Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 070702
Training objectives
Training objectives
Training objectives: This major trains high-quality specialized technical personnel with good ideological and moral quality and high humanistic quality, international vision and correct view of the ocean, basic knowledge of technical science and marine science, application, development and research ability of marine high-tech, and can engage in marine observation, exploration and development of marine resources, transmission and processing of marine information, exploration of marine engineering, development of marine instruments and equipment, etc.
Training requirements: Students in this major mainly study basic theories and knowledge such as marine exploration, exploration and development of marine resources, transmission and processing of marine information, and marine engineering technology. And choose to study marine physics technology (marine acoustics technology, marine optics technology), electronic simulation technology, signal sensing technology, marine chemistry technology, marine biotechnology, marine remote sensing monitoring technology, marine information technology, etc. According to the application fields and characteristics of technology, the application, research and development of the ocean in specific fields are formed.
Graduates should have the following knowledge and abilities:
1. Have a good marine consciousness, scientific spirit, professionalism and teamwork spirit, and have a sense of social responsibility and humanistic quality;
2. Master the basic theories and knowledge of mathematics, physics, chemistry, biology and technical sciences, and master the professional system knowledge in specific marine technology fields;
3 master the basic theories and methods of marine exploration, marine resources development, marine environmental monitoring and marine information technology, and master the professional technology of marine engineering in specific fields;
4 have the basic ability to carry out high-tech development and applied research in the marine field;
5. Be familiar with the principles, policies, laws and regulations of China's marine science and technology research and development, resource development, environmental protection and rights protection, understand the international high-tech and intellectual property rights in the marine field, and be able to scientifically and legally apply advanced marine technologies at home and abroad to carry out marine exploration and development;
6. Master modern information technology means, understand the basic knowledge of related disciplines, understand the development trends of marine technology, and have the basic ability to analyze and solve marine technical problems;
7. Have certain capabilities of technology application and technology renewal design in the marine field, technology product research and development and manufacturing capabilities, paper writing and academic exchange capabilities;
8. Have a certain international vision and the initial ability of cross-cultural communication, competition and cooperation.
Main subjects: marine science, electronic science and technology, bioengineering.
Core knowledge areas: oceanography, marine survey and observation technology, marine physics technology, marine chemistry technology, marine biotechnology, marine remote sensing monitoring technology, marine information technology, etc.
Example of core courses:
1. Example 1
There are three course modules: marine acoustics technology, marine optics and laser detection technology, marine remote sensing and GIS technology. The same core courses are: Mathematical and Physical Methods (96 hours), Oceanography II (48 hours) and Signals and Systems (64 hours).
(1) Course modules of marine acoustic technology: acoustic foundation (80 hours), underwater acoustic principle (80 hours), acoustic measurement (32 hours), marine exploration and data processing (64 hours), acoustic basic experiment (48 hours) and underwater acoustic professional experiment (48 hours).
(2) Course modules of marine optics and laser detection technology: photoelectric technology (48 hours), specialized experiment of photoelectric technology (48 hours), laser principle and technology (48 hours), introduction to marine optics (48 hours), spectroscopy (48 hours) and specialized experiment of marine optics (48 hours).
(3) Course modules of marine remote sensing and GIS technology: digital image processing (48 hours), marine remote sensing (48 hours), principles of geographic information system and its marine application (48 hours), marine surveying and mapping (48 hours), specialized experiments of marine remote sensing (48 hours) and specialized experiments of marine GIS (48 hours).
2. Example 2
There are two courses in marine acoustics and information engineering and marine biotechnology. The core courses are: Introduction to Marine Science (Hydrology) (48 hours), Inorganic Chemistry (84 hours), Fundamentals of Marine Biology (39 hours), Marine Geology (32 hours), Marine Ecology (48 hours) and Introduction to Marine Science (Chemistry) (32 hours).
(1) Direction of marine acoustics and information engineering: mathematical physics method (94 hours), acoustic foundation (48 hours), hydroacoustics (48 hours), marine information experiment L (single chip microcomputer experiment) (48 hours), marine information experiment 2 (acoustics and hydroacoustics experiment) (48 hours), principles and methods of marine hydrological investigation (including experiments) (including experiments)
(2) Biotechnology direction: marine taxonomy (48 hours), biochemistry (48 hours), marine taxonomy experiment (48 hours), biochemistry experiment (48 hours), organic chemistry experiment (60 hours), marine microbiology (32 hours), marine microbiology experiment (48 hours), molecular biology and genetic engineering (48 hours).
3. Example 3
It is divided into marine technology and marine technology (direction of marine surveying and mapping).
(1) marine technology major: introduction to marine science (32 hours), spatial mapping (48 hours), remote sensing principle (32 hours), geographic information system (32 hours), acoustic foundation (48 hours), calculation and prediction of marine elements (48 hours) and remote sensing digital image processing (32 hours).
(2) Marine technology (direction of marine surveying and mapping): spatial surveying and mapping (48 hours), engineering surveying (48 hours), nautical charting (48 hours), introduction to marine science (32 hours), remote sensing principle (32 hours), calculation and prediction of marine elements (48 hours), acoustic foundation (48 hours) and geographic information system (32 hours).
Main practical teaching links: oceanography practice, electronic (or information) general technology practice, specialized practice of marine technology in specific fields, graduation project (thesis) and scientific and technological innovation experiment activities.
Main professional experiments: acoustic technology series course experiment, optical technology series course experiment, remote sensing technology series course experiment, electronic technology series course experiment, biotechnology series course experiment, chemical technology series course experiment, mariculture technology series course experiment, etc.
Length of study: four years.
Degree awarded: Bachelor of Science or Bachelor of Engineering.
Professional ability requirements
Professional ability requirements
The main contents of professional teaching
The main contents of professional teaching
Introduction to marine science, chemical oceanography, physical oceanography, oceanography, application technology of marine remote sensing, principle and application of geographic information system, marine management information system, digital marine engineering, calculation and prediction of marine elements.
Major (skill) direction
Major (skill) direction
Technical enterprises: aquatic technology, environmental protection technology, water conservancy/port engineering technology, structural engineering; Aquaculture enterprises: aquaculture, management, technology development and promotion; Government and institutions: marine resources investigation and development, marine environmental monitoring, marine resources management, marine exploration and marine information processing technology.
Example of vocational qualification certificate
Example of vocational qualification certificate
Examples of continuing learning majors
Employment direction
Employment direction
Employment direction of marine technology specialty
After graduation, students majoring in marine technology can engage in the production, management, technology development and promotion of aquatic products, feed, fish medicine, biotechnology and other related industries. The major of marine engineering technology mainly serves as structural engineer, aquatic product technical service, mechanical engineer, sales engineer, electrical engineer, technical support, aquatic product technical waiter, piping engineer, sales representative, sales manager, Wuhan regional manager and ship structural engineer.
Analysis on Employment Prospect of Marine Technology Specialty
Facing the gradual depletion of land resources, marine technology has become an increasingly popular major, and its employment prospects are getting better and better. Graduates can engage in marine resources investigation and development, marine environmental monitoring, marine resources management, marine exploration and marine information processing technology. Or you can engage in the production, management, technology development and promotion of aquatic products, feed, fish medicine, biotechnology and other related industries.
Corresponding occupation (post)
Corresponding occupation (post)
Other information:
Marine technology belongs to the scientific category. The national undergraduate majors are divided into 12 disciplines: philosophy, economics, law, education, literature, history, science, engineering, agriculture, medicine, management and art.