
Picking Up Momentum
Atlas’s controller combines the robot’s perception with high-level mobility and manipulation tasks, enabling the robot to make smart decisions about how to move through the world.
Atlas’s controller combines the robot’s perception with high-level mobility and manipulation tasks, enabling the robot to make smart decisions about how to move through the world.
With a new routine for Atlas, Boston Dynamics engineers have pushed the humanoid robot one step closer to performing real-world manipulation tasks at human speed.
Josh, a mechanical engineer on the Atlas team, has been with Boston Dynamics for four years.
Boston Dynamics is adding features and capabilities to the Spot platform; these improvements include hardware upgrades and an expanded payload ecosystem.
How resilient is Spot to radiation? Recent testing revealed that Spot can absorb 413 rem of gamma radiation without system failures.
Researchers consider many factors when selecting a robot, but the most important factor is that the robot enables these teams to prioritize the research.
Spot’s robust, flexible API and advanced mobility make it a powerful platform to unlock the operational data you really need.
Companies are turning to AI to advance their digital transformation. Dynamic sensing accelerates that transformation by bringing the sensors to the assets.
We use parkour to study behavior creation, dynamic locomotion, and connections between perception and control that allow the robot to adapt on the move.
Training Atlas to maneuver its way through complex parkour courses, Boston Dynamics engineers push the humanoid robot to its limits.
Dance pushes Spot’s hardware, as well our engineers' creativity. Our Choreographer software bridges the gap between traditional choreography and robotics.
Getting seven Spots to dance in unison presented an exciting challenge – as well as a new opportunity to push the robots to their limits.