A new generation of Ouster digital lidar, powered by custom L4 Ouster Silicon. Rev8 introduces native color lidar, provides up to double the range and resolution, and is designed for functional safety, reliability, affordability, and scale.

Researchers at Freie Universität Berlin are changing a storage paradigm for autonomous navigation. By using Ouster OS2 digital lidar to create ultra-lightweight bird's-eye-view maps, the team achieved sub-50cm localization accuracy with a map footprint of just 4 MB per square kilometer.

From Canadian roots to global leadership, Ouster BlueCity is modernizing the intelligent transportation sector. Learn how BlueCity started, grew at Velodyne and further at Ouster into what it is today.

Researchers at Inha University are improving lidar performance degradation in extreme weather with LIORNet (a self-supervised U-Net++ architecture) and Ouster digital lidar. They achieve a 96% snow removal rate while preserving critical urban structures in real-time.

Inside the update: native 3D Zone Monitoring, advanced Window Blockage Detection, and Synchronous IMU. Enhance SLAM accuracy and offload compute requirements with edge-processing.

Researchers at the Royal Institute of Technology in Stockholm are solving dynamic SLAM with Transitional Grid Maps (TGMs). By using Ouster OS1 digital lidar to model static and dynamic occupancy, the team eliminated map "ghosting" in busy traffic.

Learn how to achieve "crisp" 3D lidar maps using Ouster’s REV7 OS1 and firmware 3.2. This guide covers optimal SLAM configurations, beam collimation benefits, and ouster-cli commands for voxel sizing and reflectivity filtering to maximize spatial accuracy