Airy
The World’s First 192-Beam
Hemispherical Digital LiDAR
Hemispherical Digital LiDAR
Airy is the first digital hemispherical LiDAR on the R platform, featuring a chip-based transceiver solution and a high-sensitivity digital detection scheme. Compact in size, comparable to a ping-pong ball, it delivers an ultra-wide hemispherical FOV with 360° horizontal and 90° vertical coverage, encompassing a 60-meter radius range. With 1.72 million points per second and ±1cm detection accuracy, Airy provides real-time detection of object size, contour, and distance. Its well-structured, algorithm-friendly point clouds enable exceptional performance in obstacle avoidance, mapping, and navigation tasks.
Airy supports a wide variety of robots operating seamlessly in diverse lighting conditions, enabling all-weather continuous operations and advancing the intelligent application of robots across all scenarios.
360°×90°
Perfect hemispherical FOV
±1cm
High precision
192-beam
Max number of beams
IMU
Integrated
1,720,000 pts/s
High-quality point cloud
φ60×H63 (mm)
Mini size
30m@10%
Longer range
<8W
Low power consumption
Compact and Lightweight, Flexible Deployment
E1R is not only compact and lightweight but also features a small, flat, and flush light-emitting window with no protrusions. This design ensures flexible integration into various robotic structures. Additionally, the device comes equipped with a 1/4-inch threaded mount, making it compatible with a wide range of photographic accessories, facilitating robot development and debugging.
Hemispherical FOV, Full-Range Coverage
E1R offers an ultra-wide 120° × 90° field of view (FOV), delivering comprehensive and precise perception capabilities for advanced autonomous navigation and decision-making. With a ranging capability of 30m@10% and a maximum detection range of 75m—over seven times that of conventional depth cameras. E1R ensures early detection of distant objects. This enables precise target identification and effective obstacle avoidance, making it an ideal solution for a variety of robotic applications.
192-beam Precision Point Cloud with an Accuracy of ± 1cm
Airy achieves a groundbreaking 192 beams of resolution, delivering up to 1.72 million points per second with ±1cm detection accuracy. It excels in precisely detecting various dynamic and static small obstacles at both short and long distances. This ensures safe collision avoidance while efficiently completing 3D mapping and accurately reconstructing indoor and outdoor environments such as homes, warehouses, courtyards, and ports.
Airy employs a repetitive scanning approach to generate high-precision, well-structured point cloud images in real time. Its algorithm-friendly design enhances mapping, perception, and sensor fusion capabilities, significantly improving detection performance across diverse application scenarios. E1R delivers up to 260,000 points per second with 144-beam neatly structured point clouds, enabling precise detection of various dynamic and static small obstacles. It excels in efficient 3D mapping, accurately reconstructing environments such as roads, courtyards, warehouses, and ports.
Airy employs a repetitive scanning approach to generate high-precision, well-structured point cloud images in real time. Its algorithm-friendly design enhances mapping, perception, and sensor fusion capabilities, significantly improving detection performance across diverse application scenarios. E1R delivers up to 260,000 points per second with 144-beam neatly structured point clouds, enabling precise detection of various dynamic and static small obstacles. It excels in efficient 3D mapping, accurately reconstructing environments such as roads, courtyards, warehouses, and ports.
Digital Architecture, Ultimate Integration
Airy uses next-generation VCSEL emitter chips and high-sensitivity SPAD-SOC chips. It employs a digital transmission and reception architecture, streamlining signal processing and transmission pathways. Compared to non-digital products, Airy ensures no loss of echo data, delivers high-quality point cloud outputs, and significantly reduces product size.