Self-collision avoidance and angular momentum compensation for a biped humanoid robot

Abstract: To simplify the development of new trajectories for a humanoid robot with many joints, the ability to check for potential collisions is crucial. More importantly, to enable online generation of general motions, such as whole-body-motion, collision avoidance must be employed, which is usually more challenging. In this paper, a model-based and efficient on-line distance calculation between links of the robot is proposed. To avoid collisions the results are projected into the nullspace term of the inverse-kinemat… Show more

“…For Lola the vector y is a gradient to an optimization criterion H dedicated to self-collision-avoidance, joint-limit-avoidance and angularmomentum-compensation. For further information see [1]. Since y is only projected into null-space, it doesn't affect the reference trajectories given in task-space.…”

“…Schwienbacher et al [1] developed a framework to detect and prevent self-collisions based on distance calculations via swept-sphere-volumes (SSV). It is a computationally efficient method which additionally provides a way to accurately model geometries.…”

“…Note that the environment can be varied dynamically by adding or removing obstacles. According to [1], we define the collision environment C as follows:…”

“…In this paper we present a new method which combines a local potential field method with a heuristic based on height and width of an obstacle. We add obstacle avoidance in taskspace to our framework for self-collision avoidance [1]. This has several advantages: Our framework enables the robot to avoid precisely modeled obstacles.…”

Real-time 3D collision avoidance for biped robots

“…For Lola the vector y is a gradient to an optimization criterion H dedicated to self-collision-avoidance, joint-limit-avoidance and angularmomentum-compensation. For further information see [1]. Since y is only projected into null-space, it doesn't affect the reference trajectories given in task-space.…”

“…Schwienbacher et al [1] developed a framework to detect and prevent self-collisions based on distance calculations via swept-sphere-volumes (SSV). It is a computationally efficient method which additionally provides a way to accurately model geometries.…”

“…Note that the environment can be varied dynamically by adding or removing obstacles. According to [1], we define the collision environment C as follows:…”

“…In this paper we present a new method which combines a local potential field method with a heuristic based on height and width of an obstacle. We add obstacle avoidance in taskspace to our framework for self-collision avoidance [1]. This has several advantages: Our framework enables the robot to avoid precisely modeled obstacles.…”

Real-time 3D collision avoidance for biped robots

“…6 Animation of the simplified geometry model for self-collision avoidance together with the CADgeometry. Lines indicate the shortest distances between two segments, the distance is indicated by the color of the corresponding SSVs [5] required for contact force control are determined from a physical model of the compliant contact, the multibody model of the robot and the forces currently acting on the system (see Ref.…”

The Biped Walking Robot Lola

Johnnie and LOLA: The TUM Bipeds