 |
| Quantity: | |
|---|---|
In recent years, with the innovation of monitoring technology, camera 360 parking monitoring has attracted the attention and love of customers. So, what are the benefits of 360-degree panoramic monitoring? What does it do? Today, we will analyze in detail the design principle and application of vehicle 360 circumnavigation monitoring.
As we all know, surveillance video images can provide drivers with a lot of information around the body, and combine this information with smart cameras and algorithms for future autonomous driving services. Examples include front-view collision avoidance systems, rear-view reverse imagery, blind spot monitoring and 360-degree monitoring. Therefore, with the development of automotive technology sensor technology, the application of 2D and 3D image display has been concerned.
Driver assistance systems typically use 4-6 wide-angle cameras to simultaneously input influence information around the vehicle. After the vehicle 360-degree panoramic image processing unit corrects the stitching (gelling processing to ensure image integrity), 2D and 3D panoramic images are formed around the vehicle and transmitted to the cab display in real time, allowing the driver to see the location of the vehicle and surrounding obstacles, helping the driver to park or drive on complex roads. By supporting extended connected 360 monitoring, the intelligent cabin can obtain a full range of perspectives, and can obtain 360-degree video surveillance around the vehicle in real time, so as to more accurately understand the situation around the vehicle and improve driving safety. In addition, this extended connection can also make it easier for users to install and use other third-party cameras or sensors for more smart cabin function expansion.
For example, when the vehicle encounters pedestrians or other obstacles during the driving process, 360 monitoring can timely capture the position and distance information of these obstacles, and the information is transmitted to the intelligent cockpit system in a timely manner, and then the system can automatically plan a more reasonable driving path according to this information, so as to effectively avoid the occurrence of collision accidents.
In short, the intelligent cabin that supports extended connected 360 monitoring can further improve the safety performance and driving experience of the vehicle, which is a very practical way to expand the function.
In recent years, with the innovation of monitoring technology, camera 360 parking monitoring has attracted the attention and love of customers. So, what are the benefits of 360-degree panoramic monitoring? What does it do? Today, we will analyze in detail the design principle and application of vehicle 360 circumnavigation monitoring.
As we all know, surveillance video images can provide drivers with a lot of information around the body, and combine this information with smart cameras and algorithms for future autonomous driving services. Examples include front-view collision avoidance systems, rear-view reverse imagery, blind spot monitoring and 360-degree monitoring. Therefore, with the development of automotive technology sensor technology, the application of 2D and 3D image display has been concerned.
Driver assistance systems typically use 4-6 wide-angle cameras to simultaneously input influence information around the vehicle. After the vehicle 360-degree panoramic image processing unit corrects the stitching (gelling processing to ensure image integrity), 2D and 3D panoramic images are formed around the vehicle and transmitted to the cab display in real time, allowing the driver to see the location of the vehicle and surrounding obstacles, helping the driver to park or drive on complex roads. By supporting extended connected 360 monitoring, the intelligent cabin can obtain a full range of perspectives, and can obtain 360-degree video surveillance around the vehicle in real time, so as to more accurately understand the situation around the vehicle and improve driving safety. In addition, this extended connection can also make it easier for users to install and use other third-party cameras or sensors for more smart cabin function expansion.
For example, when the vehicle encounters pedestrians or other obstacles during the driving process, 360 monitoring can timely capture the position and distance information of these obstacles, and the information is transmitted to the intelligent cockpit system in a timely manner, and then the system can automatically plan a more reasonable driving path according to this information, so as to effectively avoid the occurrence of collision accidents.
In short, the intelligent cabin that supports extended connected 360 monitoring can further improve the safety performance and driving experience of the vehicle, which is a very practical way to expand the function.
