Answer:
In-vehicle technologies refer to the electronic systems and devices that are built into vehicles to provide a safer, more comfortable, and more convenient driving experience. These technologies can include features like anti-lock brakes, lane departure warnings, collision avoidance systems, and adaptive cruise control. By providing drivers with advanced warning and assistance in potentially dangerous situations, these technologies can help prevent accidents and reduce the severity of collisions.
Computers are embedded in vehicles to power and control the in-vehicle technologies. These computers are typically small, specialized computers known as electronic control units (ECUs), which are integrated into various systems throughout the vehicle. For example, an ECU might control the engine, the transmission, the brakes, or the suspension system. These computers receive information from various sensors located throughout the vehicle, process that information using pre-programmed software, and then issue commands to various actuators to control the vehicle's systems.
The use of computers in vehicles has revolutionized the automotive industry, making cars safer, more efficient, and more reliable than ever before. With the increasing sophistication of in-vehicle technologies, cars are becoming more like mobile computers than traditional mechanical machines. As a result, computer engineers are now an essential part of the automotive design process, working to create the advanced systems that make driving safer and more enjoyable for everyone.
Step-by-step explanation: