What is the principle of the vehicle 360-degree panoramic view?
2 Answers
The principle of the vehicle 360-degree panoramic view is achieved through cameras installed on the front and rear mirrors of the car. When the 360-degree panoramic assist system is activated, the cameras on the car upload the captured images to the onboard computer. The onboard computer then processes the images to simulate a bird's-eye view of the car, achieving the 360-degree panoramic effect. The functions of the vehicle 360-degree panoramic view include: 1. During driving, four ultra-clear cameras synchronously record the driving footage; 2. While driving, the display screen shows images around the car body, eliminating blind spots; 3. When reversing, the system automatically triggers the rearview image, allowing the driver to accurately determine if there are obstacles behind the car and guiding the driver on the trajectory the wheels will follow; 4. The system includes a built-in vibration sensor that automatically records footage upon detecting vibrations.
As someone quite interested in automotive technology, let me explain the principle behind a vehicle's 360-degree panoramic system. This system relies on cameras installed at four corners of the car – such as the front, rear, and both sides – each equipped with wide-angle lenses to capture the surrounding views. When the driver activates the function, these cameras work simultaneously, transmitting real-time images to the onboard computer. The software in the computer uses algorithms to stitch multiple images together, correcting distortions and perspective differences, ultimately outputting a bird's-eye or surround view displayed on the screen. This process requires rapid processing of image data to ensure seamless stitching. Additionally, some high-end models integrate sensors like ultrasonic or radar to enhance accuracy. Overall, it's a perfect combination of hardware cameras and software processing, allowing drivers to see blind spots clearly during parking or low-speed driving, avoiding scratches and collisions. The original design intent is to make driving safer and more convenient.
