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Customers can employ lidar perception software in their self-driving systems. Companies can use the kit to shorten the time it takes to apply cutting-edge lidar capabilities to driverless vehicles, sophisticated driver assistance systems, mobile delivery devices, industrial robotics, drones, and other applications.
To deliver full vehicle safety solutions, ADAS systems cannot rely just on vision and RADAR-based technologies; they require more efficient systems capable of providing extremely precise data for improved driver support. LIDAR comes into play here.
This sensor for self-driving automobiles responds to all light conditions, even extreme scenarios when there is either too much or no light at all. The LiDAR sensor even calculates the braking distance based on the density of precipitation.
The Global Autonomous Lidar Development Kit Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Velodyne Lidar Launches Vella Development Kit for Self-Contained Solutions Velodyne Lidar’s Vella Development Kit (VDK) enables clients to employ the advanced capabilities of Vella lidar perception software in autonomous applications.
VDK enables organisations to shorten the time it takes to add cutting-edge lidar capabilities to autonomous vehicles, advanced driver assistance systems (ADAS), mobile delivery devices, industrial robotics, drones, and other applications.
(Graphic: Velodyne Lidar) announced today a new software development kit that enables clients to include the superior capabilities of Velodyne’s Vella lidar perception software into their autonomous solutions.
The Vella Development Kit (VDK) allows organisations to shorten the time it takes to add cutting-edge lidar capabilities to autonomous vehicles, advanced driver assistance systems (ADAS), mobile delivery devices, industrial robotics, drones, and other applications.
VDK enables businesses to make better use of their development resources by lowering the time and effort required to incorporate 3D lidar sensors into apps. VDK has Vella processing tools that convert raw point cloud data into richer, more descriptive information in real time.
These higher-level perception outputs, such as object classification, velocity measurement, semantic scene segmentation, and obstacle identification, can be used directly by autonomous system developers who lack extensive knowledge of lidar processing.
VDK is intended to take advantage of the distinct and strong capabilities of Velodyne’s latest solid-state Velarray H800 and Velarray M1600 lidar sensors, with support for additional sensors being added with each release.
