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EE is the abbreviation of electrical engineering, which is called electronic engineering or electrical engineering in Chinese. It is an engineering discipline that studies the fields of circuits and systems, communications, electromagnetic field and microwave technology, and digital signal processing. The application forms of electronic engineering include electric equipment and various electric switches using control technology, measurement technology, adjustment technology, computer technology, and even information technology.
Generally speaking, graduate students majoring in electrical engineering can play important roles in the fields of system operation, automatic control, information processing, test technology, research and development, economic management, and electronic and computer technology applications related to electrical engineering, and can also engage in power design, construction, commissioning, production, operation, management, market operation, scientific and technological development and technical training in power plants, power supply bureaus, power grid dispatching stations and other enterprises at all levels, or engage in the maintenance, overhaul, installation and commissioning of electrical equipment. In addition, graduates of this program can work in electrical technology in other industries.
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EE stands for Electronic Engineering.
Traditionally, electrical engineering is defined as the sum total of the disciplines used to create and produce electrical and electronic systems. This is a very broad definition, but with the rapid development of science and technology, the concept of electrical engineering in the 21st century has gone far beyond the scope of the above definition. The Stanford professor noted
Today's electrical engineering encompasses almost all engineering behaviors related to electronics and photons.
Computer Science and Technology is a national first-class discipline, which consists of majors such as information security, software engineering, computer software and theory, computer system structure, computer application technology, and computer technology.
First, the development status of CS.
1. After graduation, students can go to large telecommunication service providers and large communication equipment manufacturing enterprises at home and abroad for technology development, and can also go to other enterprises and institutions to engage in design, maintenance, education and training in the field of network engineering.
2. Software engineering direction The employment prospects are very broad, and students can go to many software enterprises, state agencies, large and medium-sized enterprises, public institutions, information technology departments, education departments and other units at home and abroad to engage in technology development, teaching, scientific research and management in the field of software engineering. You can also continue to study for a master's degree in computer science and technology and a master's degree in software engineering.
3. After graduation, students in the direction of communication can engage in scientific research, teaching and engineering technology of communication technology and electronic technology in information industry, finance, finance, post and telecommunications, transportation, national defense, colleges and universities and scientific research institutions.
4. Wide-caliber major in network and information security, and the main disciplines are information security and network engineering. After graduation, students can manage and provide services in the field of computer network systems and information security in the fields of national defense, military, telecommunications, electric power, finance, railways and other departments. and can continue to pursue a master's degree in information security, communications, information processing, computer software and other related disciplines.
Second, the security of CS.
Due to the data distribution characteristics of CS structure software, fires, thefts, viruses, hackers, etc. have become terrible data killers on the client. In addition, for group-level off-site software applications, the CS-structured software must be installed with multiple servers in various locations and data synchronization between multiple servers.
As a result, the data security on each data point affects the data security of the entire application. Therefore, for large-scale applications at the group level, the security of CS structure software is unacceptable.
For the BS structure software, because its data is centrally stored in the database server of the headquarters, the client does not save any business data and database connection information, and there is no need to synchronize any data, so these security problems naturally do not exist.
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EE is an Electronic Engineering major. Electronic engineering is an engineering discipline that uses scientific knowledge of electronic activities and effects to design, develop, and test devices, systems, or equipment. Electronic engineering represents a broad field of engineering, covering many subfields, including instrument engineering, communications, semiconductor circuit design, etc., and its application forms cover electrical equipment and the use of control technology.
Electronic engineering is a wide caliber major in electronic and information engineering, which mainly cultivates high-level engineering and technical talents who have the basic knowledge of electronic technology and information systems, and can be engaged in the research, design, manufacturing, application and development of various electronic equipment and information systems.
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EECS is an American university.
Bachelor's degree in Electronic Engineering. In the United States, the discipline of electronic engineering is often closely integrated with the discipline of computer science, electronic information science, mechanical automation and other related disciplines. At the same time, in teaching, scientific research, experiments, etc., there are advanced organizational forms and concepts, so that students can give full play to their own strengths and create unique achievements in this field.
Usually we refer to electronic engineering majors as EE (electrical engineering), computer science.
The majors are collectively referred to as CS (Computer Science), and the research directions and priorities of these two majors are different, but they complement each other. CE is an interdisciplinary discipline that both EE and CS will be involved in.
Some schools put CE and CS together, and it is called CSE (Computer Science and).
engineering);Some schools put CE and EE together, and they have ECE (Electrical and Computer Engineering).
Generally speaking, students who apply for EECS have a background in computer science and electrical engineering.
To apply, you must determine the prerequisite course requirements of your chosen major, generally speaking, pure songsheng, programming ability is the foundation, if you have scientific research or competition experience in algorithm or modeling, it will also enhance the competitiveness of the application. Specifically, when we check the school, we must check the school's prerequisite course requirements from the official website.
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