The difference between optical engineering and optoelectronic information engineering

Optical Engineering: In 1997, he was the leader of the optical industry in China.

At the suggestion of the academician, the Academic Degree Committee agreed to list "Optical Engineering" as a first-level discipline of engineering.

As an interdisciplinary discipline of science and engineering, the theoretical system of optical engineering has been continuously improved and developed, and now optical engineering has developed into optics-based, and is integrated with information science, energy science, materials science, and life science.

Space Science, Precision Mechanics and Manufacturing, Computer Science.

and microelectronic technology and other disciplines closely intersect and interpenetrate disciplines. It includes many important emerging disciplines, such as laser technology, optical fiber communication, optical storage and recording, optical information processing, optoelectronic display, holographic and three-dimensional imaging, thin film and integrated optics, optical and optical fiber sensing, optical detection, laser material processing and processing, weak light and infrared thermal imaging, optoelectronic measurement, modern optical and optoelectronic instruments and devices, optical remote sensing technology, and integrated optical engineering technology. These branches not only made a qualitative leap forward in the discipline of optical engineering, but also contributed to the establishment of an unprecedented modern optics and optoelectronics industry that was rapidly expanding in scale.

The major of optoelectronic information engineering cultivates the basic knowledge, basic theories and basic skills in the field of information optoelectronic engineering such as photoelectric signal acquisition, optical communication, optoelectronic information processing, optical storage, optical display and optoelectronic information application with optoelectronic information engineering as the backbone, and can be engaged in the design, manufacturing, development, application, research, teaching, management and other related industries and departments of optoelectronic technology and system related products in industrial and agricultural production, national defense and military industry, biomedical, environmental monitoring, culture and entertainment, scientific research and other fields. Marketing and other work, moral, intellectual, physical, aesthetic all-round development of compound senior professionals. Optical Information Science and Technology.

It is an interdisciplinary discipline that combines optics and information science with technology.

It mainly studies the universal laws and applications in the process of generation, acquisition, conversion, dissemination, and storage of optical information. This major cultivates professionals in optical information science and technology who have the basic theories, basic knowledge and basic skills of optical information science and technology, and can engage in scientific research, teaching, technology development and management in the fields of applied optics, optoelectronics and related electronic information science, optical fiber communication, computer science, etc.

Difference: Optical engineering is a first-level discipline, and optoelectronic information engineering is a second-level discipline.

Optical Engineering is a first-level discipline.

Optoelectronic Information Engineering is a second-level discipline.

That's the difference.,I didn't see much difference in optoelectronic information engineering.,We're all doing research together.。。。

<>1. Optoelectronic information science and engineering is an unpopular major.

2. Optoelectronic information technology is a multidisciplinary comprehensive technology composed of optics, optoelectronics, microelectronics and other technologies, involving the radiation, transmission, detection of optical information, and the conversion, storage, processing and display of photoelectric information. Optoelectronic information technology is widely used in all walks of life in the national economy and national defense construction.

3. In recent years, with the rapid development of the optoelectronic information technology industry, the demand for practitioners and talents has increased year by year, so the demand for basic knowledge of optoelectronic information technology is also increasing. Optoelectronic information technology promotes the development of modern information technology with its extremely fast response speed, extremely wide bandwidth, extremely high information capacity and extremely high information efficiency and resolution, so that the share of the optoelectronic information industry in the market is increasing year by year. In technologically developed countries, the output value of industries related to optoelectronic information technology has accounted for more than half of the total output value of the national economy, and the number of employees is increasing year by year, and the competitiveness is becoming stronger and stronger.

Optoelectronic information science and engineering is an undergraduate major in ordinary colleges and universities, which is an electronic information major, with a basic study period of four years, and a bachelor's degree in science or engineering is awarded.

The major is characterized by the integration of science and engineering, relying on the disciplines of electronic science and technology, computer science and technology, information and communication engineering, mainly cultivating students to master the basic knowledge and basic skills in the field of optoelectronic information science and technology, and laying the foundation for scientific research, product design and development in the fields of optoelectronic information processing, optoelectronics, electronic information technology, communication technology, etc., and the professional curriculum focuses on the design and application of optoelectronic devices and applications, optoelectronic information processing, and broadband optical fiber communication systems.

According to the document issued by the Ministry of Education in September 2012, the major of optoelectronic information science and technology, optoelectronic technology science and information display and optoelectronic technology, optoelectronic information engineering, optoelectronic materials and devices were unified and revised.

This major cultivates application-oriented talents with modern scientific awareness, solid theoretical foundation, broad knowledge, strong innovation and practical ability, who can be engaged in scientific research in the technical fields of optical engineering, optical communication, electronics, image and information processing, as well as product design and manufacturing, scientific and technological development and application, operation management and other related fields, and can adapt to the needs of the rapid development of contemporary information society.

What does optoelectronic information engineering do as follows:

The major of optoelectronic information science and engineering can be engaged in optical engineering, design and manufacture of optoelectronic instruments and precision instruments, processing of optical parts, product research and development, engineering technology, quality management, production and operation in industrial enterprises. <>

Optoelectronic information science and engineering mainly studies the basic knowledge and skills in the fields of optical virtuality, mechanics, electronics and computer science, learns the design and manufacturing methods of optoelectronic instruments in the field of optoelectronic information, conducts the research and development and application of optoelectronic devices, and explores optical processing technology. For example, the design and manufacture of optical instruments such as microscopes and telescopes, the research and development and application of infrared detectors, subway X-ray security inspection machines and other differential devices, and the research and development of light processing technologies such as laser engraving.

The main subjects of optoelectronic information science and engineering are "Information Optoelectronics", "Circuit Simulation Electronic Technology", "Engineering Electromagnetic Field Theory", "Solid State Electronics", "Photoelectric Detection and Signal Processing", "Fiber Optics", "Optical Programming", "Modern Optics", "Signal and System", "Lack of Photoelectric Detection Technology", "Modern Optical Measurement Technology", "Sensor Principle", "Laser Technology", "Optical Fiber Communication", etc.

Some colleges and universities are trained in the following professional directions: optoelectronic instruments, optical engineering, optical communication technology, optoelectronic information technology, optoelectronic detection and optical communication, and optoelectronic engineering.

Optoelectronic Information Science and Engineering is the name of the five majors that originally belonged to the category of electronic information science, the major of optoelectronic technology science and the information display and optoelectronic technology, optoelectronic information engineering, and optoelectronic materials and devices, which originally belonged to the category of electronic information science.

First of all, this major is hardware-oriented, the best can be a hardware development engineer, you can also do network-related work, equipment maintenance, technical support, maintenance, you can also enter the electronics factory as a production technician, you can also draw circuit boards, you can also engage in software-related development, the choice is very large.

Optoelectronic Information Science and Engineering Career Direction.

After graduation, students of this major can work in electronics, electrical engineering, quality control, marketing, programming and education. Graduates can also pursue further studies in science or engineering to obtain higher degrees.

Engaged in industry: After graduation, he mainly worked in electronic technology, new energy, communications and other industries, roughly as follows:

1. Electronic technology, semiconductors, integrated circuits.

2. New energy.

3. Communication, telecommunications and network equipment.

4. Instrumentation and industrial automation.

5. Other industries.

Optoelectronic Information and Engineering is:

The major is characterized by the integration of science and engineering, relying on the disciplines of electronic science and technology, computer science and technology, and information and communication engineering, mainly to train students to master the basic knowledge and basic skills in the field of optoelectronic information science and technology, and to prepare students for the field of optoelectronic information processing, optoelectronics, and electronic information technology.

In the fields of communication technology, he is engaged in scientific research, product design and development to lay the foundation, and the professional curriculum focuses on optoelectronic devices and applications, optoelectronic information processing, and the design and application of broadband optical fiber communication systems.

Expansion Supplement:

1. General knowledge

In addition to the teaching content stipulated by the state, the contents of the humanities and social sciences, foreign languages, computer culture foundations, physical education, and art are determined by each university according to the school's orientation and talent training goals, among which the humanities and social sciences include basic contents such as economics, environment, law, and ethics.

Mathematics and natural sciences include advanced mathematics, engineering mathematics, university physics and other basic contents, and colleges and universities can improve the teaching requirements of mathematics and physics (including experiments) according to their own talent training positioning, so as to strengthen students' foundation in mathematics and physics.

All colleges and universities should combine the orientation of talent training and the actual situation of the profession to set up general courses on innovation and entrepreneurship that integrate professional development and social science content.

2. Basic knowledge of disciplines

The basic knowledge of disciplines and specialties must cover the core content of the knowledge fields such as circuits and electronic technology, computer systems and applications, signals and systems, electromagnetic fields and waves, etc. The teaching content can refer to the basic requirements formulated by the relevant curriculum teaching steering committee of the Ministry of Education.

In addition to the basic knowledge of the above disciplines and majors, it should also include the basic knowledge of the profession. It should include the core content of at least 4 knowledge areas in physical optics, applied optics, optoelectronics, photoelectric detection, laser primary eradication, information optics, communication principles, and engineering graphics.

3. Professional knowledge

Professional knowledge courses should include optoelectronic devices, optoelectronic instruments, nonlinear optics, optical communication, integrated optics, quantum optics, optoelectronic imaging technology, image processing, photoelectric display technology, photoelectric sensing technology, optical storage technology, micro-optical electromechanical system, modern optical measurement technology, spectral analysis and testing technology, biomedical optoelectronic technology, remote sensing technology, optoelectronic guidance and tracking.

Knowledge fields such as photoelectric target detection and identification technology, optical manufacturing, and thin film technology can be selected and appropriately supplemented according to the situation of the school.