(1) software design and development direction

Training goal: to train professionals who are suitable for working as software engineers, software test engineers and programmers in IT enterprises.

Main courses: advanced mathematics, linear algebra, probability theory and mathematical statistics, electrician foundation, advanced programming language, assembly language, discrete mathematics, data structure, C++ programming, SQLserver development, algorithm analysis and design, software engineering, etc.

(2) the development direction of computer network technology.

Training goal: to train professionals suitable for network construction and network management of IT enterprises.

Main courses: advanced mathematics, linear algebra, probability theory and mathematical statistics, electrician foundation, advanced programming language, assembly language, computer network technology, network operating system, network security technology, network database, computer network management, TCP/IP technology, etc.

(3) Microcomputer system and structural direction

Training goal: to train professionals who are suitable for IT enterprises to engage in hardware design and manufacturing, single chip microcomputer application, electronic circuit design, computer maintenance and other work.

Main courses: advanced mathematics, linear algebra, probability theory and mathematical statistics, electrician foundation, advanced programming language, assembly language, computer composition and structure, microcomputer fault diagnosis and maintenance, microcomputer principle and interface technology, electronic circuit design, single chip microcomputer principle and application, etc.

2, electronic information engineering (automation direction) (four-year undergraduate)

Training goal: to train professionals who are suitable for electronic information technology and engineering technology, engaged in applied research and technology development, or engaged in modern electronic equipment manufacturing and technical services.

Main courses: advanced mathematics, linear algebra, engineering graphics, college physics, circuit analysis, analog circuit, digital circuit, advanced programming (C), microcomputer principle and interface technology, automatic control principle, modern control technology, modern detection technology and instrument, programmable logic device principle and application, single chip microcomputer principle and application, electronic circuit CAD, etc.

3, mathematics and applied mathematics (four-year undergraduate. Normal class)

Training goal: to train specialized talents who can engage in mathematics education in primary and secondary schools and mathematics application in other industries.

Main courses: mathematical analysis (1, 2, 3), advanced algebra and analytic geometry (1, 2), college physics, mathematical modeling, computational mathematics, complex variable function theory, ordinary differential equations, probability theory, mathematical experiments, advanced geometry, mathematical statistics, modern algebra, operational research and elementary number theory.

4, automobile service engineering (automobile service marketing direction, automobile inspection and maintenance direction) (four-year undergraduate)

Training goal: to train professionals who can engage in modern automobile marketing, management, automobile inspection and maintenance technical services in related vehicle manufacturing enterprises, maintenance enterprises, vehicle and parts marketing enterprises and insurance companies.

The main courses are advanced mathematics, engineering applied mathematics, college physics, theoretical mechanics, material mechanics, electrical and electronic technology foundation, engineering materials, mechanical drawing, mechanical manufacturing, mechanical design, automobile structure, hydraulic transmission, automobile manufacturing technology, automobile maintenance and fault diagnosis.

(1) Automobile Service Marketing Direction

Main courses: automobile credit insurance and claim settlement, automobile evaluation practice, modern automobile marketing, automobile logistics, automobile e-commerce, international trade of automobile products, automobile market investigation and analysis, etc.

(2) Direction of automobile inspection and maintenance

Main courses: automobile performance and testing technology, automobile electrical and electronic technology, automobile engine and chassis theory and maintenance technology, automobile maintenance and beauty, automobile after-sales service, automobile maintenance quality testing and evaluation, automobile body sheet metal and painting technology, etc.

5. Landscape Architecture (four-year undergraduate course)

Training objective: to train professionals who can engage in the planning, design, construction, garden plant breeding, cultivation, maintenance and management of scenic spots, forest parks and various garden green spaces in urban construction, landscape architecture and forestry departments, garden companies, flower enterprises, architectural landscape design companies, universities and research institutes.

Main courses: advanced mathematics, college physics, landscape dendrology, floristry, landscape ecology, ornamental plant genetics and breeding, landscape art, landscape design of garden plants, prevention and control of garden plant diseases and insect pests, preliminary design, architectural surveying, building structure and construction, landscape engineering, landscape architecture, garden economic management, etc.

6, mechanical design and manufacturing and automation (four-year undergraduate)

Training objective: to train applied talents who are familiar with modern mechanical science and technology, have the basic theory, professional knowledge and application ability of modern mechanical manufacturing and automation, and can engage in the development, design and manufacture, operation management, equipment maintenance and marketing of mechanical products in industrial enterprises.

Main courses: advanced mathematics, English, general physics, mechanical drawing, theoretical mechanics, material mechanics, electrical and electronic technology, mechanical principle, mechanical design, engineering materials, computer application foundation, computer-aided design, mechanical manufacturing technology, interchangeability principle and detection technology, electromechanical control and automation, metal cutting principle and tool design, machine tool fixture design, electromechanical integration technology, finite element method foundation and application, electromechanical integration technology.

7, computer application technology (junior college)

Training goal: to train professionals who are suitable for all kinds of IT companies to engage in computer software-related work such as software development and design, software testing and maintenance.

Main courses: advanced mathematics, linear algebra, electrical engineering, discrete mathematics, advanced programming language, computer composition and structure, data structure, algorithm analysis and design, assembly language, software engineering, database principle, etc.

8, computer communication (network communication direction) (junior college)

Training goal: to train professionals who are suitable for IT enterprises to engage in the application, maintenance and management of computer networks and communication systems.

Main courses: advanced mathematics, linear algebra, electrical engineering, discrete mathematics, probability and mathematical statistics, digital logic, computer composition and structure, assembly language, computer network technology, digital signal processing, network operating system, network database, computer network and communication, computer network management, TCP/IP technology, etc.

9, electronic technology application (automation direction) (junior college)

Training objective: To train professionals who are suitable for designing, operating and maintaining electronic devices related to power systems, intelligent measurement and control systems, computers and automatic control devices, and electronic and electrical engineering, information processing and experimental analysis.

Main courses: advanced mathematics, linear algebra, complex variable function and integral transformation, probability and mathematical statistics, college physics, electrician foundation, analog circuit, digital circuit, signal and system, microcomputer principle and interface technology, sensor technology, digital signal processing, process detection and instrument, automatic control principle, etc.

10, Automotive Technical Service and Marketing (junior college)

Training goal: to train applied technical talents who can engage in modern automobile production, marketing, maintenance technical service and after-sales service in related vehicle production enterprises, maintenance enterprises, vehicle and parts sales companies and insurance companies.

Main courses: advanced mathematics, college physics, mechanical drawing, engineering materials, mechanical manufacturing foundation, mechanical design foundation, electrician and electronic technology, automobile marketing technology, automobile electrical equipment, automobile structure, automobile performance and testing technology, automobile maintenance and fault diagnosis, marketing, automobile enterprise management, automobile e-commerce, automobile business English, public relations, accounting foundation, etc.

1 1, machinery manufacturing and automation (junior college)

Training goal: to train applied technical talents who can engage in machinery manufacturing, equipment maintenance, operation management and marketing management in industrial enterprises and mechanical product marketing enterprises.

Main courses: advanced mathematics, college physics, engineering mechanics, electrical and electronic technology, mechanical drawing, engineering materials, mechanical manufacturing foundation, mechanical design foundation, mechanical principle, mechanical parts, mechanical technology, numerical control technology and application, interchangeability principle and detection technology, metal cutting principle and tool design, machine tool fixture design, mechanical equipment electrical automatic control, hydraulic transmission and control, computer-aided design, enterprise management, etc.

12, architectural design technology (junior college)

Training goal: to train applied technical talents who can engage in multi-storey building design, architectural decoration design, environmental landscape design, project budget and related management and construction in the construction industry.

Main courses: advanced mathematics, architectural physics, architectural mechanics, architectural art (sketch, color), architectural drawing and shadow perspective, architectural design (I), architectural design (II), decoration design, interior design, architectural landscape design, computer-aided design (CAD, Tianzheng architecture, 3DMAX, Photoshop), building materials and detection, building structure, building structure and selection.

13, architectural decoration engineering technology (three-year junior college)

Training objective: to train engineers and technicians who master the basic theories, knowledge, skills and methods of architectural decoration engineering design and construction technology, and can organize, manage and implement architectural decoration construction, project budget and supervision.

Main courses: advanced mathematics, architectural decoration art (sketch, color), architectural drawing and shadow perspective, architectural mechanics, architectural physics, architectural design foundation, architectural decoration design principle, architectural fire prevention design, architectural engineering supervision, building regulations, architectural design, architectural decoration design, architectural structure and selection, architectural engineering budget, architectural decoration materials and testing, architectural decoration construction and organization, and architectural equipment and installation.