School of Information and Communication Engineering Academics Undergraduate Content
December 5, 2023
Electronic Information Engineering

1. Electronic Information Engineering

(1) Introduction

Hainan University set up the undergraduate major of Electronic Information Engineering in 1998, dating back to the Applied Electronics Technology major set up in 1985. In 2020, the undergraduate major of Electronic Information Engineering was approved as a national first-class undergraduate major construction site. The major follows the standard of engineering education professional certification and carries out construction in the mode of talent cultivation of new engineering disciplines, and enrolls students in the major category of communication engineering major. In accordance with the basic principle of "wide scope, thick foundation, strong ability and high quality", the major adopts the cultivation mode of "1+3" where students are required to study general education courses, basic engineering courses and basic courses of major categories in the first year, and professional courses according to their interests and specialties in the second year.

Major Code: 080701

Major Name: Electronic Information Engineering

Main Discipline: Information and Communication Engineering

(2) Academic System and Degree

The basic academic system is 4 years. This major adopts a flexible system of 3-6 years.

Students having completed the courses stipulated in the professional training programwith passing grades are qualified to graduate. The Bachelor of Engineering is conferred upon those who have fulfilled the prescribed requirements.

(3) Training Objectives

Oriented to the talent demands for national strategy, regional economic and social development and information development and rooted in the educational idea of fostering virtue through education, this major aims to cultivate compound senior professional technicians with sound personality, broad knowledge base and professional proficiency, who have a sense of social responsibility, international vision, innovative ability, grasp basic and professional knowledge of mathematics, possess good engineering application skills, systematic thinking and continuous learning skills, and have the ability to engage themselves in research, design, development, management, maintenance and technical support in the electronic information engineering and related fields.

Graduates should be able to achieve the following objectives by approx. 5-year study:

Objective 1: Be able to identify, analyze and solve problems in engineering design, technology development and production related to electronic information, provide systematic and innovative solutions to complex engineering projects, and to become a professional technical backbone.

Objective 2: Be able to maintain a healthy body and mind and good humanistic literacy, and take the impact of society, economy, culture, laws, environment and sustainability factors into account during engineering practice, and carry out management and make decisions on actual engineering projects in accordance with engineering ethics and professional norms.

Objective 3: Be able to show inclusiveness and understand multi-culture in cross-cultural and interdisciplinary teamwork, flexibly use modern informatization tools, and organize and coordinate teams to innovatively solve important problems in engineering practice.

Objective 4: Be able to actively adapt themselves to domestic and international situations and environments with changes and the rapid development of modern information technology, and continue to expand their knowledge and abilities and broaden international outlook through continuous learning, effectively solving new problems in engineering practice.

(4) Graduation Requirements

Graduates should meet the following requirements in knowledge and ability:

Engineering Knowledge: Master basic and professional knowledge related to mathematics, physics and engineering required for engineering work in the field of electronic information, and be able to establish mathematical models for specific objects and solve them; and be able to apply the knowledge and mathematical modeling methods in deducing and analyzing complex engineering problems and comparing and integrating solutions in the field of electronic information.

Problem Analysis: Be able to identify, judge, express and analyze complex engineering problems in the field of electronic information engineering by applying basic principles and mathematical modeling methods of mathematics and physical and engineering sciences. Graduates should be able to analyze the influencing factors of a process and seek multiple solutions to a problem through literature search and research with the aim to provide valid conclusions.

Design/Development of Solutions: Master basic design/development method and technology for the whole cycle and process of engineering design and product development in the field of electronic information, and be able to design units and systems meeting specific demands in response to complex engineering problems, and innovative solutions on the premise of taking into account the impact of various factors affecting the design objectives and technology solutions, including the society, health, safety, laws, culture and environment.

Research: Be able to analyze and study complex engineering problems in the field of electronic information based on scientific principles and methods; select research routes, design experimental schemes, construct experimental systems, carry out experiments safely and collect experimental data correctly according to the characteristics of the objects; analyze and interpret the experimental results, and to obtain reasonable and effective conclusions through information integration.

Use of Modern Tools: Have the ability to develop, select and use appropriate techniques, resources, modern engineering tools, information technology tools and professional simulation software to carry out analysis, computation and design, and conduct predictions, simulations and measurement of complex engineering problems in the field of Electronic Information Engineering, and to understand limitations thereof.

Engineering and Society: Be able to make reasonable analysis based on relevant background knowledge of electronic information engineering major, evaluate the impact of engineering practice and solutions to complex engineering problems on society, health, safety, law and culture, and to understand the responsibilities to be assumed.

Environment and Sustainable Development: Be able to understand the concepts and connotations of environmental protection and sustainable development, and to evaluate the impacts of engineering practices with complex engineering problems in the field of electronic information engineering on sustainable development of the environment and society.

Professional Norms: Have good literacy in humanities and social sciences and strong sense of social responsibility and be able to understand and comply with professional ethics and norms and fulfill a duty in electronic information engineering practice.

Individuals and Teams: Be able to assume the responsibilities of individuals, team members and persons in charge in teams made up of talents in different fields.

Communication: Be able to effectively conduct communication and interaction on complex engineering issues in the field of electronic information with industry partners and the public, including writing reports and designing manuscripts, presenting statements, and articulating or responding to instructions. Graduates should develop an international perspective and be able to communicate and interact in an intercultural context.

Project Management: Master engineering management principles and economic decision-making methods, understand important economic and managerial factors involved in engineering activities in the field of electronic information engineering and be able to apply them in a multidisciplinary environment.

Lifelong Learning: Have the awareness of autonomous and lifelong learning, and be able to track development dynamics in the field of electronic information and keep on learning and adapt to development.

(5) Professional Core Courses

Principles of Electric Circuits, Analog Electronic Technology, Digital System Design, Signals and Systems, Electromagnetic Fields and Electromagnetic Waves, Communication Electronic Circuits, Digital Signal Processing, Principles of Communication, Digital Image Processing, Information Theory, Engineering Cognition and Innovative Practice, and Comprehensive Practice of Electronic Information Engineering.

(6) Employment and Further Study

Our graduates are qualified in engaging themselves in the research, design, manufacturing, application development of various electronic equipment and information systems. Graduates have good employment prospects, with employment destination mainly covering enterprises of electronic information industry, communication operators, enterprises in the artificial intelligence field, electronic information research institutes, high-tech science and technology companies, and enterprises and institutions. The employment rate of graduating students exceeds 90%. Graduates can apply for postgraduate studies in information and communication engineering, electronic science and technology, and electronic information programs. Those with excellent academic performance can be directly recommended as master's, direct doctoral or master's-doctoral students of our university or domestic famous universities, and some graduates go abroad for further study in the form of exchange students or in other ways.


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