Meet
Meet
Meet
Coco 2
Coco 2
Coco 2
Autonomous delivery, engineered for complex urban environments and city-scale operations.
21
Speed (kph)
32
Range (km)
Autonomous delivery, engineered for complex urban environments and city-scale operations.
21
Speed (kph)
32
Range (km)
Autonomous delivery, engineered for complex urban environments and city-scale operations.
21
Speed (kph)
32
Range (km)
Autonomous delivery, engineered for complex urban environments and city-scale operations.
21
Speed (kph)
32
Range (km)
MAX GRADE : 30 degrees
MAX GRADE : 30 degrees
Quick Swappable Tires
Quick Swappable Tires
Swappable Battery
Swappable Battery
360 turn-in-place
360 turn-in-place
Fit 4x 18 in Pizza
Fit 4x 18 in Pizza
Air Blade
Air Blade
Solid State Lidar
Solid State Lidar
360 Light Ring
360 Light Ring
At Scale
Real World AI
Real World AI At Scale
Real World AI At Scale
Real world AI At Scale
End-to-End Neural Networks
Coco Robotics navigates dense urban environments by combining precision mapping, end-to-end neural networks, and human oversight. Its delivery vehicles are built to handle unpredictable terrain—like crowded sidewalks, uneven surfaces, and low-light conditions—common in cities like Los Angeles. With onboard cameras, LiDAR, and GPS, Coco’s robots can safely maneuver through complex pathways, delivering goods quickly and reliably while adapting to ever-changing street-level dynamics.
End-to-End Neural Networks
Coco Robotics navigates dense urban environments by combining precision mapping, end-to-end neural networks, and human oversight. Its delivery vehicles are built to handle unpredictable terrain—like crowded sidewalks, uneven surfaces, and low-light conditions—common in cities like Los Angeles. With onboard cameras, LiDAR, and GPS, Coco’s robots can safely maneuver through complex pathways, delivering goods quickly and reliably while adapting to ever-changing street-level dynamics.
End-to-End Neural Networks
Coco Robotics navigates dense urban environments by combining precision mapping, end-to-end neural networks, and human oversight. Its delivery vehicles are built to handle unpredictable terrain—like crowded sidewalks, uneven surfaces, and low-light conditions—common in cities like Los Angeles. With onboard cameras, LiDAR, and GPS, Coco’s robots can safely maneuver through complex pathways, delivering goods quickly and reliably while adapting to ever-changing street-level dynamics.
End-to-End Neural Networks
Coco Robotics navigates dense urban environments by combining precision mapping, end-to-end neural networks, and human oversight. Its delivery vehicles are built to handle unpredictable terrain—like crowded sidewalks, uneven surfaces, and low-light conditions—common in cities like Los Angeles. With onboard cameras, LiDAR, and GPS, Coco’s robots can safely maneuver through complex pathways, delivering goods quickly and reliably while adapting to ever-changing street-level dynamics.
Urban Robotics Platform
Behind the scenes, a digital product suite ensures precise navigation by integrating advanced algorithms and real-time data analytics. Continuously collecting and processing data, it refines every navigational decision while driving constant improvements. This dynamic system adapts and evolves, optimizing operations to meet ever-changing demands with unmatched accuracy.
Urban Robotics Platform
Behind the scenes, a digital product suite ensures precise navigation by integrating advanced algorithms and real-time data analytics. Continuously collecting and processing data, it refines every navigational decision while driving constant improvements. This dynamic system adapts and evolves, optimizing operations to meet ever-changing demands with unmatched accuracy.
Urban Robotics Platform
Behind the scenes, a digital product suite ensures precise navigation by integrating advanced algorithms and real-time data analytics. Continuously collecting and processing data, it refines every navigational decision while driving constant improvements. This dynamic system adapts and evolves, optimizing operations to meet ever-changing demands with unmatched accuracy.
Urban Robotics Platform
Behind the scenes, a digital product suite ensures precise navigation by integrating advanced algorithms and real-time data analytics. Continuously collecting and processing data, it refines every navigational decision while driving constant improvements. This dynamic system adapts and evolves, optimizing operations to meet ever-changing demands with unmatched accuracy.
Capabilities
Human <> AI Collaboration
When human intervention is needed, the Pilot Terminal instantly delivers all relevant context—ETA, turn-by-turn navigation, obstruction alerts, a troubleshooting guide, and map annotation tools—for fast, informed decision-making.
Human <> AI Collaboration
When human intervention is needed, the Pilot Terminal instantly delivers all relevant context—ETA, turn-by-turn navigation, obstruction alerts, a troubleshooting guide, and map annotation tools—for fast, informed decision-making.
Real-Time Map Intelligence
A combination of AI and human operators keeps our city maps continuously updated with dynamic data like construction zones, blocked sidewalks, poor infrastructure, and heavy pedestrian areas.
Real-Time Map Intelligence
A combination of AI and human operators keeps our city maps continuously updated with dynamic data like construction zones, blocked sidewalks, poor infrastructure, and heavy pedestrian areas.
Citywide Reach
Our intelligent mapping system enables reliable delivery access to nearly every sidewalk, roadway, and pathway across the city—maximizing reach and minimizing delays.
Citywide Reach
Our intelligent mapping system enables reliable delivery access to nearly every sidewalk, roadway, and pathway across the city—maximizing reach and minimizing delays.
