1. Goal: achieve safety, efficiency, energy saving and emission reduction, comfort and convenience, and humanity through "three horizontal and two vertical" Vision. The roadmap divides the technical architecture of intelligent networked vehicles into "three horizontal and two vertical""Form: The on-board platform and infrastructure correspond to the key technology of the vehicle/facility, the key technology of information interaction, and the basic support technology respectively.
2. The relationship between intelligent transportation system and vehicle networking; the focus of vehicle networking is to build a relatively large transportation system, the development focus is to provide information services for automobiles, and the ultimate goal is an intelligent transportation system.
3. According to the definition, it can be seen that the ultimate goal of intelligent networked cars is unmanned driving. Intelligent networked cars can be divided into two technical levels: networked and intelligent.
Advanced driving assistance technology is the key development technology of intelligent networked vehicles. Its maturity and use represent the technical level of intelligent networked vehicles, which is the concrete application embodiment of other key technologies.
Cloud platform and big data technology: Cloud platform and big data technology include cloud platform architecture and data interaction standards, cloud operating system, data efficient storage and retrieval technology, big data association analysis and deep mining technology, etc. The cloud is the information hub of intelligent networked vehicles.
Automotive intelligent networking technology mainly includes the following aspects: vehicle networking technology:Through on-board communication equipment and Internet technology, information interaction and data sharing between vehicles and between vehicles and transportation infrastructure can be realized.
In fact, intelligent networking originally refers to the two technical routes of the development of automobile technology, namely intelligent vehicles and vehicle networking.
Intelligent networked cars mainly learn circuit analysis and electronic technology, advanced language programming, data structure and algorithm analysis, artificial intelligence principles, signal and information processing, embedded systems, digital communication and computer networks, university physics, deep learning, JAVA programming, intelligent driving Driving principle, Python programming, etc.
1. Improve traffic efficiencyRate: Through intelligent network technology, data can be exchanged in real time between vehicles, vehicles and infrastructure, vehicles and the cloud, which helps to optimize traffic flow, reduce congestion and traffic accidents, and improve the efficiency of road use.
2. Equipped with advanced on-board sensors, controllers, actuators and other devices, and integrates modern communication and network technology, it realizes intelligent information exchange and sharing between vehicles and people, roads, backgrounds, etc., and achieves safe, comfortable, energy-saving and efficient driving.
3. High transmission rate: On-board Ethernet technology can achieve high data transmission rate to meet the needs of rapid communication between on-board electronic systems. For example, on-board entertainment systems, on-board navigation systems, on-board security systems, etc. need to transmit a large amount of data.
Automobile intelligent networked technology refers to the combination of automobiles with the Internet, artificial intelligence and other technologies to realize information interaction and data sharing between vehicles, vehicles and transportation infrastructure, and between vehicles and users to improve the intelligence of automobiles. , automation and safety performance, providing users with a more convenient, comfortable and safe travel experience.
Intelligent networked cars refer to the organic combination of Internet of Vehicles and smart cars.
Wireless communication technology Long-distance wireless communication technology is used to provide instant Internet access, mainly using 4G/5G technology, especially 5G technology, which is expected to become a special technology for in-vehicle long-distance wireless communication.
1. The employment direction of intelligent networked automotive technology majors can be divided into the following categories: first, intelligent automotive engineer; second, automotive software development engineer; third, automotive electronic control engineer; fourth, intelligent automotive test engineer; fifth, automotive data processing engineer.
2. Autonomous driving engineer: responsible for the research and development of algorithms, sensor technologies and control systems related to autonomous driving, and promoting the development and realization of autonomous driving technology.
3. Automotive engineer: Automotive engineer is the foundation of intelligent networked automotive technology. You need to master automotive design, automotive electronics, network security and other skills. Graduates can engage in automotive electronic design, software development, system testing and other work.
4. First of all, graduates majoring in intelligent networked automobile maintenance technology can find employment opportunities in automobile manufacturing enterprises, auto parts suppliers, automobile maintenance service enterprises and other fields. They can engage in the research and development, production, assembly, testing and other work of intelligent networked vehicles, and provide technical support for the manufacture and maintenance of intelligent networked vehicles.
5. The employment prospects of intelligent networked automobile technology majors are broad. Graduates have many employment opportunities and development directions, and they can make choices according to their own interests and specialties. With the rapid development of intelligent and networked technology, intelligent networked vehicles have become an important trend in the future development of automobiles.
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1. Goal: achieve safety, efficiency, energy saving and emission reduction, comfort and convenience, and humanity through "three horizontal and two vertical" Vision. The roadmap divides the technical architecture of intelligent networked vehicles into "three horizontal and two vertical""Form: The on-board platform and infrastructure correspond to the key technology of the vehicle/facility, the key technology of information interaction, and the basic support technology respectively.
2. The relationship between intelligent transportation system and vehicle networking; the focus of vehicle networking is to build a relatively large transportation system, the development focus is to provide information services for automobiles, and the ultimate goal is an intelligent transportation system.
3. According to the definition, it can be seen that the ultimate goal of intelligent networked cars is unmanned driving. Intelligent networked cars can be divided into two technical levels: networked and intelligent.
Advanced driving assistance technology is the key development technology of intelligent networked vehicles. Its maturity and use represent the technical level of intelligent networked vehicles, which is the concrete application embodiment of other key technologies.
Cloud platform and big data technology: Cloud platform and big data technology include cloud platform architecture and data interaction standards, cloud operating system, data efficient storage and retrieval technology, big data association analysis and deep mining technology, etc. The cloud is the information hub of intelligent networked vehicles.
Automotive intelligent networking technology mainly includes the following aspects: vehicle networking technology:Through on-board communication equipment and Internet technology, information interaction and data sharing between vehicles and between vehicles and transportation infrastructure can be realized.
In fact, intelligent networking originally refers to the two technical routes of the development of automobile technology, namely intelligent vehicles and vehicle networking.
Intelligent networked cars mainly learn circuit analysis and electronic technology, advanced language programming, data structure and algorithm analysis, artificial intelligence principles, signal and information processing, embedded systems, digital communication and computer networks, university physics, deep learning, JAVA programming, intelligent driving Driving principle, Python programming, etc.
1. Improve traffic efficiencyRate: Through intelligent network technology, data can be exchanged in real time between vehicles, vehicles and infrastructure, vehicles and the cloud, which helps to optimize traffic flow, reduce congestion and traffic accidents, and improve the efficiency of road use.
2. Equipped with advanced on-board sensors, controllers, actuators and other devices, and integrates modern communication and network technology, it realizes intelligent information exchange and sharing between vehicles and people, roads, backgrounds, etc., and achieves safe, comfortable, energy-saving and efficient driving.
3. High transmission rate: On-board Ethernet technology can achieve high data transmission rate to meet the needs of rapid communication between on-board electronic systems. For example, on-board entertainment systems, on-board navigation systems, on-board security systems, etc. need to transmit a large amount of data.
Automobile intelligent networked technology refers to the combination of automobiles with the Internet, artificial intelligence and other technologies to realize information interaction and data sharing between vehicles, vehicles and transportation infrastructure, and between vehicles and users to improve the intelligence of automobiles. , automation and safety performance, providing users with a more convenient, comfortable and safe travel experience.
Intelligent networked cars refer to the organic combination of Internet of Vehicles and smart cars.
Wireless communication technology Long-distance wireless communication technology is used to provide instant Internet access, mainly using 4G/5G technology, especially 5G technology, which is expected to become a special technology for in-vehicle long-distance wireless communication.
1. The employment direction of intelligent networked automotive technology majors can be divided into the following categories: first, intelligent automotive engineer; second, automotive software development engineer; third, automotive electronic control engineer; fourth, intelligent automotive test engineer; fifth, automotive data processing engineer.
2. Autonomous driving engineer: responsible for the research and development of algorithms, sensor technologies and control systems related to autonomous driving, and promoting the development and realization of autonomous driving technology.
3. Automotive engineer: Automotive engineer is the foundation of intelligent networked automotive technology. You need to master automotive design, automotive electronics, network security and other skills. Graduates can engage in automotive electronic design, software development, system testing and other work.
4. First of all, graduates majoring in intelligent networked automobile maintenance technology can find employment opportunities in automobile manufacturing enterprises, auto parts suppliers, automobile maintenance service enterprises and other fields. They can engage in the research and development, production, assembly, testing and other work of intelligent networked vehicles, and provide technical support for the manufacture and maintenance of intelligent networked vehicles.
5. The employment prospects of intelligent networked automobile technology majors are broad. Graduates have many employment opportunities and development directions, and they can make choices according to their own interests and specialties. With the rapid development of intelligent and networked technology, intelligent networked vehicles have become an important trend in the future development of automobiles.
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