Is it easy to find a job in remote sensing major?
Basic academic system: four years | Enrollment target: | Education | Technical secondary school | Professional code: 8122
Training objectives
Training objectives: This major trains students with basic knowledge and basic theories of remote sensing science, space science, electronic science, information science and computer science. A compound engineering and technical talent who can engage in the production, development, scientific research, teaching and management of sensor integration and design, remote sensing data acquisition and processing, thematic information extraction, remote sensing data modeling and inversion, digital mapping and remote sensing information service in the fields of surveying and mapping, land, national defense, forestry, agriculture, ocean, resources, environment, transportation and planning, and has innovative ability.
training requirements: students in this major mainly study the basic theories and knowledge of remote sensing sensor principle, remote sensing earth observation mechanism, remote sensing data analysis and processing and remote sensing technology application, and receive basic training in remote sensing sensor integration, remote sensing field data collection, remote sensing image interpretation and interpretation, remote sensing thematic mapping, aerospace surveying and mapping, data processing algorithm design and implementation, and comprehensive practice of remote sensing application, so as to master remote sensing data acquisition, data processing, data analysis, topographic surveying and mapping, and special topics.
Graduates should acquire the following knowledge and abilities:
1. Master the relevant basic theories and knowledge of mathematics, physics, geography, electronics, computer, information and communication engineering and other disciplines involved in remote sensing science and technology specialty;
2. master the integration of sensors, the acquisition of remote sensing observation data, the processing and analysis of remote sensing data, the application of remote sensing data and other technologies;
3. It has the preliminary ability to use remote sensing data for thematic information extraction, remote sensing data modeling and inversion, digital mapping and remote sensing information service;
4. be familiar with national policies and regulations on science and technology, intellectual property rights, sustainable development strategy and so on in the fields of surveying and mapping, remote sensing, aerospace and computer;
5. Understand the theoretical frontier and application prospect of related fields in this discipline, be proficient in reading English technical documents of this major, and have certain English writing and communication skills;
6. Have certain scientific research, practical work and innovation ability, and have a strong sense of teamwork.
main disciplines: surveying and mapping science and technology, computer science and technology, information and communication engineering.
Core knowledge field: The knowledge system of this major consists of three parts: general education, professional education and comprehensive education. General education includes humanities and social sciences, natural sciences, management sciences, foreign languages, computer information technology, physical education and practical training. Professional education includes professional foundation, professional theoretical knowledge, professional experiment and practical training, etc., covering core knowledge fields such as object geometry and radiation characteristics, electromagnetic wave and its atmospheric transmission, satellite orbit and remote sensing platform, sensor imaging mechanism, image acquisition and transmission, spatial data processing and analysis, and geospatial information. Comprehensive education includes ideological and moral education, professional practice education, social conditions and national conditions education. Through various academic exchanges and social practice activities, students' international horizons are expanded and their humanistic quality and professional quality are improved.
examples of core courses:
example 1: error theory and data processing (45 hours), fundamentals of remote sensing physics (36 hours), fundamentals of photogrammetry (72 hours), digital image processing (45 hours), principles and applications of remote sensing (54 hours), remote sensing image interpretation (36 hours), principles of geographic information system (45 hours). Principle of imaging sensor (72 hours), microwave remote sensing (36 hours), remote sensing application model (45 hours); Digital photogrammetry (72 hours), close-range photogrammetry (45 hours), lidar data processing and application (36 hours); Spatial database (54 hours), spatial analysis (45 hours), network GIS(54 hours).
example 2: cartography (56 hours), remote sensing principle and application (4 hours), photogrammetry (4 hours), geographic information system principle (48 hours), remote sensing interpretation and mapping (32 hours), remote sensing digital image processing (4 hours), digital photogrammetry (24 hours), and global positioning system principle and application (4 hours)
example 3: remote sensing principles and methods (54 hours), microwave remote sensing (36 hours), hyperspectral and high spatial resolution remote sensing (36 hours), digital photogrammetry (45 hours), GIS principles (45 hours), meteorology and climatology (45 hours), atmospheric physics and atmospheric detection (45 hours), and geoscience mathematical methods (45 hours).
main practical teaching links: comprehensive practice of surveying, digital image processing course practice, sensor principle course practice, remote sensing image interpretation and interpretation practice, remote sensing principle and application course design, quantitative remote sensing basic practice, GIS principle course practice, remote sensing thematic map making and graduation design (thesis), etc.
Major practical abilities: field collection of ground object spectrum and related data, design and implementation of data processing algorithm, production of aerospace surveying and mapping products, comprehensive practical design and implementation of remote sensing application, and design and management of production projects.
years of study: four years.
Degree awarded: Bachelor of Engineering.
professional ability requirements
professional ability requirements
main contents of professional teaching
principles of geographic information system, sensor technology and application, aviation and aerospace photography, photogrammetry foundation, close-range photogrammetry, geodesy foundation, cartography foundation and digital IT enterprises: 3S technology, research and development of remote sensing system, and construction of spatial information system.
examples of vocational qualification certificates
examples of vocational qualification certificates
examples of continuing study majors
employment direction
In fact, remote sensing science and technology are all around us, including meteorological cloud pictures of changing weather forecast, surveillance photography of spy satellites in European and American blockbusters, dam site selection and road route selection in engineering geological survey, geological prediction in earthquake disasters, hydrological and geomorphological identification in water conservancy projects, etc. In China, remote sensing science and technology have also been widely used, providing information and technical support for national decision-making, resource investigation, environmental protection, disaster monitoring, major projects and national defense construction.
Remote sensing technology integrates new achievements in space, electronics, optics, computer, biology and geoscience, and is an important part of modern high-tech fields. Since 1972, when an American earth resources technology satellite was successfully launched and a large number of satellite images of the earth's surface were obtained, remote sensing technology began to develop rapidly and be widely used in the world. The appearance of remote sensing technology has opened the prelude for human beings to observe the earth from outer space, and provided a new way for human beings to understand the land, develop resources, monitor the environment, study disasters and analyze global climate change.
Employment prospects
Since 199s, environmental remote sensing technology has been widely used. From land cover change, dynamic monitoring and evaluation of urban expansion, estimation of soil erosion and surface water pollution load, evaluation and protection of biological habitat, project site selection and protection planning and construction of shelter forest. Analysis of the changes of marine and coastal ecological environment in the waters, discovery and monitoring of suspended sediment, chlorophyll content, yellow matter, oil spill, red tide and thermal pollution at sea, investigation and change monitoring of corals and mangroves, dam planning and water-sediment balance analysis, remote survey of underwater topography and estimation of primary productivity of waters. Then, the analysis of urban heat island effect in remote sensing of atmospheric environment, the identification and quantitative evaluation of atmospheric pollution range, the parameterization of atmospheric aerosol pollution characteristics, the cyclic study of global water, gas and chemical elements, the assessment of global environmental changes and major natural disasters, etc., almost covered the whole earth system.
with the progress of science and technology, the imaging of spectral information, multipolarization of radar imaging, multidirectional optical detection, intelligent geoscience analysis, dynamic environmental research and quantitative resource research have greatly improved the real-time and operability of remote sensing technology, making it develop towards the goals of multi-scale, multi-frequency, all-weather, high precision and high efficiency.
In a word, remote sensing technology is widely used in the field of environmental science. With the progress of science, remote sensing technology will become more and more advanced and its role will become more and more important.
Second, the employment direction of remote sensing science and technology specialty
Graduates of this major can engage in photogrammetry and remote sensing in industries and departments such as surveying and mapping, remote sensing, geology, water conservancy, transportation, agriculture, forestry, metallurgy, electric power, petroleum, medicine, machinery, mining, coal, national defense, military industry, urban construction, environmental protection, cultural relics protection, aerial photography, aerospace and electronic technology application.
corresponding occupation (post)
corresponding occupation (post)