机械电子工程专业培养方案（2017版）

Professional Training Program of Mechatronic Engineering

专业编号（Major Code）：080204

学制（Years of Study）：四年（Four years）

一、培养目标

I. Training objectives

本专业面向区域经济与国防工业发展需求，培养具备高度社会责任感，能够在现代装备制造领域从事机电产品的研究开发、设计制造、工程应用、运行管理等工作，具有良好人文素养、工程职业道德和较强创新能力的高级工程技术人才。毕业后经过5年发展，达到以下目标：

（1）具有良好的人文科学素养，坚守职业道德规范，能够将实现个人价值与推动国家发展紧密结合，有意愿并有能力服务社会。

（2）能够有效发掘工程问题，并综合运用数学与自然科学知识、工程知识及现代科学工具系统性解决复杂机电工程问题。

（3）能够创新性地进行自动化与智能化装备的规划与开发，在充分考虑环境、可持续性发展因素和社会综合影响下，承担相应的设计与制造、检测与控制、服务与管理等工作。

（4）能够不断适应机电产品自动化、智能化的国内外发展趋势，并在跨文化背景下进行有效的技术交流与团队协作。

（5）能够有效地持续学习和自我完善，具备工程师素质，并在相关领域的工作中逐步形成职业竞争优势。

This major is oriented to the development demand of regional economy and national defense industry, aims to cultivate talents who have a high degree of social responsibility, can engage in the research and development, design and manufacturing, engineering application, operation management of electromechanical products in the field of modern equipment manufacturing, and has good humanistic qualities, engineering professional ethics and Senior engineering and technical personnel with strong innovation ability. After 5 years of development after graduation, the following goals have been achieved:

（1） Have good humanities and science literacy, adhere to professional ethics, be able to closely integrate the realization of personal values with the promotion of national development, and have the willingness and ability to serve the society.

（2）could effectively discover engineering problems, and comprehensively use mathematics and natural science knowledge, engineering knowledge and modern scientific tools to systematically solve complex mechanical and electrical engineering problems.

（3）Be able to creatively plan and develop for automation and intelligent equipment, and undertake corresponding design and manufacturing, testing and control, service and management, taking full consideration of the environment, sustainable development factors, and comprehensive social influence.

（4）can continuously adapt to the domestic and foreign development trends of automation and intelligence of electromechanical products, and carry out effective technical exchanges and teamwork in a cross-cultural context.

（5）Be able to continue learning and self-improvement effectively, possess the quality of an engineer, and gradually form a professional competitive advantage in the work of related fields.

二、毕业要求

II. Graduation requirements

（1）工程知识：具备解决复杂机电工程问题所需的数学、自然科学、工程基础和专业知识，并将其应用于机电系统的建模与求解、特性分析、测试与控制以及机电产品的设计与生产中。

（2）问题分析：针对机电系统中的机械、检测、控制等环节中的复杂工程问题，能够应用数学、自然科学和工程科学的基本原理进行有效识别、表达，通过文献研究分析以获得有效结论。

（3）设计/开发解决方案：能够应用机电产品全周期、全流程设计基本方法，设计针对复杂机电工程问题的解决方案；能够设计满足特定需求的机械系统、测试系统、控制系统等，并能够在设计环节中体现创新意识，考虑社会、健康、安全、法律、文化以及环境等因素。

（4）研究：能够基于科学原理并采用科学方法对机电系统中的结构与动力、运动与感知等复杂工程问题进行研究，包括开展有针对性的调研、设计实验方案、搭建实验系统、分析与解释数据、并通过信息综合得到合理有效的结论。

（5）使用现代工具：能够针对复杂机电工程问题，开发、选择与使用恰当的计算机辅助设计、分析、仿真等信息技术工具和现代工程工具以及各类技术、资源，包括对复杂机电工程问题的预测与模拟，并能够理解其局限性。

（6）工程与社会：能够基于机电工程相关背景知识，分析、评价专业工程实践和复杂机电工程问题解决方案对社会、健康、安全、法律以及文化的影响，并理解应承担的责任。

（7）环境和可持续发展：能够站在环境保护和可持续发展的角度理解专业工程实践的可持续性，评价机电产品全生命周期对人类和环境产生的影响。

（8）职业规范：具有正确价值观、社会责任感和人文社会科学素养，能够在机电工程实践中理解并遵守工程职业道德和规范，履行责任。

（9）个人和团队：能够在机械、电子、控制及计算机等交叉学科背景下的团队中承担个体、团队成员以及负责人的角色。

（10）沟通：能够就复杂机电工程问题与业界同行及社会公众进行有效沟通和交流，包括撰写报告和设计文稿、陈述发言、清晰表达或回应指令。并具备一定的国际视野，能够在跨文化背景下进行沟通和交流。

（11）项目管理：理解并掌握机电工程实践中工程管理原理与经济决策方法，并应用于机电系统的开发、设计、生产及改进中。

（12）终身学习：具有自主学习和终身学习的意识，有不断学习和适应发展的能力。

（1）Engineering knowledge: possess ability of the mathematics, natural science, engineering foundation and professional knowledge required to solve complex electromechanical engineering problems, and apply it to the modeling and solving of electromechanical systems, characteristic analysis, testing and control, and the design and production of electromechanical products

（2）Problem analysis: For complex engineering problems in the mechanical, detection, and control links of the electromechanical system, the basic principles of mathematics, natural science and engineering science can be effectively identified and expressed, and effective conclusions can be obtained through literature research and analysis.

（3）Design/development solutions projecs: be able to apply the basic methods of full-cycle and full-process design of electromechanical products to design solutions to complex electromechanical engineering problems; be able to design mechanical systems, test systems, control systems, etc. that meet specific needs, and be able to design Reflecting the sense of innovation, considering social, health, safety, legal, cultural and environmental factors.

（4）Research: Able to study complex engineering issues such as structure and dynamics, motion and perception in electromechanical systems based on scientific principles and scientific methods, including conducting targeted investigations, designing experimental schemes, building experimental systems, analyzing and interpreting data, And obtain reasonable and effective conclusions through information synthesis.

（5）Use modern tools: able to develop, select and use appropriate computer-aided design, analysis, simulation and other information technology tools and modern engineering tools as well as various technologies and resources for complex electromechanical engineering problems, including the prediction and simulation of complex electromechanical engineering problems , And can understand its limitations.

（6）Engineering and society: Based on the background knowledge of mechanical and electrical engineering, analyze and evaluate the impact of professional engineering practices and complex mechanical and electrical engineering problem solutions on society, health, safety, law and culture, and understand the responsibilities that should be undertaken.

（7）Environment and sustainable development: able to understand the sustainability of professional engineering practices from the perspective of environmental protection and sustainable development, and evaluate the impact of electromechanical products on humans and the environment during the whole life cycle.

（8）Professional norms: Have correct values, sense of social responsibility and humanities and social science literacy, be able to understand and abide by engineering professional ethics and norms in the practice of electromechanical engineering, and perform responsibilities.

（9）Individuals and teams: Able to assume the roles of individuals, team members, and leaders in a team with interdisciplinary backgrounds in mechanics, electronics, control, and computers.

（10）Communication: Ability to effectively communicate and communicate with industry colleagues and the public on complex mechanical and electrical engineering issues, including writing reports and design manuscripts, making statements, expressing clearly or responding to instructions. And have a certain international perspective, able to communicate and exchange in a cross-cultural context.

（11）Project management: understand and master the engineering management principles and economic decision-making methods in the practice of electromechanical engineering, and apply them to the development, design, production and improvement of electromechanical systems.

（12）Lifelong learning: have the consciousness of independent learning and lifelong learning, and have the ability to continuously learn and adapt to development.

三、主干学科及相关学科

III. Main subjects and related subjects

主干学科：机械工程、控制科学与工程

Main subjects（s）:Mechanical Engineering 、Control Science and Engineering

相关学科：电子科学与技术、计算机科学与技术

Related subjects （s）:Electronic Science and Technology、Computer Science and Technology

四、专业核心课程

IV. Core Course

高等数学、大学物理、计算方法、工程力学、电工技术、电子技术基础、流体力学与流体传动、控制工程基础、工程测试技术、机械原理、机械设计、机械制造基础、机械电子工程专业导论、机电系统设计、伺服驱动与电器控制、微机控制技术

Advanced Mathematic, College Physics, Computational Method, Engineering Mechanics, Electrical Technology , Fundamentals of Electronic Technology , Fluid Mechanics and Fluid Transmission, Fundamentals of Control Engineering, Engineering Test Technology, Mechanical Principle, Mechanical Design, Fundamentals of Mechanical Manufacturing, Introduction to Mechatronic Engineering,  Electromechanical System Design, Servo Drive and Electrical Control, Microcomputer Control Technology.

五、实践教学环节

V. Practical teaching

大学物理实验、电工技术实验、电子技术实验、自动化基础实验、专业综合实验、机械制图课程设计、机械原理课程设计、机械设计课程设计、机电系统设计课程设计、金工实习、生产实习、智能制造创新创业实训、毕业设计（论文）

College Physics Experiment, Electrical Technology Experiment, Fundamentals of Electronic Technology Experiment, Automation Basis Experiment, Specialized Project  Experiment, Course Design of Mechanical Drawing, Course Design of Mechanical Principle, Course Design of Mechanical Design, Course Design of Electromechanical System Design, Metalworking Practice, Production Practice, Innovation and Entrepreneurship Training, Graduation Design（thesis）.

六、学分分配

VI. Credit Allocation

七、学位

VII. Degree

工学学士

Bachelor’s Degree in Engineering

八、毕业条件

VIII. Graduation Requirements

毕业总学分：四年制本科毕业总学分为178。

必修163学分，选修14.5学分。实践教学50.5学分。

第二课堂：创新与技能7学分。

取得总学分及第二课堂学分，方可准予毕业。

A bachelor degree requires 178,including:

163 credits of required courses, 14.5credits of elective courses, 50.5 credits of comprehensive practice..

extracurricular activities.：7 credits of innovation and skills.

The student who achieves the total credits and extracurricular activities will be awarded an undergraduate diploma.

 

课程类别 Course Category	课程编码 Course Code	课程名称 Course Name		学  分 Credit	学  时 Hours	学时分配 Hours Distribution		考核方式 Assessment	课程性质 Nature	开设学期 Semester
						讲  授Lecture	实  验 lab/practical
通 识 教 育 General Education	通识教育·必修课程·数学与自然科学 General Education·Required Courses·math&nature
	100051	高等数学I Advanced Mathematics I		5.5	88	88	0	T	H	1
	100052	高等数学II Advanced Mathematics II		5.5	88	88	0	T	H	2
	031652	工程化学基础 Fundamentals of Engineering Chemistry		2.5	40	40	0	T		1
	100073	大学物理I College Physics I		3	48	48	0	T	H	2
	100074	大学物理II College Physics II		3	48	48	0	T	H	3
	100101	线性代数 Linear Algebra		2.5	40	40	0	T		2
	103115	计算方法 Computational Method		2	32	32	0	T	H	3
	100065	概率论与数理统计 Probability Theory and Mathematical Statistics		3	48	48	0			3
	学分小计 Subtotal			27	432	432	0
	通识教育·必修课程·人文通识类课程 General Education·Required Courses·humanities & general education
	084416	大学英语Ⅰ College   EnglishⅠ		4	64	64	0	T		1
	084417	大学英语Ⅱ College   EnglishⅡ		4	64	64	0	T		2
	084418	大学英语Ⅲ College   EnglishⅢ		4	64	64	0	T		3
	188888	形势与政策 Current   Foreign & Domestic Issues and Policy		0	32	32	0			1-8
	118140	体育Ⅰ Physical   EducationⅠ		1	32	32	0			1
	118141	体育Ⅱ Physical   EducationⅡ		1	32	32	0			2
	118142	体育Ⅲ Physical   EducationⅢ		1	32	32	0			3
	118208	体育Ⅳ Physical   EducationⅣ		1	32	32	0			4
	218503	军事理论 Military   Theory		1	24	24	0			1
	184982	思想道德修养与法律基础 Moral   Education and Fundamentals of Law		3	48	32	16			1
	559011	大学生职业发展与教育Ⅰ Career   Planning and Development Ⅰ		1	20	20	0			1
	559016	大学生职业发展与教育Ⅱ Career   Planning and Development Ⅱ		0	8	8	0			7
	184984	中国近现代史纲要 Outline   of Modern & Contemporary Chinese History		2	32	32	0	T		2
	056600	创新创业学 Innovation   and Entrepreneurship		0.5	32	32	0			3
	184983	马克思主义基本原理 Basic   Principles of Marxism		3	48	32	16	T		4
	184985	毛泽东思想和中国特色社会主义理论体系概论 Introduction   to Mao Zedong Thought and the Theoretical System of Socialism with Chinese   Characteristics		6	96	64	32	T	H	6
	056655	企业（军工）管理 Enterprise（Military）Management		1	32	16	16		H	6
	学分小计 Subtotal			33.5	692	612	80
	通识教育·选修课程  General Education ·Elective Courses
		文化传承类 Cultural   Inheritance			要求每位学生至少取得10学分，其中国际视野版块英语选修课至少选修2学分。   A minimum of 10 credits must be   achieved,  at least 2 credits for English elective courses in the   International Vision
		国际视野类 International   Vision
		科技进步类 Technological   Advancements
		艺术鉴赏类 Appreciation   of Art
		健康生活类 Healthy   Living
		经济管理类 Economics   and Management
		创新创业类 Innovation   and Entrepreneurship
	选修学分小计 Subtotal			10
	通识教育学分合计 Total			70.5	1124	1044	80
专 业 教 育 Professional   Education	工程基础类·必修课程 Platform Course·Required Courses
	021481	工程图学基础 Fundamentals of  Engineering Graphics		3	48	48	0	T		1
	042429	电工技术                                             Electrical Technology		3	48	48	0	T	H	3
	042003	电子技术基础Ⅰ                                    Fundamentals of Electronic Technology Ⅰ		3.5	56	56	0	T	H	4
	042004	电子技术基础Ⅱ                                    Fundamentals of Electronic Technology Ⅱ		3.5	56	56	0	T	H	5
	021479	热工基础 Fundamentals of Thermal Engineering		2	32	28	4			4
	073858	工程力学    A                                                                            Engineering Mechanics		4	64	58	6	T	H	4
	021021	流体力学与流体传动 Fluid Mechanics and Fluid Transmission		3.5	56	56	0	T	H	5
	031624	工程材料学 Engineering Materials		2	32	32	0			5
	小计 Subtotal			24.5	392	382	10
	专业基础类·必修课程 Basic Course·Required Courses
	063424	大学计算机基础 Fundamentals of Computer Science		2	32	20	12	T		1
	063254	计算机程序设计基础 Fundamentals   of Computer Programming		4	64	40	24	T		2
	029704	机械电子工程专业导论（双语）                       Introduction to Mechatronic Engineering		1	16	16	0		H	3
	021130	机械制图 Mechanical Drawing		3	48	40	8		H	4
	021294	机械原理 Theory   of Machines and Mechanisms		3	48	48	0	T	H	4
	021482	机械制造基础 Fundamentals   of Mechanical Manufacturing		2	32	32	0	T	H	4
	021483	互换性与测量技术 Interchangeability   and Measurement Technology		2	32	32	0			5
	021116	控制工程基础 Fundamentals   of Control Engineering		2.5	40	40	0	T	H	5
	29732	机械设计 Mechanical   Design		3	48	48	0	T	H	5
	021248	工程测试技术 Engineering   Test Technology		2.5	40	40	0	T	H	6
	小计 Subtotal			25	400	356	44
	专业类·必修课程  Specialized Course·Required Courses
	029209	学科前沿讲座                                          Lectures on Discipline Frontier		1	16	16	0			5
	021070	单片机系统应用                          Single Chip Microcmputer’s Application		2.5	40	24	16	T		5
	021014	机电系统设计 Electromechanical System Design		3	48	32	16	T	H	6
	029705	微机控制技术                                                                    Microcomputer Control Technology		3.5	56	40	16	T	H	6
	022323	数控技术                                Digital Control Technology		2	32	16	16			7
	021456	伺服驱动与电器控制 Servo Drive and Electrical Control		2	32	24	8	T	H	7
	029709	工业机器人导论                       Introduction to Industrial Robots		1	16	16	0			7
	021218	测控系统设计 Design of Measurement and Control   System		1	16	16	0			7
	小计 Subtotal			16	256	184	72
	专业类·选修课程 Course for Discipline or Major  ·Elective  Courses
	029701	工程技术经济 Engineering   Economy	工业管理 三选一 ≥1	1	16	16	0			6
	021499	质量管理 Quality   Control		1	16	16	0			7
	021498	生产计划与控制 Production   Planning and Control		1	16	16	0			7
	021490	Solidworks三维建模技术 Solidworks   3D modeling technology	现代工具 三选一 ≥1	1	16	16	0			5
	021496	Altium电子设计自动化               Altium Electrical Design Automation		1	16	16	0			6
	021495	Proteus电子设计方法 Protus   Electronic Design Method		1	16	16	0			6
	021491	ANSYS有限元分析 ANSYS   Finite Element Analysis	仿真分析类 ≥1	1	16	16	0			5
	021489	Matlab仿真与优化 Matlab   Simulation and Optimization		1	16	16	0			5
	029711	机电系统建模与仿真                         Modeling and Simulation of Mechatronic System		1.5	24	24	0			7
	029710	机电产品规划与创新        Electromechanical Products Design and Nnovation	专业综合类 ≥1.5	1.5	24	24	0			6
	029708	智能制造与控制 Intelligent Manufacturing and Control		1.5	24	24	0			7
	021216	计算机辅助测量技术              Computer-aided Measurement Technology		1.5	24	24	0			7
	小计 Subtotal			14	224	224	0
	专业教育选修学分要求≥4.5 Elective   Credit≥4.5			4.5	72	72	0
实 践 教 育 Comprehensive Practice	实习实训  Practicals
	218504	军训 Military   Training		1	3周					1
	609021	智能制造创新创业实训I Training   of Intelligent Manufacturing Innovation and Entrepreneurship I		2	2周				H	2
	609018	金工实习I Metalworking   Practicals I		2	2周				H	2
	602067	电装实习B Electrical   Installation Practicals B		1	1周					3
	097948	人文素养实训 Training   of Humanistic Quality		0.5	0.5周					3
	100310	理科创新思维实训 Training   of Scientific Innovative Thinking		0.5	0.5周					3
	056751	虚拟商业创新创业实训 Training   of Virtual Business Innovation and Entrepreneurship		1	1周					5
	021298	生产实习 Production   Practicals		3	3周				H	6
	小计 Subtotal			11	13周
	实验  Lab
	100268	大学物理实验I College Physics Experiment I		1.5	24				H	3
	100269	大学物理实验II College Physics Experiment II		1.5	24				H	4
	042112	电工技术实验                                         Electrical Technology Experiment		0.75	12				H	3
	042432	电子技术实验Ⅰ                                    Fundamentals of Electronic Technology  ExperimentⅠ		0.6	10				H	4
	042433	电子技术实验Ⅱ                                    Fundamentals of Electronic Technology  Experiment Ⅱ		0.6	10				H	5
	029706	自动化基础实验Ⅰ                                   Automation Basis ExperimentⅠ		1	16				H	5
	021455	自动化基础实验Ⅱ                                   Automation Basis Experiment Ⅱ		1.5	24				H	6
	021301	专业综合实验                                   　Specialized Project  Experiment		1	16				H	7
	小计 Subtotal			8.5	136
	工程设计  Engineering design
实 践 教 育 Comprehensive Practice	021131	机械制图课程设计 Course   Design of Mechanical Drawing		1	1周				H	4
	021297	机械原理课程设计 Course   Design of Mechanical Principle		1	1周				H	4
	021354	机械设计课程设计 Course   Design of Mechanical Design		2	2周				H	5
	021044	机电系统设计课程设计 Course Design of Electromechanical   System Design		2	2周				H	6
	021480	毕业设计（论文） Graduation   Project		12	18周				H	8
	小计 Subtotal			18	24周
	第二课堂   Extracurricular Activties
	559014	入学教育 Enrollment   Education		0	8					1
		毕业教育 Graduation   Education		0	8					8
		创新与技能 Innovation   and Skills		7
	小计 Subtotal			7	16
	实践教育学分合计 Total			37.5	136+ 37周
实践教学学分（含课程实验）合计 Total   Credit of Comprehensive Practice				50.5	342+ 37周
必修学分合计 Total   Credit of Required Courses				163	2900		必修 1966	实践 934
选修学分合计 Total   Credit of Elective Courses				14.5	232

2017版机械电子工程专业课程设置

备注：1、考核方式分为考试课、考查课。考试课用符号T表示，考查课不用标注。

Assessment methods are divided into university-level examination and departmental examination. University-level examination is marked with "T" , with no mark for departmental examination. 

2、课程性质分为核心课程、非核心课程。核心课用符号H表示，非核心课程不用标注。

Courses are divided into core courses and non-core courses. A core course is marked with "H" , with no mark for a non-core course.

3、各专业设置核心课程，涵盖2012版《普通高等学校本科专业目录和专业介绍》中规定的核心知识领域。

The core courses offered by each major should cover the core knowledge specified in the 2012 edition of Catalogue  and Introduction to the Undergraduate Majors in Institutions of Higher Education.

机械电子工程专业教学进程表

Mechatronic Engineering Schedule

 

图例：* 入学教育  － 理论教学  ∶ 考 试  ＜ 课程设计  θ写生  ＝ 假 期  S教学实习  #电装实习

0金工实习   $ 社会调查   X学年论文     !测绘   C创新创业实训   @ 生产实习 

 J 机动  + 军训  ＞毕业设计  B 毕业教育  & 毕业实习

Legend：* Orientation  － Theory Teaching   ∶ Examination   ＜ Course Project    θSketch  

＝ Vacation   S Teaching Practice    # Electric Fitting Practice    0 Metalworking Practice

$ Social Survey  X Term Paper    !  Mapping   C Innovation and Entrepreneurship Training 

 @ Production Practice  J Mobility   +  Military Training   ＞ Graduation  Project/Paper  

B Graduation Education  & Graduation Fieldwork