Basic Academic Structure: 4 years | Admission Object: | Education: Junior College | Specialty Code: 080905

Cultivation Objectives

Cultivation Objectives

Cultivation Objectives: This major cultivates the all-around development of morals, intellect, and physical fitness, and the mastery of basic theories, basic knowledge, basic skills, and basic methods of mathematics, other related natural sciences, as well as computer and communication and sensing related to Internet of things, with strong professional ability and good ability to use foreign languages. This program aims to cultivate senior engineering talents who are capable of mastering 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 sensing related to the Internet of Things (IoT), who are capable of research and development of IoT-related technologies, and who are capable of planning, analyzing, designing, developing, deploying, and operating and maintaining IoT application systems with strong professional ability and good ability to use foreign languages.

Cultivation requirements:

1. Master the basic theories of Marxism-Leninism, Mao Zedong Thought and Socialism with Chinese Characteristics, and have good humanities and social sciences literacy, professional ethics and psychological qualities, as well as a strong sense of social responsibility;

2. Master the knowledge of mathematics and other related natural sciences and a certain degree of knowledge of economics, management and engineering sciences required to engage in the work of this specialty.

3. Master the basic theoretical knowledge and professional knowledge of Internet of Things, understand the basic concepts, knowledge structure, typical methods, understand the connection between the physical world and the digital world, and have the core professional awareness of the integration of sensing, transmission, and processing;

4. Master the basic thinking method and research method of Internet of Things technology, have good scientific literacy and a certain degree of engineering awareness, and have the ability to comprehensively apply the mastered knowledge.

5. Have the consciousness of lifelong learning and the ability to use modern information technology to obtain relevant information and new technologies and knowledge;

6. Understand the current situation and trend of the development of the Internet of Things, and have the preliminary ability of technological and product innovation;

7. Understand the important laws and regulations related to the profession and industry. Understand the important laws and regulations and policies of the profession and industry related to this major, and understand the basic requirements of engineering ethics;

8. Have certain organizational and management ability, expression ability, independent work ability, interpersonal ability and teamwork ability;

9. Have preliminary foreign language application ability, be able to read foreign language materials in the field, and have a certain degree of international outlook and cross-cultural communication, competition and cooperation ability;

9. Have preliminary foreign language application ability, and be able to read foreign language materials in the field, and have certain international outlook and cross-cultural communication and cooperation ability;

10.

10. To master the general knowledge and basic methods of physical exercise, and to form a good habit of physical exercise.

Main disciplines: computer science and technology, electronic science and technology, communication engineering.

Core knowledge areas: Internet of Things (IoT) technology system, marking and sensing, IoT communication, IoT data processing, IoT control, IoT information security, IoT engineering design and implementation.

Examples of core courses (hours of theory in parentheses + hours of experiments or exercises):

Example 1: Introduction to Internet of Things Engineering (18 hours), Internet of Things Communication Technology (45 + 18 hours), RFID Principles and Applications (45 + 18 hours), Sensor Principles and Applications (45 + 18 hours), Sensor Network Principles and Applications (45 + 18 hours), Software Design for the Internet of Things (27 + 18 hours). Internet of Things Software Design (27 +18 hours), 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 Microsystems Principles and Design (36 +36 hours), Internet of Things Control Principles and Techniques (45 +18 hours), Internet of Things Positioning Technology (45 +18 hours), Internet of Things Positioning Technology (45 +18 hours). Technology (45 +18 hours), Internet of Things Information Security (45 +18 hours), Internet of Things Engineering Planning and Design (36 hours), Computer Networks (54 hours).

Example 2: Introduction to Internet of Things Engineering (30 hours), Fundamentals of Internet of Things Algorithms (60 +15 hours), Fundamentals of Internet of Things Hardware (60 +15 hours), Sensor Networks and Microsystems (45 +15 hours), Security and Privacy in Internet of Things (30 hours), Development of Wireless Microcontrollers and Protocols (60 +15 hours), Programming in JAVA (30 +15 hours), Mobile Applications in Internet of Things. (30+15 hours), IoT mobile application development (20+10 hours), logistics management information system (30+15 hours), RFID system (30 hours), IoT embedded system development (20+10 hours), multi-sensor data fusion technology (60 hours), cloud computing (30 hours), IoT and intelligent thinking (30 hours), mobile human-computer interaction technology (30 hours), social computing (30 hours), and social computing (30 hours). Social Computing (30 hours).

Example 3: Introduction to IoT Engineering (18 hours), IoT Architecture (40 hours), Principles and Applications of Sensors (36+10 hours), IoT Data Processing (40+10 hours), Principles of Embedded Systems (40+12 hours), IoT Engineering Planning and Design (40+10 hours), IoT Application Design (50 hours), IoT Communication Technology (40+14 hours). Communication Technology (40+14 hours), RFID and Smart Card Technology (40+10 hours), IoT Control Technology and Application (40+14 hours), IoT Information Security (40+14 hours), Sensor Networks and Applications (40+14 hours), Network Planning and Design (40+14 hours), Data Warehousing and Data Mining (40+10 hours), Information Systems Analysis and Integration (40+14 hours). Analysis and Integration of Information Systems (40 + 14 credit hours), Software Integration and Service Computing (40 + 10 credit hours).

Major practical teaching links: course experiments, course design, professional internship, graduation design (thesis).

Major experiments: sensor experiment, sensor network experiment, Internet of Things communication experiment, Internet of Things data processing experiment, Internet of Things project planning and design experiment.

Year of study: four years.

Degree: Bachelor of Engineering.

Occupational Ability Requirements

Occupational Ability Requirements

Major Content of Specialized Teaching

Major Content of Specialized Teaching

Embedded Principles and Applications, Wireless Sensor Networks, Principles of Assembly Language and Microcomputer, Sensor Microsystem Operating System Principles and Design, Applied Cryptography, and Physical Fundamentals of Opto-electronics, Analog Electronics Technology, Digital Modeling, Microprocessor System Design, Internet of Things Information Processing Technology Some colleges and universities train in the following specialized directions: e-commerce Internet of Things, Mobile Embedded, Intelligent Robotics, Internet of Things Big Data Acquisition and Analysis.

Professional (Skill) Direction

Professional (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 Device Technical Support, Cloud Computing.

Examples of professional qualifications

Examples of professional qualifications

Examples of further study majors

Employment Direction

Employment Direction

Employment Prospects for IoT Majors

At present, undergraduate majors in strategic emerging industries in higher education institutions approved and set up by the Ministry of Education include "Internet of Things Engineering", "Sensor Network Technology" and "Smart Grid Information Engineering" are three majors related to Internet of Things technology. These three majors only began to enroll for the first time in 2011, so far there are no graduates, so it is not possible to judge the future employment situation from the employment rate in previous years, but from the overall development trend of the industry and the demand of the talent market and other aspects of the future employment situation of the profession.

As an emerging strategic industry advocated by the state, the Internet of Things (IoT) has been highly valued by all walks of life and has become a popular field with broad employment prospects, making IoT a new specialty for which colleges and universities are competing to apply, and it is mainly employed in IoT-related enterprises and industries, from the IoT to the design, development, management, and maintenance of the communication architecture, network protocols and standards, wireless sensors, information security, etc., and can also work in universities or scientific research institutions in the design, development, management, and maintenance of IoT. It can also be engaged in scientific research and teaching in colleges and universities or scientific research institutions. The future development of IoT technology requires breakthroughs in information collection, improvement, chip promotion, program algorithm design, etc., and the key to achieving these is how to train talents. Parsons Brinckerhoff also pointed out that, as a whole, the Internet of Things industry is in great need of talent.

Corresponding Occupations (Positions)

Corresponding Occupations (Positions)

The Internet of Things major learns Introduction to the Internet of Things, Electronic Circuits, Introduction to Sensor Technology, Embedded Systems, Software for the Internet of Things, Standards and Middleware Technology, Linear Algebra, Probability Statistics and other courses. What courses do IoT majors study Basic subjects: college English, college physics, advanced mathematics, C language program and design, linear algebra, probability statistics and so on. Specialized subjects: Introduction to Internet of Things, Electronic Circuits, Introduction to Sensor Technology, Introduction to rfid Technology, TCP-IP Protocols, Embedded Systems, Internet of Things Software, Standards and Middleware Technology, Introduction to M2M, JAVA and so on. These specialized subjects are the mainstream subjects of IoT engineering, but different schools use this as a basis, and the subjects taken may be different from those mentioned above. Internet of things professional employment prospects In the face of the current employment difficulties of college graduates, the Internet of things field is in urgent need of related professional talents, while the Internet of things industry prospects, which is also an important reason for the popularity of college majors. From the point of view of the Ministry of Industry and Information Technology and all levels of government planning, the Internet of things in the next ten years will usher in the peak of its development. The Internet of Things technology talent is also bound to "marry" belonging to it a good time.