Automated driving cars are evolving from a future dream to a contemporary reality, and as technology matures, personal and public transportation will change forever. In the end, driverless cars will completely replace human drivers, and there will be no dangerous, sleepy, injured and distracted drivers on the road.
In 2017, nearly 40,000 Americans died in traffic accidents. According to the National Highway Traffic Safety Administration, about 90% of accidents were caused by human error.
The advantages of self-driving vehicles are mainly reflected in five aspects, including reducing accidents and deaths, increasing the possibility of undriving people, environmental protection, releasing parking space and alleviating traffic congestion. The main factors that determine the development of the autonomous driving industry are technology, policy, and consumer acceptance. These aspects currently have the potential to accelerate breakthroughs.
Artificial intelligence drives autonomous vehicles to keep the car autonomous and needs to constantly understand its surroundings. First, by sensing (identifying and classifying information), then taking action on the information through automatic, computer control of the vehicle. Self-driving cars require safe and responsive solutions that require a detailed understanding of the driving environment and then make decisions on the fly. Understanding the driving environment requires capturing large amounts of data from many different sensors in the car and then processing it by the vehicle's autopilot computer system.
Autopilot system
In order for the vehicle to actually drive unmanned, a number of trainings must be first conducted on the artificial intelligence (AI) network to understand how to view, understand what is being seen and make the right traffic for any conceivable traffic situation. Decision making. The computational performance of autonomous vehicles is comparable to some of the highest performance platforms available in recent years.
Automated car AI systems require continuous, uninterrupted data and instruction flow to make real-time decisions based on complex data sets. There are already autonomous vehicles that can successfully travel on the road, but the success of many of these early vehicles is the result of repeated iterations on the same route over many days, where they learn every detail of the route and generate high resolution. The rate map is then used as a key part of the self-navigation system. Since the route is not often identified, the attention of the automated computer can be placed on traffic, pedestrians, and other potential real-time hazards. This generally restricted range of operations is known as geofencing and reflects the approach taken by early autopilots when deployed in truly unmanned vehicles. While geofencing can provide solutions that work on a limited route, autonomous vehicles that rely heavily on geofencing in one part of the world may not be able to drive in another.
Wire-to-board connector for self-driving cars
The role of the wire-to-board connector in the car is huge, ensuring the normal operation of the car during driving, then the design of the car's wire-to-board connector is based on what standards and design awareness guarantees the car. The connector is normal and secure.
First of all, the design standards and factors ensure the safety of the car. The first consideration is the stability and safety of the materials produced and designed. The purchase and use of materials are very cautious and stable, so that the car wire can be guaranteed. The performance of the -to-board connector is stable. Secondly, it is stable and suitable for the voltage and power of the car's vibration, so that the bridge of the car's wire-to-board connector is stable, safe and reliable. Again, the temperature sensed by the connecting line must be considered in multiple directions. Considering not only the thermal shock of the huge energy emitted by the car itself, but also the temperature difference caused by the external environment will not affect the car wire- The performance of the to-board connector and the safety of the body. Finally, to ensure the retention of the car's wire-to-board connector, this is an important insurance factor for the support of the horse's horsepower. It must have some support to ensure the safety design of the car's wire-to-board connector. Use safety.
summary
The wire-to-board connector is the perfect combination of the automotive industry and electronic engineering technology, and such development, in the future development trend, there is a certain market. In the current rapid development of automation, wire-to-board connector Will be applied more and more。
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