Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 080905
Training objectives
Training objectives
Training objectives: This major cultivates advanced engineering and technical personnel who are all-round developed morally, intellectually and physically, master the basic knowledge of mathematics and other related natural sciences, as well as the basic theories, basic knowledge, basic skills and basic methods of computers, communications and sensors related to the Internet of Things, have strong professional ability and good foreign language application ability, and can be competent for the research and development of related technologies of the Internet of Things and the planning, analysis, design, development, deployment, operation and maintenance of the Internet of Things application system.
Training requirements:
1. Master the basic theories of Marxism-Leninism, Mao Zedong Thought and Socialism with Chinese characteristics, have good humanities and social sciences, professional ethics and psychological quality, and have a strong sense of social responsibility;
2. Master mathematics and other related natural science knowledge and some knowledge of economics, management and engineering;
3. Systematically master the basic theoretical knowledge and professional knowledge of the Internet of Things, understand the basic concepts, knowledge structures and typical methods, understand the relationship between the physical world and the digital world, and have the core professional consciousness of integrating perception, transmission and processing;
4. Master the basic thinking methods and research methods of the Internet of Things technology, have good scientific literacy and a certain sense of engineering, and have the ability to comprehensively apply the knowledge, methods and technologies mastered to solve practical problems;
5. Have the awareness of lifelong learning and the ability to use modern information technology to obtain relevant information, new technologies and new knowledge;
6. Understand the development status and trend of the Internet of Things, and have the initial ability of technological innovation and product innovation;
7. Understand the important laws, regulations, principles and policies of occupations and industries related to this major, and understand the basic requirements of engineering technology ethics;
8. Have certain organizational and management skills, expression skills, independent work skills, interpersonal skills and teamwork skills;
9. Have a preliminary ability to apply foreign languages, be able to read foreign language materials of this major, and have a certain international vision and cross-cultural communication, competition and cooperation capabilities;
10. Master the general knowledge and basic methods of sports and form good physical exercise habits.
Main subjects: computer science and technology, electronic science and technology, communication engineering.
Core knowledge fields: Internet of Things technical system, identification and perception, Internet of Things communication, Internet of Things data processing, Internet of Things control, Internet of Things information security, Internet of Things engineering design and implementation, etc.
Examples of core courses (theoretical class hours+experiment or practice class hours in brackets):
Example 1: introduction to internet of things engineering (18 class), internet of things communication technology (45+18 class), RFID principle and application (45+ 18 class), sensor principle and application (45+18 class) Internet of Things data processing (54 hours), Internet of Things middleware design (27+18 hours), Internet of Things application system design (54 hours), embedded system and design (45+18 hours), sensor micro-operating system principle and design (36+36 hours), Internet of Things control principle and technology (45 hours)
Example 2: Introduction to Internet of Things Engineering (30 hours), Internet of Things Algorithm Foundation (60+15 hours), Internet of Things Hardware Foundation (60+ 15 hours), Sensor Network and Micro-operating System (45+15 hours), Internet of Things Security and Privacy (30 hours). JAVA programming (30+15 class hours), IOT mobile application development (20+10 class hours), logistics management information system (30+ 15 class hours), RFID system (30 class hours), IOT embedded system development (20+10 class hours)
Example 3: Introduction to Internet of Things Engineering (18 class hours), Internet of Things Architecture (40 class hours), Sensor Principle and Application (36+ 10 class hours), Internet of Things Data Processing (40+ 10 class hours), Embedded System Principle (40+10 class hours) Internet of Things application system design (50 hours), Internet of Things communication technology (40+14 hours), RFID and smart card technology (40+14 hours), Internet of Things control technology and application (40+ 14 hours), Internet of Things information security (40+/kloc-) Network planning and design (40+14 hours), data warehouse and data mining (40+ 10 hours), information system analysis and integration (40+ 14 hours), software integration and service calculation (40+ 10 hours).
Main practical teaching links: course experiment, course design, professional practice and graduation design (thesis).
Main professional experiments: sensor experiment, sensor network experiment, Internet of Things communication experiment, Internet of Things data processing experiment, Internet of Things engineering planning and design experiment.
Length of study: four years.
Degree awarded: Bachelor of Engineering.
Professional ability requirements
Professional ability requirements
The main contents of professional teaching
The main contents of professional teaching
Embedded principle and application, wireless sensor network, assembly language and microcomputer principle, sensor micro-operating system principle and design, applied cryptography, photoelectric physics foundation, analog electronic technology, digital modeling, microprocessor system design, and Internet of Things information processing technology train the following professional directions: Internet of Things in e-commerce, mobile embedded.
Major (skill) direction
Major (skill) direction
IT enterprises: Internet of Things engineering, Internet of Things system design architecture, Internet of Things application system development, physical network system management, network application system management, Internet of Things equipment technical support, cloud computing.
Example of vocational qualification certificate
Example of vocational qualification certificate
Examples of continuing learning majors
Employment direction
Employment direction
Employment Prospects of Internet of Things Major
At present, among the undergraduate majors of strategic emerging industries approved by the Ministry of Education, there are three majors related to Internet of Things technology: Internet of Things Engineering, Sensor Network Technology and Smart Grid Information Engineering. These three majors have been enrolled for the first time since 20 1 1, and there are no graduates so far. So we can't judge the future employment situation from the employment rate in previous years, but we can understand the future employment situation of this major from the overall development trend of the industry and the demand of the talent market.
As a strategic emerging industry advocated by the state, the Internet of Things has attracted much attention from all walks of life and become a hot field with broad employment prospects, making the Internet of Things a new major that major universities are competing to apply for. Mainly employed by enterprises and industries related to the Internet of Things, from the design, development, management and maintenance of communication architecture, network protocols and standards, wireless sensors and information security. You can also engage in scientific research and teaching in universities or scientific research institutions. In order to develop the Internet of Things technology in the future, we need to make breakthroughs in information collection, improvement, chip promotion and program algorithm design, and the key to this is how to cultivate talents. Boswell also pointed out that on the whole, the Internet of Things industry is in great need of talents.
Corresponding occupation (post)
Corresponding occupation (post)
Other information:
Internet of Things is a newly established major in China, so graduates majoring in Internet of Things will be supported by national policies to some extent. To develop the Internet of Things industry, a large number of Internet of Things professionals are definitely needed. Therefore, on the whole, the employment prospects of graduates majoring in Internet of Things are still good. In addition, under the guidance of relevant national policies, local government departments have also carried out projects related to the Internet of Things, requiring a large number of professionals in the Internet of Things. It can be predicted that graduates majoring in Internet of Things will have less pressure on employment competition than students majoring in other fields. But at present, most students majoring in Internet of Things rarely register with companies in the Internet of Things industry when they are looking for jobs, and most of them still go to companies such as automation and communication, and most of the work they do has nothing to do with the Internet of Things. When many companies recruit talents majoring in the Internet of Things, the main requirements are still biased towards programmers. Most newly graduated college students can't meet the requirements in terms of experience or experience. This is also the reason why most graduates majoring in Internet of Things do not choose to engage in this industry.