Research directions: computer networks, real-time computer applications, CIMS, computer graphics, parallel computing, network information security, database, affective computing, data mining, distributed computing, knowledge engineering, computer vision, automated reasoning, machine learning, sketch understanding, network performance analysis and protocol design, network management and security, Computer Graphics, Information Visualization, GPU-based High Performance Computing, Complex Systems (Emergency Response, Logistics, and Marine) Domain Engineering, SOA-based Spatial Information***Helping and Business Collaboration, Semantic Search Engines, Natural Language Processing, Machine Translation, Search Engines, Air Traffic Information Systems and Control, Civil Aviation Information and Decision Support Systems, and Intelligent Transportation Systems Theory and Technology.

Professional characteristics: computer application technology is for the informationization needs of society and various enterprises and institutions, through the selection of computer hardware and software and network technology, application and integration, demand analysis, planning and design of information systems, to provide and implement technology and solutions, to create an optimized information system, and its operation of the implementation of effective technical maintenance and management of the discipline.

The knowledge involved in cultivating talents in this area includes: basic mathematics and information technology, basic programming, system platform technology, computer networks, information management and security, human-computer interaction, integrated program development, system architecture and integration, Web and digital media technology, engineering implementation, and professional ethics. The goal of training is to provide enterprises, institutions and government agencies with chief information officers and talents who undertake the core tasks of informationization construction, and to provide IT enterprises with system analysis talents.

Scientific research status: this program is the first computer doctoral program in Tianjin, mainly engaged in the application of computer technology in other areas of core technical issues in research and development of related information systems. In recent years in the computer integrated manufacturing (CIMS), computer-aided teaching, virtual reality technology applications, computer industrial control, e-commerce and other directions to undertake the national 863 project and major projects, the National Natural Science Foundation of China more than ten. It has undertaken nearly 100 provincial and ministerial level and horizontal scientific research projects. It has made important contributions to the informationization construction of the country and Tianjin.

Recent years' enrollment: The program began to enroll students in the early 80's, and has trained more than 300 master's degree graduates for the country so far. In recent years, the number of applicants and the number of admissions have increased simultaneously year by year.

Major courses and thesis requirements during the master's degree: major courses: advanced computer networks, theory of computation, queuing theory and its application in computers, applied combinatorial mathematics, software architecture, object-oriented methodology, distributed computer systems, parallel computing, advanced computer graphics, advanced artificial intelligence, pattern recognition and understanding, machine learning, cryptography and information security, unified Modeling Languages.

Thesis Requirements: The thesis topic involves theoretical research on the application of computers in various fields, the development of cutting-edge technologies, and the application of research in various fields of the national economy. The thesis should be able to comprehensively reflect the development of the discipline, with scientific, advanced and certain innovation. For theoretical research topics, it is required to reach a high theoretical level and innovation; for system design, system development and system application topics, it is required to have correct guiding theory, advanced realization technology, novel design, and the designed system should be realized, have practical application value and bring obvious social and economic benefits. Career direction: The graduate students trained in this specialty have a solid theoretical foundation in computer science and technology, comprehensively master the theory and engineering methods in the field of computer applications, and are well qualified for teaching, scientific research, system design, product development, application system integration and other work in institutions of higher learning, scientific research institutes, large-scale enterprises and public institutions, and high-tech industries.

2, computer software and theory

Research directions: theory of computation, algorithm theory; software engineering, middleware, intelligent software, computing environments; parallel computing, grid computing, universal computing; cryptography, information security, data theory; graphic image algorithms, visualization methods; the basis for the application of artificial intelligence; theoretical computer science other directions.

Professional characteristics: computer software and theory of computer science and technology involves the basic theories and methods, emphasizing the concepts of computation, algorithms, software, design, etc., the main areas include the theory of computation, algorithms and complexity, programming languages, software design and theory, database systems, artificial intelligence, operating systems and compilation theory, information security theory and methodology, graphical graphics and visualization computing, network-centered computing, etc.

Scientific research status: Computer Software and Theory is the key development and fast progress of our college. In recent years, it has undertaken a number of national 863, Natural Science Foundation,, and provincial and ministerial level projects. In network information security, middleware technology, parallel computing, grid computing, computer graphics and other aspects of a number of cutting-edge results. In recent years, this program has been enrolled since the early 96's, and has trained more than 50 master's degree students for the country so far. In recent years, the number of applicants and the number of admissions have increased simultaneously year by year.

Major Courses and Thesis Requirements during Master's Degree: Major Courses: Theory of Computing, Applied Combinatorial Mathematics, Software Architecture, Object-Oriented Methodology, Distributed Computer Systems, Parallel Computing, Advanced Computer Graphics, Advanced Artificial Intelligence, Pattern Recognition and Understanding, Machine Learning, Cryptography and Information Security, Unified Modeling Language. Thesis Requirements: The thesis topic involves the theoretical research of computer software, the development of cutting-edge technology, and the application research in various fields of national economy. The thesis should be able to comprehensively reflect the development of the discipline, with scientific, advanced and a certain degree of innovation. For theoretical research topics, it is required to achieve a high theoretical level and innovation; for system design, system development and system application topics, it is required to guide the correct theory, advanced technology, novel design, and the designed system should be able to be put into practice, with practical application value and can bring obvious social and economic benefits.

Career direction: this specialty cultivates graduate students with a solid theoretical foundation in computer science and technology, a comprehensive mastery of the theoretical approach to computer software, and software engineering, information systems, parallel computing, popular computing and other software system development technology, can be well qualified for institutions of higher learning, scientific research institutes, large-scale enterprises and public institutions, high-tech industries, such as teaching, research, system design, product development, application system integration, and so on. The program is designed to be used in teaching, scientific research, system design, product development, and application system integration.

3, computer system structure

Research direction: distributed computer systems, computer network systems and global personal computing systems, real sense of graphics generation and virtual reality technology

Professional characteristics: computer system structure (formerly known as the computer organization and system structure), a comprehensive study of all types of computer systems (from stand-alone to the network) of the composition, Hardware and software connection and function matching, computer system performance evaluation and improvement. Research topics in the program include high-performance processor system architecture, multi-computer systems, parallel and distributed computing systems, computer system performance evaluation, VLSL design, fault-tolerant computing technology, computer interface technology, computer network systems and communication systems, mobile computing, and global personal computing systems.

Scientific research status: In recent years, the program has undertaken a number of projects of the State Science and Technology Commission, the State Education Commission, the State Planning Commission and the Natural Science Foundation of Tianjin, and has won a number of awards for scientific research. Among them, G.T9112 computer decryption system was awarded the second prize of scientific and technological progress by Beijing Municipal Public Security Bureau, and CAM of highly complex entities on the surface was awarded the second prize of scientific and technological progress by State Science and Technology Commission. Currently, he is responsible for the National Natural Science Foundation of China's "Research on Realistic Graphics Algorithms and System Architecture for ASIC", the National High-Tech 863 Project "Distributed Multi-User Virtual Reality System for Simulation Design of Built Environment", and the Tianjin Natural Science Foundation's "Distributed Multi-User Virtual Reality System for Simulation Design of Built Environment". The project "Distributed Multi-User VR Development System Platform Research" and a large number of horizontal scientific research projects for enterprises and institutions.

In recent years, the enrollment of this program has been started since the early 80's, and more than 50 master's degree students have been trained for the country so far. In recent years, the number of applicants and the number of admissions have increased simultaneously year by year.

Major Courses and Thesis Requirements during Master's Degree: Major Courses: Applied Mathematics, Foreign Languages, Higher Computer Networks, Queuing Theory and its Application in Computers, Theory of Computing, Modern Computer Architecture, Comprehensive Experiments on Computers, Computer Control and Applications, Hot Issues in Computer Network Research, Computer System Simulation, Quantum Computing, Cryptography and Information Security, Object-Oriented Methodology, Embedded System Design, Unified Modeling Language, Image/Pattern Recognition and Understanding, Machine Learning, Software Architecture.

Thesis Requirements: The thesis topic involves theoretical research on computer system architecture, development of cutting-edge technologies, and application research in various fields of national economy. The thesis should be able to comprehensively reflect the development of the discipline, with scientific, advanced and certain innovation. For theoretical research topics, it is required to reach a high theoretical level and innovation; for system design, system development and system application topics, it is required to have correct guiding theories, advanced realization technology, novel design, and the designed system should be able to be put into practice, have practical application value and be able to bring about obvious social and economic benefits.

Career direction: this specialty cultivates graduate students with a solid theoretical foundation in computer science and technology, a comprehensive mastery of computer system architecture, computer engineering, network engineering, embedded systems and other application development technology, and can be well qualified for institutions of higher learning, research institutes, large-scale enterprises and public institutions, high-tech industries, such as teaching, scientific research, system design, product development, application, system integration and other work. The program is designed to be used in the teaching, research, system design, product development, application and system integration of higher education institutions, large enterprises and institutions, and high-tech industries.

Computer System Architecture 02 Network and Information Security

04 Computer Communication, Information Security, Multimedia Signal Processing 05 Graphic Image Processing Technology

07 Computer Graphic Image Processing Technology, Embedded Systems 09 Computer Networks and Graphic Image Processing 10 Computer Networks and Information Processing

11 Input/Output Technology and Devices, Image Processing and Image Understanding 12 Information Processing Technology, Image Processing and Image Comprehension Image Processing and Image Understanding 12 Information Security Theory and Technology, Embedded Systems 13 Network Security

14 Information Security and Coding

15 Network Security and Network Computing 16 Graphics and Peripherals

17 Computer Input/Output Technology and Devices, Graphics and Image Processing and Understanding Examination Subjects:

①101 Political Theory②201 English③301 Mathematics(3) 201 English ③ 301 Mathematics (1) ④ 431 Computer Fundamentals (Computer Fundamentals includes 45 points of discrete mathematics; 45 points of data structure; 60 points of the principle of computer composition) Computer Software and Theory 02 Object-Oriented Technology

04 Software Security and Compiler Architecture 06 Distributed Computing and Internet Technology

08 Parallel and Distributed Computing, Bioinformatics Algorithms 09 Software Engineering, Information Systems 10 Software Theory and Applications

11 Highly Trustworthy Software Technology, Internet Computing and Internet Software, Programmable Chip Support Software and Embedded Systems

12 Software Testing and Self-Evolutionary Techniques 14 Program Understanding, Software Re-Engineering

15 Theory, Methods and Applications of Computational Intelligence

16 Highly Trusted Software Technology, Internet Computing and Internet Software, Programmable Chip Support Software and Embedded Systems