软件工程（领域）专业学位硕士研究生培养方案

Cultivation Scheme of Software Engineering（Field）for Full-time Professional Master’s Degree

 
 
 
 

专业代码：085212	学分要求：26
Specialty Code: 085212	Credit Requirement: 26

 
一、工程领域简介(Introduction of Engineering Field)
软件工程全日制硕士主要培养能运用先进的工程化方法、技术和工具从事软件分析、设计、开发、维护以及项目组织与管理的高层次应用型软件人才，可在产业与工程中从事应用研究和大型软件工程的设计、开发与管理工作。我校于2011 年获批软件工程一级学科硕士学位授权点，2014 年获批软件工程专业学位
授权点。现有任课教师 66 人，其中专职教师 44 人。专职教师中具有博士学位的
15 人，在读博士 7 人，硕士生导师 25 人；教授 5 人，副教授 15 人，高级工程
师 2 人，形成了以教授为学科及研究方向带头人，以副教授、博士为主体，以年轻教师为后备力量的学历结构、知识结构、职称结构合理的教师梯队。学科团队先后主持国家自然科学基金项目 4 项，参与国家自然科学基金项目 4 项，其它省
市级项目 30 余项。在国内外学术期刊及学术会议发表较高水平论文 150 余篇，
出版教材和学术专著 25 部，申请发明专利 5 项。学科团队获辽宁省科技进步一
等奖 2 项，辽宁省教学成果一等奖 1 项，辽宁省自然科学学术成果一等奖 1 项。拥有软件工程省级实验教学示范中心和软件工程研究中心、数据科学与云计算研究中心和人工智能研究中心。学科在图像与视觉信息计算、智能数据处理、软件工程技术、嵌入式软件和大数据与云计算等方面开展基础性、应用性创新研究， 为区域经济和行业发展提供技术与人才支持。
The master of software engineering full-time program aims at cultivating engineers skilled in using advanced engineering methods, techniques and tools to engage in software analysis, design, development, maintenance and project management, and in working in industry to perform large-scale software engineering design, development and management. Our school was authorized to confer master

degree of first-class discipline of software engineering in 2011, and to confer bachelor degree of software engineer in 2014. The school has 66 faculty members, 44 of which working full-time. The faculty team consists of 15 Ph.D.s, 7 Ph.D. candidates, 25 master supervisors, 5 professors, 15 associate professors, and 2 senior engineers. The teaching team framework is characterized by a reasonable academic, knowledge, and professional title structure, with professors as subjects and research leaders, associate professors and doctors as main bodies, and young teaching staffs as reserve forces. The team has successively overseen and participated in 8 projects of the National Science Foundation of China, and more than 30 provincial and municipal projects, published more than 150 high-level papers in domestic and foreign academic journals and academic conferences, published 25 textbooks and monographs, and applied for 5 invention patents. Moreover, the team has received 2 first prizes for scientific and technological progress in Liaoning Province, a first prize for teaching achievement in Liaoning Province, and a first prize for natural science academic achievement in Liaoning Province. The school has a provincial-level experimental teaching demonstration center for software engineering and a software engineering research center, a data science and cloud computing research center, and an artificial intelligence research center. The team conducts basic and applied innovation research in intelligent data processing, image and visual information computing, software engineering technology, embedded software, big data and cloud computing, and provides technical and talent support for regional economic and industrial development.

二、培养目标（Cultivation Objectives）

掌握软件工程领域理论知识、具有较强解决实际问题的能力、能够承担软件工程专业技术或管理工作、具有良好职业素养的高层次应用型专门人才。要求学生熟悉软件工程领域的新技术和行业规范，具备较强的工程实践能力和运用先进的工程化方法、技术和工具从事软件系统分析、设计、开发、测试和维护等工作的能力，具备工程项目的组织与管理能力、团队协作能力、技术创新能力和市场开拓能力。
The program aims at cultivating high-level application-oriented specialized talents who grasp theoretical knowledge in the field of software engineering, have the ability to solve practical problems, are able to undertake software engineering or management work, and have good professional qualities. Students are required to be familiar with new technologies and industry specifications in the field of software engineering, to have strong engineering practice capabilities and the ability to use

advanced engineering methods, techniques, and tools to perform software system analysis, design, development, testing, and maintenance, and have project organization and management capabilities, team collaboration capabilities, technological innovation capabilities, and market development capabilities.

三、培养要求 (Cultivation Requirements)

（1） 较好地掌握马克思主义、毛泽东思想和中国特色社会主义理论；拥护党的基本路线、方针和政策；热爱祖国；遵纪守法，具有良好的职业道德和创业精神，积极为我国经济建设和社会发展服务。
Master Marxism, Mao Zedong Thought, and the theory of socialism with Chinese characteristics. Uphold the Communist Party’s basic line, principles, and policies. Love the motherland. Abide by the law, have good professional ethics and entrepreneurial spirit, and serve actively in China's economic construction and social development.
（2） 面向软件产业和软件工程领域需求，具有创新意识，具有运用先进技术方法和现代技术手段解决工程问题的能力，具有独立从事软件工程设计、开发、实施和管理等能力。
Facing the needs of the software industry and software engineering field, have a sense of innovation, the ability to use advanced technology methods and modern technology to solve engineering problems, and the ability to independently engage in software engineering design, development, implementation, and management.
（3） 较熟练地掌握一门外语，能阅读专业外语资料。
Master a foreign language and be able to read professional materials in foreign languages.

四、研究方向（Research Orientation）

 

序号 No.	名 称 Name	研究方向的范围及特点概述 Scope of Research Orientation and Brief Account of Characteristic
1	图像与视觉信息计算Image and visual information computing	以计算机图形学和图像处理技术为基础，研究图形图像采集、存储、显示、分析及处理相关理论和技术。其主要研究内容包括图形图像处理、机器视觉与人机交互技术等。 Based on computer graphics and image processing technologies, this research orientation studies theories and techniques for acquiring, storing, displaying, analyzing and processing graphic images. Its main research contents include computer graphics, image processing, computer vision and human-computer interaction technology.
2	智能数据处理	以人工智能和数据挖掘技术为基础，研究数据智能、知识智能

	Intelligent data processing	和社会智能的相关理论和技术。其主要研究内容包括知识获取方法、基于本体的知识的表示方法、知识转化、运用和处理等。 Based on artificial intelligence and data mining technologies, this research orientation studies relevant theories and techniques of data intelligence, knowledge intelligence, and social intelligence. Its main research contents include knowledge acquisition methods, ontology-based knowledge representation methods, knowledge transformation, application, processing and so on.
3	软件工程技术Software engineering technology	研究软件开发的基本原理和方法。其主要研究内容包括软件需求工程、软件体系结构、软件开发技术、软件测试技术等。 This research orientation studies basic principles and methods of software development. Its main research contents include software requirements engineering, software architecture, software development technology, software testing technology and so on.
4	嵌入式软件Embedded software technology	研究嵌入式软件开发的基本原理和方法。其主要研究内容包括嵌入式操作系统、嵌入式应用软件、嵌入式软件工程理论等。 This research orientation studies basic principles and methods of embedded software development. Its main research contents include embedded operating system, embedded software, and embedded software engineering theory and so on.
5	大数据与云计算Big data and cloud computing	研究面向服务的大数据技术架构原理和云计算平台技术。其主要研究内容包括大数据存储技术、数据仓库与数据挖掘、分布式计算、云计算服务端技术等。 This research orientation studies principles of service-oriented big data technology architecture and cloud computing platform technologies. Its main research contents include big data storage technology, data warehouse and data mining, distributed computing, cloud computing server technology and so on.

 
五、学制与学习年限（Duration of Schooling and Length of Schooling）
（1） 采用全日制学习方式，学制一般为 2.5 年，学习年限最长不超过 4 年，
其中从事工程实践时间为 6-12 个月。
Full-time training, the school system is generally 2.5 years, and the maximum training duration is no more than 4 years, of which the professional practice duration is 6-12 months.
（2） 全日制学生在第 1 学年学习理论课程，修满规定的学分，在后 1.5 学年结合专业实践，完成学位论文，参加毕业考核，毕业考核包含软件工程项目实践展示和学位论文答辩。
Take theory courses in the first academic year to obtain required amount of credits, complete dissertation by combining professional practice in the next 1.5

academic years, then participate in graduation assessments, and graduation assessments include software engineering project practice demonstrations and dissertation defenses.
（3） 培养方向包括图像与视觉信息计算、智能数据处理、软件工程技术、嵌入式软件和大数据与云计算。
The training orientations include image and visual information computing, intelligent data processing, software engineering technology, embedded software technology and big data and cloud computing.

六、培养方式(Cultivation Mode)

采用课程学习、专业实践和学位论文相结合的培养方式。
The training combines curriculum learning, professional practice, and dissertation.
（1） 课程学习主要在校内完成，课程以职业需求为导向，以工程实践能力为目标，以提高综合素养为核心。内容上强调理论与应用的有机结合，突出案例分析和实践研究；教学过程强调团队学习、案例分析、现场研究、模拟训练等方法；注重培养学生研究实践问题的意识和能力。在学校学习的时间累计不少于 1 年，实行学分制管理。
The coursework is mainly given in school. Courses are based on professional needs, with the objective of professional practice ability, and the improvement of comprehensive quality as the core. The content emphasizes the organic combination of theory and application, and highlights case analysis and practical research. The teaching process emphasizes team learning, case analysis, on-site research, and simulation training; it focuses on cultivating students' awareness and ability to study practical problems. The training duration in school is not less than 1 year and a credit system is implemented.
（2） 专业实践是重要的教学环节，充分的、高质量的专业实践是专业学位教育质量的重要保证。专业实践在软件企业或实习单位完成，时间一般为 6 个月， 采用集中实践与分散实践相结合的方式。实践教学中要求聘请企业中有丰富经验的软件专家、技术人员，共同承担研究生的培养工作。注重培养学生的实践和创新能力，增长实际工作经验，缩短就业适应期限，提高学生的专业素养及就业创业能力。
Professional practice is an important teaching link. Full and high-quality

professional practice is an important assurance for the quality of professional degree education. Professional practice is performed in software companies or by internships. The duration is generally six months. The combination of centralized practice and decentralized practice is used. The professional practice requires hiring software experts and technicians with rich experience in the enterprise to jointly undertake the cultivation of graduate students. Focus on cultivating students' practical and innovative capabilities, increase practical work experience, shorten employment adaptation period, and improve students' professional qualities in employment and entrepreneurship.
（3） 软件工程专业硕士研究生的培养实行双导师制，以校内导师指导为主， 校外导师参与实践过程、项目研究、课程学习与论文撰写等多个环节的指导工作。学位论文指导实行双导师制，校内导师由相关学科具有副高级职称以上教师担任， 校外导师由企业和工程部门推荐的业务水平高、责任心强的具有高级技术职称的 人员担任。学位论文选题应来源于应用课题或现实问题，有明确的职业背景和行 业应用价值。
The training is conducted with a dual-tutoring system, with the guidance of the tutor in school, and the tutors outside school participate in the guiding work of the practice process, project research, course study, and thesis writing. The dissertation writing process also implements a dual-tutoring system. The school tutors are professors or associate professors of the relevant disciplines. The tutors outside school are staffed by senior and highly responsible professionals with high technical titles recommended by the enterprise and engineering departments. The topic of dissertations should come from applied topics or practical problems, with a clear professional background and industry application value.

七、课程设置与学分要求(Curriculum and Course Credits)

课程学习和实践教学实行学分制。攻读软件工程硕士专业学位总学分不得低于 26 学分，必修课不超过 22 学分，实践教学不计入总学分。课程设置包含政治理论、外语、数学和专业课。根据全日制软件工程专业学位硕士研究生的特点， 确定课程的内容和学分，达到软件工程专业硕士学位所应具备的知识结构和能力要求。
Curriculum learning and professional practice implement credit system. The total credit for a professional master's degree in software engineering must not be less than 26 credits, and the required course must not exceed 22 credits. Professional practice

does not count toward total credits. The curriculum includes political theory, foreign languages, mathematics and professional courses. According to the characteristics of full-time master candidate in software engineering, the content and creditsof the courses are determined to meet the knowledge structure and ability requirements for a professional master degree in software engineering.

（1） 公共课程
Public Course
（2） 基础理论类课程
Basic theory courses
（3） 选修课程
Elective Courses
 

软件工程 学科（专业）硕士研究生培养方案
The training program of master graduated students majored in software engineering discipline (specialty)
专业代码： 0835 学科门类：工学
Code of Specialty: 0835 Department of Discipline: Engineering
一级学科：软件工程 学分要求：40 First-grade Discipline: Software Engineering Credit Setting:40
 
 
 

一、学科（专业）概况（Disciplines Overview）

 
本学科于 2011 年开始建设，设置图像与视觉信息计算、智能数据处理、软件工程技术、嵌入式软件和大数据与云计算五个培养方向。
Our university was approved to establish the first-level discipline of software engineering in 2011. The software engineering discipline includes five training directions: Image and visual information computing, Intelligent data processing, software engineering technology, Embedded Software, Big Data and Cloud Computing.
本学科已培养研究生 82 人，毕业生中约 10%继续攻读博士学位，就业部门主要为国内知名软件
 
企业、国内知名电子商务企业、国内重点煤矿企业、政府机关、金融机构、企事业管理部门。
 
82 graduate students have been trained by the software engineering discipline, 10% of them continue to pursuit the doctoral degree, other graduates are employed by domestic famous internal software enterprises, famous internal electronic commerce, key coal-mine enterprises, government agencies, financial institutions and enterprise management departments.
目前本学科有研究生指导教师 16 人，其中正高 5 人，副高 11 人。学院现有软件工程新技术实
 
验室、企业信息化实验室等，并与东软集团、华信集团、文思创新、印度 NIIT 软件人才培训中心、中软集团、海辉集团等十多家软件企业建立了长期的合作关系，承担了包括国家自然科学基金、省自然科学基金、辽宁省科技计划项目、辽宁省教育厅项目等在内的各种科研项目和校企联合横向研发项目 40 余项，获得专利 2 项，发表高水平论文 300 余篇。

There are 16 graduate supervisors in the software engineering discipline of Liaoning Technical University, where 5 are senior titles and 11 are vise-senior titles. The software engineering discipline of liaoning technical university has built long term cooperative relationship with more than ten companies, such as Neusoft, Huaxin Group, VanceInfo, NIIT, Chinasoft, and Hisoft. The software engineering  discipline of liaoning technical university has undertaken more than 40 projects including National Natural Science Foundation, Provincial Natural Science Foundation, Liaoning Science and Technology Plan Project, and school-enterprise joint projects. The software engineering discipline of Liaoning Technical University has two patents and more than 300 high-level technical papers.

二、培养目标（Training Objectives）

 
软件工程领域（研究型）硕士研究生的培养目标是具备坚实的软件工程理论基础和系统的专门知识，较为熟练地掌握一门外国语；具有较好的创新意识和综合性的学术修养、严谨求实的科学态度和作风，能够综合运用软件工程方法、技术和工具分析和解决实际问题，具备较全面的软件研发能力与实践经验；能从事软件工程的基础研究、应用基础研究、应用研究、关键技术创新和大型软件系统设计开发与管理等工作，也可以继续攻读博士学位。
The general training objectives of academic graduate students of software engineering discipline are listed as follows. The graduates will possess solid theoretical foundation of software engineering and systematical specialized knowledge, and master a foreign language. The graduates will possess good innovation consciousness, comprehensive academic accomplishment, scientific attitude and style. The graduates will be able to analyze and solve practical problems by integrating the methods, technologies and tools of software engineering. The graduates will possess comprehensive development capability and practical experience. The graduates will be competent for the fundamental research of software engineering, the applied fundamental research, the applied research, the innovation of key technology. The graduates  will be competent for the design, development and management of large software systems. The graduates will also continue to pursuit doctoral degree.
具体培养要求如下：
 
The specific training requirements are as follows. 1．思想素质 (Political and ideological quality)
拥护党的基本路线和方针政策，热爱祖国，遵纪守法，具有良好的职业道德和敬业精神，具有
 
科学严谨和求真务实的学习态度和工作作风，身心健康。

Hold the Party's basic line and policies, have ardent love for the motherland, observe law and discipline, have a good work ethic and professionalism, have the scientific and pragmatic spirit, physical and psychological health.
2. 业务素质 (Professional quality)
 
掌握软件工程领域的基本理论、先进技术方法和手段，了解软件工程知识体系，实践能力强， 在软件工程领域具有独立从事基础研究、系统分析、设计、开发和管理与维护以及团队协作和市场开拓的能力。
Master fundamental theories, advanced technology methods and means, understand knowledge hierarchy of software engineering. In the field of software engineering, have a certain practice ability of independent fundamental research, system analysis, design, develop, manage and maintenance. In addition, have a certain ability of corporation and market development.
3. 外语水平(Foreign language level)
 
熟练掌握一门外语，具有一定的阅读、理解和撰写外文资料和国际交流的能力。
 
Master a foreign language, have a certain capability of reading, understanding and writing foreign language materials and international communication.

三、学制与学习年限（Educational system and length of schooling）

 
1．采用全日制学习方式，学制3年，学习年限最长不超过5年。
 
Full time learning style, the three-year schooling, the length of schooling is no more than five years. 2．全日制学习用1.25学年完成课程学习，修满规定的学分；用1.75学年完成学位论文，参加毕
业考核和学位论文答辩。
 
The full-time learning consists of two periods. First, 1.25-year course learning is to achieve full credits; second, 1.75-year dissertation completing is to make graduated students have the qualification to attending graduation examination and dissertation defense.

四、研究方向（Research Orientation）

 

序号 No.	名 称 Name	研究方向的范围及特点概述 The Scope of Research Orientation and Brief Account of the Characteristic
1	图像与视觉信息计算   Image and visual information computing	以计算机图形学和图像处理技术为基础，研究将数据转换为屏幕图形图像显示的理论和技术。其主要研究内容包括计算机图形学、图像处理、计算机视觉以及人机交互技术等多个领域。 This research direction studies the technology of converting data into the visual graphics based on computer graphics and image processing technology. The main study contents include computer graphics, image processing, computer vision and human-computer interaction technology.
2	智能数据处理     Intelligent data processing	以现代智能计算理论和技术为基础，研究处理海量数据和复杂信息的理论、方法和技术。其主要研究内容包括智能计算理论与方法，数字图像处理与分析、Web 信息抽取、语音数据处理、文本挖掘、大数据处理等。 This research direction studies the theory, method and technology to deal with vast amounts of data and complex information based on the theory of modern intelligent computation. The main study contents include the theory and method of intelligent computation, digital image processing and analysis, web information extraction, speech data processing, data mining, et al.
3	软件工程技术     Software engineering technology	研究软件开发的基本原理。其主要研究内容包括软件需求工程、软件体系结构、软件开发技术、软件测试技术等。 This research direction studies the fundamental principles of software development, focuses on solving how to construct the software system with high quality, high reliability and easy maintenance. The main study contents include software architecture, software development technology, software testing technology and software engineering environment and tools.
4	嵌入式软件     Embedded	研究嵌入式软件开发的基本原理，重点解决硬件受限条件下如何构建高质量、高可靠性、易于修改和维护的嵌入式软件系统的问题。其主要研

	software technology	究内容包括基于构件技术和开源技术的嵌入式操作系统、基于网络化操作系统的嵌入式支撑软件、嵌入式应用软件、嵌入式软件工程理论、软硬件协同设计理论与技术等。 This research orientation studies the fundamental principles of embedded software development, emphasizes on how to construct high quality, high reliable and easily maintained embedded software system. The main study contents include embedded operation system based on component technology and open source technology, embedded supporting software based on network operation system, embedded applied software, and embedded software engineering theory, et al.
5	大数据与云计算     Big Data and Cloud Computing	研究大数据技术框架原理和云计算平台技术。其主要研究内容包括大数据存储技术、数据仓库与数据挖掘、分布式计算、云计算服务端技术等。 This research direction studies principle of big data technology framework and cloud computing platform technology. The main contents include large data storage technology, data warehouse and data mining, distributed computing and cloud computing.

五、课程设置（Curriculum）

 

课程类别 Course Type		课程编号Course No	课程名称 Course Name	学分Cre dit	学时 Hour 课内/试验Class/test	开课学期semester classes	开课单位Class Department	备注 Remarks
Academic Degree Course	Common Course		中国特色科学社会主义理论与实践研究	2			思政部
			自然辩证法概论/马克思主义社会科学方法论	1			思政部
			基础综合英语	3		1	外语系	过六级
			学术综合英语	3		2	外语系	过六级
			硕士生基础英语 1	3		1	外语系
			硕士生基础英语 2	3		2	外语系
			数值分析	3		2	理学院	全校
			组合数学	3		1	理学院	软件
	Basic Course		软 件 工 程 方 法 论 Software Engineering Methodology	2	40	2		基础课和专业课之和：16 学分
			算法设计与分析 Design and Analysis of Algorithms	2	40	2

			网络信息安全技术Network Information Security Technology	2	40	2
	Specialized Course		大数据与存储技术 Large Data and Storage Technology	2	40	2
			软件体系结构 Software Architecture	2	40	2
			软件工程管理 Software Engineering Management	2	40	2
			软 件 工 程 新 技 术 Software Engineering New Technology	2	40	2
			数字图像处理 Digital Image Processing	2	40	2
Selective Course	Public Elective Course		学术英语写作 Academic English Writing	1	20	2	软件学院	必选
			随机过程 Random Process	2		2	理学院	至少选一门
			最优化理论 Optimization Theory	2		2	理学院
	Optional Courses		模式识别与数据挖掘Pattern Recognition and Data Mining	2	40	2	软件学院
			计算机视觉 Computer Vision	2	40	2	软件学院
			嵌入式软件系统Embedded Software System	2	40	3	软件学院
合计 Total				40

、实践环节(Practice period)
全日制硕士研究生在学期间，必须参加助教、助研、助管三项工作之一；必须参加社会、生产实践。具体要求见《辽宁工程技术大学研究生参加助研、助教、助管工作的暂行规定》、《辽宁工程技术大学硕士研究生参加社会、生产实践的暂行规定》。
The full-time graduate students must attend one of the three jobs: teaching assistant, research assistant and management assistant. The full-time graduate students must join the practice of society and production. The detailed requirement refer to "The provisional regulation of joining the works of teaching assistant, research assistant and management assistant for graduate students of liaoning technical university" and " The provisional regulation of joining the practice of society and production for graduated students of liaoning technical university".

七、培养方式与方法(Training ways and means)

1. 对研究生的培养，采取系统理论学习、科学研究和工程实践相结合的原则，实行导师或导师组负责制。学习方式采取讲课、讨论和自学相结合。研究生入学后，导师（组）应根据培养方案的要求和因材施教的原则，从每个研究生的具体情况出发，负责制订研究生个人培养计划、组织开题报告、指导科学研究和学位论文等。
For the training of graduate students, the responsibility mechanism of supervisor (or supervisor group) is executed based on the principle of integrating systematic theoretical studying, research and engineering practice. After the enrollment of graduated students, the supervisor (or supervisor group) is in charge of making the individual program, organizing proposal report, and guiding research and dissertation for each graduate student which meet the requirement of training plan and the principle of aptitude education.
2. 研究生要完成指定的课程学习，掌握好基础理论及专业知识，同时导师（组）要注重硕士生
 
自学、独立工作和创新能力的培养。研究生的学习应强调在学习中研究、在研究中学习，导师（组） 的作用在于启发他们深入思考与正确的判断，培养独立分析问题和解决问题的能力。
Graduated students should complete the assigned courses, and master good fundamental theory and expert knowledge. Meanwhile, the supervisor (or supervisor group) should focus on the training of self-study, independent work and innovation ability. It should be emphasized that graduated students should implement research in the studying and vice versa. The effect of the supervisor (or supervisor group) lies in inspiring graduated students to think deep and make the right judgment, and training their capability of independently analyzing and solving problems.
3. 研究生整个培养过程应贯彻理论联系实际的方针，使硕士研究生掌握本专业的基础理论和专
 
业知识，掌握科学研究的基本方法，并具有一定的工程实践能力。
 
The principle of combining theory with practice should be carried out in the whole training process which makes sure that graduated students master specialized fundamental theory and knowledge, master fundamental methods of scientific research and possess a certain capability of engineering practice.
4. 导师（组）要全面关心研究生的成长，既教书又育人。
 
The supervisor (or supervisor group) should comprehensively care about the growing up of graduated students.

八、考核方式(Assessment)

1. 课程考核 (Course assessment)

全日制硕士研究生的课程考核方式可简括为“笔试”（含闭卷、开卷）、“提交报告”（含总结、综述、心得体会等）、“课程论文”、“考查”（含检查读书笔记、实验或上机等情况）4 种方式。学位课考核记分采用百分制，其他采用优、良、中、及格和不及格。公共课与学科基础课以笔试为主，其它可采用上述四种方式或将各种不同方式相结合，重在考核研究生对专业知识的把握能力和应用基础理论分析实际问题的能力。
The course assessment of full-time graduated students can be summarized as four modes: written examination (closed-book exam and open-book exam), report submission (including summary, review, feelings and experiences), class paper, and checking (including checking reading notes, experiments or programming). The assessment of degree courses is the hundred-mark system, and other courses are grade-mark system including excellent, good, medium, pass, and failure. The public courses and basic courses of the software engineering discipline are mainly examined by written examination; other courses can be examined by the four course assessment modes or their combinations, which emphasize check the ability of graduated students for problem solving.
2. 课程外考核(Extra-course assessment)
 
全日制硕士研究生的课程外考核分中期考核和学位论文质量考核。对中期不通过者，不能进行学位论文工作；对学位论文质量考核未通过者，不能进行学位论文答辩。具体规定分别见《辽宁工程技术大学硕士研究生中期考核实施办法》和《辽宁工程技术大学硕士学位论文质量保证管理实施办法》。
The extra-course assessment of full-time graduated students includes mid-term examination and dissertation quality assessment. The person who fails in mid-term examination cannot attend the work of dissertation. The person who fails the dissertation quality assessment cannot attend the dissertation defense. The details can refer to "The mid-term examination method of graduated students of Liaoning Technical University" and "The quality guarantee and implementation methods of dissertation of Liaoning Technical University"
 
 

九、 学术讲座 / 学术 报告 / 学 术论文 (Academic Lecture/academic report/academic paper)

全日制硕士研究生必须参加专题讲座、学术报告和研究生论坛，了解软件工程学科或相关学科的前沿论题和发展动态，围绕研究方向进行文献调研和论文报告。

The full-time graduated students must attend specialized lectures, academic reports and forums, and should know about the frontier issues and development dynamics. Furthermore, the full-time graduated students should implement literature research and paper writing according to the research orientation.
全日制硕士研究生必须按照辽宁工程技术大学《关于研究生申请学位学术成果的规定》（2012 年 6 月 26 日第六次校长办公会议讨论通过）发表学术论文，方可申请学位。
The full-time graduate students cannot apply master degree until they meet the requirement of "The rule of academy's successes of Liaoning Technical University".
申请硕士学位论文答辩除满足学校规定的条件外还须满足下列条件之一：
 
Besides conditions stipulated by Liaoning Technical University, applicants for the master degree thesis must satisfy one of the following conditions:
1. 以辽宁工程技术大学软件学院为第一作者单位、本人为第一作者（或导师是第一作者、本人为第二作者）在学校规定的国内学术期刊目录（或统计源期刊或 SCI、EI、ISTP 检索的源期刊与国际会议论文集）上发表或已录用（凭录用通知和版面费收据认定）1 篇及以上与学位论文研究工作相关的学术论文。
The applicant must have at least one published (or accepted, taking the accepting notification or page charge receipt as the criterion) paper of the journals appointed by Liaoning Technical University (or the journals indexed by SCI, EI, ISTP or proceedings of the international conference); the published (or accepted) paper must be related with the applicant’s thesis. The applicant must be the first author (or the second author and the director as the first author) and the signed institution of the first author must be Liaoning Technical University.
2. 至少有已被受理的与学位论文研究内容相关的发明专利 1 项或实用型专利（或软件著作权）
 
2 项。受理的专利（或软件著作权）应以辽宁工程技术大学为第一署名单位，本人为第一发明人（或导师为第一发明人，本人为第二发明人）。
The applicant must at least have one authorized inventive patent or two authorized practical patents (or software copyrights) which are related with the applicant’s thesis. The applicant must be the first inventor (or the second inventor and the director as the first inventor). The first signed institution of the authorized patents (or software copyrights) must be Liaoning Technical University.

十、学位论文 (Dissertation)

学位论文阶段由论文开题、论文中期检查、论文答辩等环节组成。论文工作应在导师指导下独立完成，论文实际工作量一般不少于一年，完成开题报告后至少从事 1 年的研究工作后方可申请学位论文答辩。
The phase of dissertation consists of dissertation proposal, mid-term checking, and dissertation defense. The work of dissertation should be independently finished under the guidance of superior; the work quantity should be more than one year. The graduated students cannot apply the degree defense until they carry out the research work more than one year.
1. 论文开题(Dissertation proposal)
 
硕士学位论文选题应具有明确的需求背景和应用价值，可以结合软件项目、软件产品和软件项目过程管理、软件算法等进行研究。
The topic selection of dissertation should have definite requirement background and application values, the dissertation proposal can be related with software projects, software products, the process management of software, the algorithm.
论文选题应有一定的先进性、技术难度和工作量，能体现作者综合运用软件工程的基础理论、方法和技术解决工程实际问题的能力。应充分发挥研究生的主观能动性并在导师的指导下进行。开题结束后提交《硕士学位论文开题报告》。开题报告中的参考文献数量不得少于 30 篇，开题报告答辩由本学科学位委员会负责组织进行，除涉及研究工作机密外，研究生开题答辩一般公开举行，在第三学期末之前完成。
The topic selection of dissertation should represent certain advanced natures, technical difficulties and work quantity. The topic selection of dissertation should bring graduated students' intuitive into full play and should be completed according to the guidance of supervisor. The "dissertation proposal report" should be submitted after the dissertation proposal. The number of references is no less than 30. The defense of dissertation proposal should be organized by academic degrees committee of the software engineering discipline. The defense of dissertation proposal usually held in public and it must be finished in the third semester.
2. 中期检查(Mid-term examination)
中期检查由硕士生导师负责组织学位论文期中检查，中期检查结束后提交《硕士学位论文中期检查报告》。中期检查时间须符合硕士通过开题答辩至少半年以上，在第 5 学期末之前完成，中期检查通过中期答辩方式进行检查考核。

专业名称：软件工程     专业代码：083500     门类/类别：工学     学科/类别：软件工程

北京化工大学为例

北京化工大学“软件工程”学科是 2011 年新增的一级学科硕士学位授予权，下设四个二 级学科:软件工程理论、软件工程技术、软件工程管理和软件服务技术。经过近五年的建设，本学位授予点现有研究生导师25人，其中教授6人、副教授11人，且均毕业于国内外知名大学，已形成一支综合素质好、实践经验丰富、具有开拓创新精神的教学科研队伍，在智能化软件工程、数据科学、生物信息领域软件技术、网络环境与信息安全等方面形成了学科特色鲜明的科学研究领域。

本学科以国家需求为导向，紧密围绕“先进、开放、实践、创新”的指导思想，一方面开展软件工程学科自身基础理论的研究，强化学科交叉，创新学科方向；另一方面强调面向行业和企业需求的工程实践与关键技术的研究，提升软件服务技术能力，拓宽国际合作与交流，培养学术型与应用型并重的高层次软件工程领域基础研究和技术创新人才。

华北计算机系统工程研究所 中国航天科工集团第二研究院 北京化工大学 北京工业大学 北方工业大学 北京邮电大学 中国矿业大学(北京) 北京联合大学 天津理工大学 天津职业技术师范大学 河北师范大学 燕山大学 中北大学 太原科技大学 山西大学 内蒙古工业大学 内蒙古大学 大连大学 大连海事大学 沈阳理工大学 辽宁科技大学 大连交通大学 大连海洋大学 长春理工大学 东北电力大学 哈尔滨理工大学 东北石油大学 上海理工大学 江苏科技大学 南京工业大学 南京财经大学 南京信息工程大学 南京林业大学 浙江工商大学 浙江理工大学 浙江工业大学 杭州电子科技大学 淮北师范大学 合肥工业大学 安徽理工大学 安庆师范大学 华侨大学 南昌航空大学 海军航空大学 山东理工大学 曲阜师范大学 青岛理工大学 中国海洋大学 华北水利水电大学 河南理工大学 郑州轻工业学院 武汉科技大学 长江大学 武汉工程大学 国防科技大学 中南林业科技大学 湘潭大学 广东工业大学 中山大学 深圳大学 桂林电子科技大学 广西大学 重庆邮电大学 西南科技大学 成都信息工程大学 贵州师范大学 云南师范大学 中国航空研究院631所 西安电子科技大学 西安工业大学 西安邮电大学 北方民族大学 新疆大学

专业名称：软件工程     专业代码：085212     门类/类别：工学     学科/类别：工程

中山大学

请查阅中山大学相关招生院系的网页。

北京师范大学 北京工业大学 北方工业大学 北京邮电大学 河北工业大学 燕山大学 中北大学 太原科技大学 山西大学 内蒙古大学 大连海事大学 沈阳工业大学 沈阳航空航天大学 辽宁科技大学 辽宁石油化工大学 大连交通大学 长春理工大学 哈尔滨理工大学 东北石油大学 上海海事大学 南京邮电大学 杭州师范大学 浙江工业大学 合肥工业大学 南昌航空大学 华东交通大学 济南大学 中国海洋大学 齐鲁工业大学 河南理工大学 河南师范大学 武汉科技大学 武汉纺织大学 国防科技大学 广东工业大学 广东财经大学 中山大学 深圳大学 桂林电子科技大学 广西大学 重庆邮电大学 西北工业大学 西安工业大学 西安科技大学

 

080912软件工程

专业名称：软件工程     专业代码：080912     门类/类别：工学     学科/类别：电子科学与技术

开设院校较少，暂无相关信息，本网站将持续更新

0835J3软件工程

专业名称：软件工程     专业代码：0835J3     门类/类别：工学     学科/类别：软件工程

北京大学为例

招生院系：	前沿交叉学科研究院
计划招生数	80人
拟接收推免人数	65人
备注说明	本院系仅招收全日制硕士研究生。
招生专业：数据科学（软件工程）(0835J3)
计划招生数：		拟接收推免人数：
备注：	本专业与数据科学（计算机科学与技术）专业合并招生；考试科目 ④ 计算机专业基础 ，使用北京大学信息科学技术学院试题。
研究方向		考试科目
		①101 思想政治理论 ②201 英语一 ③301 数学一 ④907 计算机专业基础