战略性新兴(支柱)产业人才培养计划
电子信息工程专业培养方案
Curriculum for UndergraduateElectronics and Information Engineering Majors(Industry Talents Cultivation Program)
一、培养目标
本专业旨在培养思想素质高、基础扎实、实践能力强、德、智、体、美、劳全面发展,具有创新精神的高素质应用型人才,期待毕业生五年左右达到以下目标:
1. 具备扎实的数学、自然科学基础知识,良好的人文素养、社会责任感和职业道德;
2. 掌握电子信息工程专业领域的基础理论和专业知识,具有创新意识、各类电子信息系统和设备进行分析、设计、开发、应用与维护、技术管理等方面的工程实践能力,以及企业实践经验;
3. 具有文献检索和资料查询的能力,了解电子信息工程专业相关技术前沿动态和发展趋势;
4. 具有良好的表达和沟通能力以及团队合作和组织管理能力;
5. 具有终身学习的意识, 具备不断学习和适应发展的能力;
6. 具有一定的国际视野和良好的外语应用能力。
I.Training objectives
This major aims to cultivate high-quality thinking, solid foundation, practical ability, innovative spirit of high-quality applied talents, looking forward to graduates to achieve the following objectives in about five years:
1. Be equipped with solid mathematical, basic knowledge of natural science, good humanistic accomplishment, social responsibility and professional ethics;
2. Master the basic theory and professional knowledge of Electronics and Information Engineering field, have the capability of innovative consciousness. For various electronic information systems, can analysis, design, development, application and maintenance, technical management and other aspects of engineering practice;
3. Have the capability of literature search and data query, understand the cutting edge of electronics and Information technology and development trends;
4. Have good command and communication skills, teamwork and organization and management skills;
5. Have a sense of lifelong learning, have the ability to continue to learn and adapt to development;
6. Have international vision and good foreign language application ability.
二、毕业要求
1. 工程知识:能够将数学、自然科学、工程基础和专业知识用于解决电子信息工程专业领域建模、设计及优化等复杂工程问题。
2. 问题分析:能够应用数学、自然科学和工程科学的基本原理,识别、表达、并通过文献研究分析各类电子信息系统和设备的需求、目标等专业领域复杂工程问题,以获得有效结论。
3. 设计/开发解决方案:能够设计针对电子信息工程专业领域复杂工程问题的解决方案,设计满足特定需求的各类电子系统和设备方案或技术,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. 实验设计与信息处理:能够基于科学原理并采用科学方法对各类电子系统或设备数据处理、性能评估及修正改进等复杂工程问题进行研究,包括设计实验、分析与解释数据、并通过信息综合得到合理有效的结论。
5. 现代工具的应用:能够针对电子信息工程专业领域的复杂工程问题,开发、选择与使用恰当的技术、资源、现代工程工具和信息技术工具,包括对复杂工程问题的预测与模拟,并能够理解其局限性。
6. 工程师社会责任意识:能够基于工程相关背景知识进行合理分析,利用电子信息工程领域工程设计、实施及评估规范评价电子信息工程专业工程实践和复杂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:能够理解和评价针对电子信息工程领域中复杂工程问题的工程实践对环境、社会可持续发展的影响。
8. 职业道德与规范:具有人文社会科学素养、社会责任感,能够在电子信息工程领域工程项目实践中理解并遵守工程职业道德和规范,履行责任。
9. 团队合作:能够在多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:能够就信息系统设计、研究、开发等的复杂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:面向电子信息工程领域工程项目的多学科环境,理解、掌握并应用工程管理原理与经济决策方法。
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。
II.Requirements
1. Engineering knowledge: Be equipped with the ability to use mathematics, natural sciences, engineering and expertise to solve complex engineering problems such as modeling, design and optimization of various electronic information systems.
2. Problem Analysis: Be able to apply the basic principles of mathematics, natural sciences and engineering science to identify and express, and through the literature research and analysis of various electronic information systems needs, objectives and other areas of complex engineering problems in order to obtain effective conclusions.
3. Design / Development Solution: Design solutions for complex engineering problems in the field of automation, design electronic information systems, and other technologies that meet specific needs and be able to embody innovation in the design process, , Health, safety, legal, cultural and environmental factors.
4. Experimental design and information processing: Can make research based on scientific principles and scientific methods of electronic information systems data processing, performance evaluation and improvement of complex engineering issues, including the design of experiments, analysis and interpretation of data, and through information synthesis to be reasonable and effective conclusions.
5. The application of modern tools: Be able to develop, select and use appropriate technologies, resources, modern engineering tools and information technology tools for complex engineering issues in the field of electronics and Information Engineering, including the prediction and simulation of complex engineering problems in automation systems and the ability to understand Its limitations.
6. Engineers' sense of social responsibility: Have the ability to conduct rational analysis based on engineering-related background knowledge, use design, implementation and evaluation of standardized evaluation of professional engineering practice and complex engineering problem solutions on social, health, safety, legal and cultural impact, and understand the responsibility should bear.
7. Environment and Sustainable Development: Have the ability to understand and evaluate the impact of engineering practices on complex engineering issues in electronics and Information field technology for environmental and social sustainable development.
8. Professional ethics and norms: Be equipped with a humanities and social science literacy, social responsibility, can understand and comply with engineering ethics and norms in the project practice, can fulfill the responsibilities.
9. Teamwork: Have the ability to take on individual, team members, and responsible roles in a multidisciplinary team.
10. Communication: Communicate and communicate effectively with industry peers and the public on complex engineering issues such as design, research and development of information systems, including writing reports and design manuscripts, presenting statements, clearly expressing or responding to directives, and have a certain international perspective , be able to communicate and communicate in a cross-cultural context.
11. Project management: Understand, master and apply the principles of engineering management and economic decision-making methods for the project multidisciplinary environment.
12. Lifelong learning: Be equipped with independent learning and lifelong learning awareness, have the ability to continue to learn and adapt to development.
附:培养目标实现矩阵
| 培养目标1 | 培养目标2 | 培养目标3 | 培养目标4 | 培养目标5 | 培养目标6 |
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毕业要求12 |
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三、专业主干课程
电路分析基础、模拟电子技术、数字电子技术、通信电子电路、信号与系统、数字信号处理、信息论基础、通信原理、电磁场与电磁兼容原理、微机原理与应用、数字系统设计、网络技术及应用。
IV. Main Courses
Circuit Analysis Basis, Analog Electronics Technology, Digital Electronics Technology, Signals and Systems, Digital Signal Processing, Fundamentals of Information Theory, Principle of Communications, Electromagnetic Field and EMC Principle, Principles and Applications of Microcomputer, Digital System Design, Techniques and Applications of Computer Networks
.四、基本学制:四年
IV.Recommended length of the program:4 years
五、授予学位:工学学士
V. Degree: Bachelor of Engineering
学生修满所规定的最低毕业学分,符合武汉科技大学授予学士学位规定,授予工学学士学位。
毕业学分要求:176学分
课程类型 | 学分要求 | 课程类型 | 学分要求 |
1、公共课程平台 | 45 | 3、专业课程模块 | 51 |
公共基础课程 | 31 | 专业必修课程 | 35 |
通识教育课程 | 必修 | 10 | 专业选修课程 | 16 |
选修 | 4 | 4、实践教学模块 | 28 |
2、学科基础平台 | 46 | 专业实践课程 | 必修 | 28 |
专业学科基础课程 | 必修 | 41 | 选修 | 0 |
选修 | 5 | 5、素质拓展模块 | 6 |
*通识教育选修课4学分包括:人文社科类1学分、艺术体育类1学分、自然科学类1学分、经济管理类 1学分
VI. Credits required for graduation:176 credits
Type of courses | Academic credits | Type of courses | Academic credits |
1.Common Courses | 45 | 3. Specialized Courses | 51 |
Common Basic Courses | 31 | Required Courses | 35 |
General Education Courses | Required Courses | 10 | Elective Courses | 16 |
Elective Courses | 4 | 4.Practicum and Internship Courses | 28 |
2.General Disciplinary Courses | 46 | Disciplinary Practical Courses | Required Courses | 28 |
Disciplinary Basic Courses | Required Courses | 41 | Elective Courses | 0 |
Elective Courses | 5 | 5.Quality Development Courses | 6 |
七、学分比例
VII. Ratio of Credits
1. 必修选修学分比例
The proportion of compulsory elective credits
类别 | 学分 | 占总学分比例 |
必修 | 151 | 85.8% |
选修 | 25 | 14.2% |
实践教学环节学分比例
The Proportion of credits in practice teaching
实践教学环节 | 实验教学学分 | 16.5 | 28.70% |
实践教学模块 | 28 |
素质拓展模块 | 6 |
毕业要求实现矩阵
VIII. Graduation Realization Matrix
课程名称 | 电子信息工程专业荆楚卓越毕业要求 |
(1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) | (11) | (12) |
思想道德修养与法律基础 | √ |
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中国近现代史纲要 |
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马克思主义基本原理 |
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毛泽东思想和中国特色社会主义理论体系概论 | √ |
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形势与政策 | √ | √ |
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军训 | √ |
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军事理论 | √ |
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体育 |
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英语 | √ |
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高等数学 |
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线性代数 |
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概率论及数理统计 |
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复变函数与积分变换 |
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大学物理 |
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物理实验 |
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C语言程序设计 |
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C语言程序设计课程设计 |
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工程制图B |
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电路分析基础 |
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电路分析基础实验 |
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数字电子技术 |
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数字电子技术实验 |
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模拟电子技术 |
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模拟电子技术实验 |
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电子系统综合设计 |
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通信电子电路 |
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计算机原理与接口技术实验 |
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嵌入式系统及应用 |
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信号与系统 |
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数字信号处理 |
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MATLAB语言 |
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毕业实习 |
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通信原理 |
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信息论基础 |
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现代交换技术 |
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数字系统设计 |
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数字图像处理 |
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单片机及接口技术 |
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网络技术及应用 |
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电磁场与电磁波 |
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数据结构 | √ | √ |
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操作系统原理 |
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DSP原理与应用 |
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生产实习 |
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毕业设计 |
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电子信息导论 | √ |
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计算机软件基础 |
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毕业论文 |
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