践教学环节周数与学分
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