Velodyne develops Lidar sensor for AV mobility

Velodyne has released a Lidar solution which it says utilises surround-view technology to meet specifications for autonomous mobility. 
By Ben Spencer February 13, 2020 Read time: 1 min
Velodyne Alpha Prime (Source: Velodyne)

Velodyne claims Alpha Prime provides a 360-degree perception and a 40-degree vertical field of view while also providing capabilities that help improve vehicle safety and enable more precise mapping. 

The solution is expected to detect dark vehicles, low reflectivity pavement and low visibility pedestrians at long distances. The sensor offers advanced negative obstacle detection perception for potholes and cracks in the road as well as high resolution and laser calibration to localise vehicles without a GPS, the company adds. 
 

Detection, Monitoring & Machine Vision

Related Content

  • December 12, 2013
    One eye on the future
    Mobileye’s Itay Gat discusses the evolution of monocular solutions for assisted and autonomous driving with Jason Barnes. Founded in 1999, Israeli company Mobileye manufactures and supplies advanced driver assistance systems (ADAS) based on its EyeQ family of systems-on-chips for image processing for solutions such as lane sensing, traffic sign recognition, vehicle and pedestrian detection. Its products are used by both the OEM and aftermarket sectors. The company’s visual interpretation algorithms drive
    Read More
  • January 18, 2021
    Cepton thinks small with Nova Lidar
    Miniature Lidar sensor is priced below $100 and designed for AV and ADAS applications
    Read More
  • February 8, 2021
    Voi adds air quality sensor to V4 e-scooter
    Data collected will be processed through micromobility company's IoT hardware
    Read More
  • January 26, 2017
    Fully autonomous vehicles ‘spur LiDAR sensors mass adoption’
    Cost-effective, high-resolution light detection and ranging (LiDAR) sensors capable of long-range object detection will be necessary for high to fully-automated driving applications. Demand for 3D mapping and imaging, better overall performance, automated processing of graphic data gathering and self-sufficient sensor with best-in-class performance in low-visibility conditions are factors driving the development and adoption of LiDAR sensors within the advanced driver assistance systems (ADAS) sensor suite
    Read More

Highlighted Content