Direction 1: embedded system engineering
Training objective: To follow the principle of "industry development oriented, talent training oriented", according to the current and future development needs of embedded software industry and its closely related electronic information industry, focusing on embedded system software development, to cultivate students' software development, software and hardware testing and system maintenance skills in the embedded field, and to provide high-tech applied talents with embedded software development, product testing and technical support for the society.
Positioning: Embedded system is a special computer system which is application-centered, based on computer technology, and its software and hardware can be tailored. It is suitable for application systems with strict requirements on function, reliability, cost, volume and power consumption. Embedded system technology has a very broad application prospect, and its application fields can include: industrial control, traffic management, information appliances, home intelligent management system, e-commerce, environmental engineering, nature, robots and so on.
Professional features: Feature 1: Practical training environment of school-enterprise cooperation. This major has cooperated with IDETCO and established a long-term school-enterprise cooperation relationship. * * * It also provides a corporate training and teaching environment, and students can participate in the actual project development during their study. The training environment of the engineering training room center can link the learned knowledge with practice in time. Feature 2: the training mode of theory (2 years)+practice (1 year). This major adopts two-year theoretical study and 1 year practical training, with students as the main body and employment as the guidance. Move the working scene, working mode and workflow of the enterprise to the experimental class, and what you learn now is what you will do in the future, so that students can become "ready-to-use" high-skilled and high-quality applied talents.
Main courses: advanced mathematics, discrete mathematics, probability statistics, circuits, analog circuits, digital circuits, C language programming, data structure, assembly language programming, microcomputer principle and interface technology, computer composition principle, single chip microcomputer and CPLD technology, micro-processing structure and application, C language programming under Linux, application foundation of Linux system, QT programming, Android programming, embedded system instance development, digital signal processing, EDA technology, etc.
Employment direction: graduates can take the college entrance examination and continue their undergraduate studies; Can also be engaged in computer and electronic technology, IT, communications, military, industrial control, electronic equipment and other fields of product development, production, testing, maintenance, sales, technical support, consulting and other work.
Direction 2: Mobile Communication Engineering
Training objective: To train applied technical talents who have mastered the basic theory, basic knowledge, basic skills and methods of mobile communication, practical design and maintenance ability of communication equipment and mobile communication terminal system, modern communication technology, computer application ability and signal processing ability. Through systematic professional study and training, students' professional technical knowledge and professional operation skills develop in a balanced way and their comprehensive technical quality is improved.
Direction introduction: Mobile communication is the largest and most promising industry in the communication industry. Wireless communication technology is the core and key of mobile communication technology. How to use advanced technology and products to solve technical problems in wireless transmission by network optimization is an important work in the mobile communication industry, which will be accompanied by the continuous deepening of the operation process of mobile communication systems and require a large number of engineers and technicians.
Professional features: Feature 1: A professional system driven by industry demand and oriented by the training of engineering applied talents. Feature 2: School-enterprise cooperation training and practice environment, using technology synchronized with the actual project for teaching and training. Feature 3: Rich training programs, theory (2 years)+training (1 year).
Main courses: English, advanced mathematics, college physics and experiment, circuit analysis, analog electronic technology, digital electronic technology, introduction to modern communication technology, wireless communication technology foundation, mobile communication technology, electronic measurement technology and instruments, microwave measurement technology and instruments, RF/microwave engineering technology foundation, and RF engineering foundation of mobile communication network optimization. Electronic measurement technology and instrument training, microwave measurement technology and instrument training, RF/microwave engineering technology basic training, mobile communication network optimization RF engineering basic training, communication product curriculum design training.
Employment direction: graduates of this major are suitable for network operation and maintenance, equipment maintenance and other work in mobile communication operation companies; Engaged in network optimization RF coverage system engineering, mobile communication network engineering and operation and maintenance work in mobile communication engineering company; Engaged in communication engineering design, construction, testing, inspection and supervision in communication engineering company; Engaged in the debugging, measurement and inspection of microwave products in radio equipment manufacturers.
Direction 3: Network technology
Training objectives: to train students to skillfully use the knowledge and skills of this major, and to engage in the establishment, management and maintenance of local area networks and wide area networks, the analysis and description of network requirements, and the planning and implementation of network systems; Analyze network protocols, implement topology design, optimize and debug equipment performance, design network database, build enterprise intranet independently, install, debug and maintain various network equipment and servers-Web server, mail server, database server, etc. , and multi-protocol interconnection; Cultivate students to master independent network application skills such as designing and making WEB pages and developing web applications, have the basic ability to read English materials of this major, and have good scientific literacy and professional ethics.
Direction: This direction focuses on training students to become network engineers, and the learning method focuses on network training. Through systematic study of networking technology, integrated wiring technology, computer system knowledge and related knowledge of mainstream operating systems of local area network and wide area network, students can master advanced network technology and professional skills, skillfully apply the current popular operating system configuration and management network environment, carry out daily maintenance of enterprise networks, and build and maintain various servers within enterprises. , and can master the basic knowledge and professional skills of website construction and management, and is a practical professional with certain knowledge of network information security.
Professional features: Features 1: Broad employment prospects. Network technology has penetrated into all aspects of people's lives like mercury, and has been widely integrated with traditional industries. The application of network technology has been everywhere. Feature 2: adopt a student-centered and employment-oriented work scene talent training method. Move the working scene, working methods and workflow of the enterprise to the classroom, so that students can learn what to do in the future and become "ready-to-use" high-skilled and high-quality applied talents. Feature 3: We will strengthen cooperation with large network companies, introduce relevant technical certification, provide a good learning environment for any student who wants to obtain the highest gold content certification in the industry, and customize students according to their interests and specialties.
Main courses: (English, advanced mathematics, linear algebra, C language programming, microcomputer principle, data structure) [continuation of this course], operating system, computer network, computer composition principle, Windows operating system, Linux operating system, network construction and management, database technology, website design, Java programming, hacker attack and defense, integrated wiring, virus and anti-virus technology, professional quality and communication, computer English.
Employment orientation: graduates of this major can go to energy, finance, large-scale manufacturing, government and other related enterprises and institutions to engage in the design, development, operation management and maintenance of network application systems; Engaged in the marketing, pre-sales and after-sales service of software products related to network application systems; Engaged in teaching and scientific research in various schools. Positions include system engineer, software engineer, database development engineer, technical support/maintenance engineer, product engineer, etc. You can also apply for undergraduate courses in this major or related majors.