Research on Automobile Chassis Control Technology

4 Development Trend of Automobile Chassis Control Technology

With the continuous advancement of science and technology, automobile chassis control technology is also constantly developing and improving. In the future, the development of automobile chassis control technology will move towards four directions: intelligence, electrification, lightweight and reliability.

4.1 Intelligent Trend

With the development of artificial intelligence and Internet technology, intelligent cars have become the trend of future automobile development. In terms of chassis control technology, intelligent technology will become the focus of development. Intelligent technology mainly includes two aspects: intelligent driving assistance system and intelligent chassis control system.

The intelligent driving assistance system can sense and identify information such as roads, traffic signs, and vehicles through sensors such as laser radar, cameras, and ultrasound, and automatically adjust vehicle speed, steering, and braking to improve driving safety and comfort. The intelligent chassis control system can precisely control the vehicle's steering, braking, suspension, and power through an intelligent control unit to improve the vehicle's handling and stability.

4.2 Electrification Trend

In the future, electric vehicles will become the mainstream of the automotive industry. The chassis control technology of electric vehicles will also gradually develop in the direction of electrification. The chassis control system of electric vehicles mainly includes three aspects: motor control system, battery management system and charging system.

The motor control system is the core of the chassis control technology of electric vehicles. It can realize functions such as steering, acceleration and braking by controlling the motor. The battery management system can monitor the battery power, voltage and temperature and other parameters to ensure the safety and life of the battery. The charging system can charge quickly, improve charging efficiency and convenience.

4.3 Lightweight Trend

Lightweight technology is an important direction for the development of automobile chassis control technology. Lightweight technology mainly includes three aspects: material lightweighting, structural optimization and component simplification.

Material lightweighting refers to the use of new materials, such as high-strength steel, aluminum alloy, carbon fiber, etc., to reduce the weight of the car, improve fuel efficiency and reduce emissions. Structural optimization refers to optimizing the design of the car structure, reducing the weight of the car body, and improving the rigidity and stability of the vehicle. Component simplification refers to optimizing the design of each component in the car chassis control system to reduce the number and weight of components, thereby achieving lightweighting.

4.4 Reliability Trend

Reliability is a very important part of automobile chassis control technology, which is directly related to the safety and durability of the car. Therefore, one of the development trends of automobile chassis control technology in the future is to improve the reliability of the car. In terms of reliability, automobile manufacturers have taken a variety of measures. For example, they strengthen the quality control of automobile parts and ensure that all parts are carefully designed and tested to meet various working conditions. In addition, manufacturers also focus on improving the overall reliability of the car by improving the technical level and quality standards. For example, they can use higher-level materials and manufacturing processes to ensure that the car can maintain stability and reliability under any road conditions.

In addition, manufacturers are constantly researching and developing new technologies to improve the reliability of cars. For example, they are studying the use of more advanced sensors and electronic devices to improve the safety and reliability of cars. They are also developing adaptive control technologies that enable cars to adapt to various road conditions and driving styles and remain efficient and reliable under different working conditions.

In general, the development trend of automobile chassis control technology in the future is to develop in the direction of being more reliable, safer, more intelligent and more environmentally friendly. This will provide consumers with higher quality and more efficient automobile chassis control technology products and further promote the sustainable development of the entire industry.

5 Research suggestions and future prospects of automobile chassis control technology

5.1 Strengthening the research and application of chassis control technology

In order to promote the development of automobile chassis control technology, it is necessary to strengthen related research and application. The specific suggestions are as follows: Basic research on chassis control technology should be strengthened, such as conducting research on new materials and exploring new control algorithms. At the same time, it is also necessary to strengthen the application research of technology, such as testing the effect of chassis control technology on actual vehicles and conducting data analysis and verification of the test results. The combination of chassis control technology and intelligent technology should be strengthened. With the continuous development of intelligent technologies, such as artificial intelligence and the Internet of Things, chassis control technology also needs to be combined with them accordingly to achieve more precise control.

5.2 Exploring New Chassis Control Technologies

Exploring new chassis control technologies is the only way for the development of the automobile industry. With the continuous changes in automobile market demand, automobile manufacturers need to continuously explore new chassis control technologies to improve automobile performance, safety and driving experience. At present, many chassis control technologies have been widely used, but new technologies need to be continuously explored to meet the ever-increasing automobile needs. For example, we can explore the use of laser radar technology to achieve more accurate positioning and measurement, develop more intelligent electronic stability systems, etc. Among them, some emerging technologies will become the development trend in the future. For example, autonomous driving technology based on sensors such as laser radar and cameras can achieve unmanned driving through the vehicle's own judgment and decision-making. This technology can not only improve driving safety, but also reduce the driver's labor intensity and traffic accident rate. In addition, prediction and warning systems based on artificial intelligence and big data analysis are also new research directions. By analyzing the vehicle's operating data and environmental information, the system can predict the vehicle's failure and accident risks in advance, and provide corresponding warnings and suggestions to avoid vehicle accidents.

5.3 Promote the integration of chassis control technology and other technologies

Chassis control technology also needs to be integrated with other technologies to achieve more comprehensive and efficient control. For example, it can be combined with Internet of Vehicles technology to achieve remote monitoring and control of the vehicle, and combined with autonomous driving technology to achieve more intelligent chassis control. The integration of chassis control technology with other related technologies can further improve the performance and safety of the vehicle. At present, chassis control technology has been combined with a variety of technologies, such as intelligent driving, Internet of Vehicles, and artificial intelligence. Among them, intelligent driving technology is one of the important directions for the integration of chassis control technology [7]. With the continuous development and application of artificial intelligence technology, future cars will have a higher level of intelligence. As one of the core technologies of automobile control, chassis control technology will play an important role in the development of intelligent driving technology. By combining chassis control technology with intelligent driving technology, more intelligent vehicle control can be achieved, vehicle safety and performance can be improved, and the passenger experience can be further enhanced. In addition, chassis control technology can also be combined with Internet of Vehicles technology. By connecting the vehicle to the Internet, functions such as real-time vehicle monitoring and remote control can be realized, further improving the safety and convenience of the vehicle. The combination of chassis control technology and vehicle networking technology can realize real-time monitoring and automated control of vehicles, improve vehicle driving safety, and reduce the occurrence of traffic accidents.

5.4 Future Prospects

With the continuous development of the automobile industry, chassis control technology will also continue to iterate and upgrade, and future development will present the following directions: 1. Intelligence: Chassis control technology will be combined with intelligent technology to achieve more precise and efficient control; 2. Electrification: With the popularization of electric vehicles, chassis control technology will continue to adapt to the trend of electrification and provide more precise and stable control; 3. Lightweight: With the pressure of environmental protection and energy crisis, lightweight technology will become an important direction for the development of chassis control technology, reducing the weight of the vehicle body, improving fuel efficiency and reducing emissions; 4. Reliability: Chassis control technology needs to place more emphasis on reliability, reduce failure rate and improve safety to ensure the stability and reliability of the vehicle; 5. Automation: Chassis control technology will also continue to develop in the direction of automation, realize functions such as automatic driving and automatic parking, and improve driving comfort and safety; 6. Intelligent networking: Chassis control technology will also be combined with intelligent networking technology to realize information exchange and sharing between vehicles and improve traffic efficiency and safety; 7. Diversification: Chassis control technology will also adapt to different types of vehicles, such as SUV, MPV and other different types of models to meet the needs of different users.