Mobile Robot Navigation Amidst Humans with Intents and Uncertainties: A Time Scaled Collision Cone Approach

Akhil Nagariya1    Bharath Gopalakrishnan1    Arun Kumar Singh2    Krishnam Gupta1    K.Madhava Krishna1   

1 IIIT Hyderabad, India    2 Bio-Medical Robotics Lab, BGU, Israel   


We propose a novel collision avoidance formulation in the intent space, suitable for navigation of non-holonomic robots in human centered environments. The intent space is characterized by various bands of trajectories wherein each band can be thought to be a representation of a possible human intended motion and the uncertainty associated with it. We ascribe probabilities to human intentions and characterize the uncertainty around it through Gaussian state transition and its concomitant Gaussian parametric distribution. Given an intent space we design avoidance maneuvers based on our recent works on time scaled collision cone concept which provides analytical characterization of collision free velocities in dynamic environments. In this paper, we present a probabilistic variant of the time scaled collision cone which allows us to relate space of collision free velocities to an associated confidence measure. We also develop an optimization framework which extract such specific solutions from the entire solution space that achieves an elegant balance between the objective of minimizing risk and ease of avoidance maneuver. We further show that by accounting for possible intents in human motion, the method transcends the realm of reactive avoidance to proactive anticipation of collisions and its effective avoidance,thereby increasing the overall safety of navigation