本科教育
 

机械电子工程专业培养方案

作者:         发布日期:2020-07-16     浏览次数:

     

机械电子工程专业培养方案

Mechanical and Electronic Engineering

**码(Major Code):080204

专业名称(Major Name):机械电子工程(Mechanical and Electronic Engineering)

一、培养目标体系

I.Objectives

1.人才培养目标

1.Objectives

(1)基本培养目标

(1)General Objectives

培养的学生身心健康、知识结构合理,有健全的人格、高尚的人文情怀和社会责任感,有一定的批判思维与创新能力、科学研究能力、语言文字表达能力、终身学习能力和组织管理能力,具有国际视野和团队合作精神。

Students are nurtured to be both physically and psychologically healthy. They are expected to have a wholesome personality, a value for humanistic pursuits, and a sense of social responsibility, as well as the ability to think critically and innovatively, good writing and communication skills, an orientation towards life-long learning, and a proficiency in organization and management. Moreover, they should have an international mindset and be able to work well in a team context.

(2)专业培养目标

(2)Major-specific Objectives

本专业培养具有坚实的自然科学基础理论知识,具备机械、电子、控制理论、计算机技术与应用等方面的工程技术及相关专业知识,能在机电一体化、装备自动化领域从事机电产品和系统的设计制造、研究开发、工程应用、运行管理等方面工作的高素质复合型工程技术人才。

The major cultivates the high quality and compound engineering talents with solid basic theories in natural sciences, with the specialized knowledge in machine, electron, control theory, computer technology and application, and other related specialized knowledge. The talents can engage in designing and manufacturing mechanical and electronic products and system, research and development, engineering application and operation management in the fields of mechatronics and equipment automation.

2.毕业生应掌握的基本知识

2.Graduates are required to acquire

(1)毕业生应掌握的基本知识

(1)Basic knowledge

A1.历史、哲学、文学、艺术等领域的基本知识(培养学生具有正确的历史观、世界观、人生观、价值观、审美观)

A1.Of the arts and humanities, which includes history, philosophy, literature and art (to train students to understand different perspectives of history, the world, life, values and aesthetics)

A2.社会科学学科研究方法的基本知识(让学生掌握社会科学的基本知识,了解基本研究方法,具有人文情怀和社会责任感)

A2.Of social science disciplines and their research methods (to equip students with basic research skills, a value for culture and society, and an understanding of social responsibilities)

A3.数理与逻辑分析以及物理学的基础知识(让学生掌握数理与逻辑分析、大学物理的基本知识)

A3.Of mathematics, logic and physics (to train students in basic logical analysis, critical thinking, and problem solving)

A4.现代信息技术的基本知识(让学生掌握现代网络技术、通信技术和信息处理技术等的基本知识)

A4.Of modern information technology (IT) (to enable students to use modern technologies regarding the internet, communication, and information processing)

A5.生态环境、生命科学、经济管理等方面的基本知识(让学生掌握自然环境与社会发展、经济管理与社会科学、科技发展与文明传承、文明对话与国际视野等方面的基本知识)

A5.Of ecological environment, life sciences, and economic management (to provide students with a basic understanding of the natural world, economics, civilization, sociology, etc.)

(2)本科生应掌握的专业知识

(2)Major-specific knowledge required for graduates includes

A6.机械、电子和控制技术方面的基本理论与基础知识

A6.Basic theories and knowledge of mechanical, electronic and control technology

A7.机电产品与装备的设计、制造方面所必需的专业知识

A7.Specialized knowledge in designing and manufacturing mechatronic products and equipments

A8.机电产品的控制、自动化与现代检测方面所必要的专业知识

A8.Specialized knowledge of control, automation and modern detection of mechatronic products

A9.机械电子工程学科前沿、发展趋势;

A9.Understand academic frontiers and development tendency of mechanical and electronic engineering;

3.毕业生应具备的基本能力

3.Graduates are required to have

(1)毕业生应具备的基本能力

(1)General abilities

B1.清晰思考和用语言文字准确表达的能力

B1.To think clearly and express oneself well

B2.发现、分析和解决问题的能力

B2.To discover, analyze and solve problems

B3.批判性思考、创造性工作以及终身学习的能力

B3.To think critically, innovate and pursue lifelong learning

B4.组织、管理与领导能力,与人合作共事的能力

B4.To organize, manage, direct and cooperate

B5.对文学艺术作品的基本鉴赏能力

B5.To appreciate literary and artistic works

(2)毕业生应具备的专业能力

(2)Major-specific abilities required for graduates include

B6.具备机电一体化系统或产品的分析和设计的能力

B6.Abilities in analyzing and designing mechatronic systems or products

B7.具备机、电、液、气等系统集成的能力及系统性能检测的能力

B7.Abilities in integrating mechanical, electronic, hydraulic and pneumatic systems

B8.具备机电产品或系统的建模、仿真的能力

B8.Abilities in modeling and simulating mechanical and electronic products and systems

B9.文献检索、科技写作的能力

B9.Capabilities in indexing document and writing scientific research paper

4.毕业生应养成的基本素质

4.Qualities graduates should have

(1)毕业生的基本素质

(1)Basic qualities

C1.志存高远、意志坚强(以传承文明、探求真理、振兴中华、造福人类为己任,矢志不渝)

C1.To be ambitious and strong-willed (to uphold cultural traditions, seek truth, shoulder unwaveringly the responsibility to rejuvenate the Chinese nation and contribute to humanity)

C2.刻苦务实、精勤进取(脚踏实地,不慕虚名;勤奋努力,追求卓越)

C2.To be assiduous, pragmatic, industrious and progressive (to be realistic, free of fame lust , hard-working and striving for excellence)

C3.身心和谐、视野开阔(具有良好的身体和心理素质;具有对多元文化的包容心态和宽阔的国际化视野)

C3.To have harmony between body and mind, broad perspectives and open-mindedness (to be strong physically and mentally, have a multicultural and tolerant attitude and a broad international perspective)

C4.思维敏捷、乐于创新(勤于思考,善于钻研,对于推陈出新怀有浓厚的兴趣,富有探索精神并渴望解决问题)

C4.To be quick-thinking and willing to innovate (to excel in critical thinking and research, strive for constant progress and innovation, have a spirit of exploration and desire to find solutions to world problems )

(2)毕业生的专业素质

(2)Major-specific qualities

C5.良好的职业道德,较强的社会责任,较好的人文素养感

C5.Excellent professional ethics, strong sense of social responsibility, good humanity accomplishment

C6.良好的质量、安全、效益、环境、职业健康和服务意识

C6.Strong sense of quality, safety, benefits, environment, occupational health and service

C7.良好的组织管理能力、较强的交流沟通、环境适应和团队协作能力

C7.Good ability of organization and management, communication, acclimation and teamwork

C8.严谨的逻辑思维素质和系统性研究问题的专业素质

C8.Quality of rigorous logical thinking and specialized quality of doing research systematically

二、基本要求

Ⅱ.Basic Requirements

1.掌握较扎实的数学、力学等学科基础理论知识;

1.Have good basic theoretical knowledge of mathematics and mechanics;

2.系统掌握本专业领域的机械、电子、控制、计算机等专业基础知识;

2.Have sound specialized knowledge of machine, electronic technology, control technology and computer technology which are in the field of the major;

3.具备必要的制图、设计、计算、测试和基本工艺操作等应用能力;

3.Have necessary application abilities in drawing, designing, computing, testing and operating;

4.了解机械电子工程学科前沿及发展趋势;

4.Understand academic frontiers and development tendency of mechanical and electronic engineering;

5.掌握文献检索、资料查询及运用现代信息技术获取信息的基本方法;

5.Master basic methods of document indexing, reference enquiring and acquiring knowledge by using modern information technology;

6.具有综合运用所学的理论、知识和技术分析和设计机电一体化系统、部件和过程的能力;

6.Be capable of analyzing and designing mechatronic systems, assemblies and process by using studied theories, knowledge and technologies;

7.具有较强的创新意识和进行机电一体化产品与系统开发和设计、技术改造与创新的初步能力;

7.Have stronger innovation sense and preliminary abilities in developing, technological transforming and innovating mechatronic products and systems;

8.具有较好的人文科学素养、良好的工程职业道德和较强的社会责任感;

8.Have good humanity qualities and professional moral and strong social responsibility;

9.熟悉与本专业相关的法律法规,能正确认识本专业对客观世界和社会的影响;

9.Be familiar with rules and regulations related to the major, and can correctly understand the influence of the major to the world and society.

10.具有一定的组织管理能力、较强的表达能力、合作能力和人际交往能力。

10.Have appropriate organization and management abilities and strong abilities in expressing, cooperating and human communicating.

三、主干学科及相关学科

Ⅳ.Main and Relevant Subjects

主干学科:机械工程,控制科学与工程

Main subjects: Mechanical engineering, Control science and engineering

相关学科:电气工程

Relevant subject: Electrical Engineering

四、核心课程

Ⅴ.Core Courses

工程图学、材料力学、理论力学、电工技术、电子技术、机械原理、机械设计、自动控制原理、机械工程测试技术、机械制造基础、单片机原理与接口技术、机电一体化系统设计、电气控制与PLC

Mechanical Drawing, Mechanics of Materials, Theoretical Mechanics, Electrical Technology, Electronic Technology, Theory of Machines and Mechanisms, Mechanical Design, Automatic Control Theory, Mechanical Engineering Test Technology, Fundamentals of Mechanical Manufacturing, Principle and Interface Technology of Single-Chip Microcomputer, Mechatronic System Design, Electrical Control and Programmable Logic Controller.

五、实践教学环节

Ⅵ.Hands-on Experience

实践教学包括:军事训练、劳动、思想政治理论课实践、工程训练(乙)、电子工艺实习、电子技术课程设计、机械原理课程设计、机械设计课程设计、控制技术课程设计、机电一体化综合训练、机电系统设计、生产实习、毕业论文(设计)等。

Practice trainings includes: Military training, Physical Work, Practice of Ideological and Political Theory, Engineering Training (B), Electronic Technical Practice, Course Design on Electronic Engineering, Course Design on Mechanisms and Machine Theory, Course Design on Mechanical Design, Course Design on Control Technology, Integrated Training of Mechatronic Systems, Design on Mechatronic System, Engineering Internship, Graduate Thesis (Design).


六、学分分配

Ⅶ.Credits Allocation

课程Course

学  分

Credit

课程教学   Courses

集中实践教学环节

Hands-on Experience

合计

Total

必修课 Compulsory

选修课 Optional

通识类

General

学科类

Specialized

通识类

General

学科类

Specialized

学  分

Credits

59.5

36.5

>6

46

34

>182

额定学分

Minimum Credits

59.5

36.5

6

24

34

160

学分比例(%)

Percentage

37.2

22.8

3.8

15.0

21.3

100.0

注:实践教学学分包括集中实践教学环节34学分和课内实验环节14.8学分,总计48.8学分,占总学分比例为30.5%。

七、学制

Ⅷ.Duration

四年(Four years)

八、学位

Ⅸ.Degree

工学学士(Bachelor of Engineer)

九、毕业条件

Ⅹ.Graduation Requirements

毕业额定学分:160学分(课内)+8学分(课外)。

Minimum credits for graduation: 160 credits (curricular) +8 credits (extracurricular).

课内:必修课96学分,选修课30学分,实践教学环节34学分。

Curricular: xx credits for compulsory courses, xx for elective courses, and xx for hands-on experience.

课外:素质与能力拓展8学分。

Extracurricular:8credits for innovation and skill development.

取得额定学分,方可准予毕业。

Minimum credits are required for graduation.


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