Real-Time Spatiotemporal Tubes for Dynamic Unsafe Sets
By: Ratnangshu Das, Siddhartha Upadhyay, Pushpak Jagtap
Potential Business Impact:
Robot safely reaches goal on time.
This paper presents a real-time control framework for nonlinear pure-feedback systems with unknown dynamics to satisfy reach-avoid-stay tasks within a prescribed time in dynamic environments. To achieve this, we introduce a real-time spatiotemporal tube (STT) framework. An STT is defined as a time-varying ball in the state space whose center and radius adapt online using only real-time sensory input. A closed-form, approximation-free control law is then derived to constrain the system output within the STT, ensuring safety and task satisfaction. We provide formal guarantees for obstacle avoidance and on-time task completion. The effectiveness and scalability of the framework are demonstrated through simulations and hardware experiments on a mobile robot and an aerial vehicle, navigating in cluttered dynamic environments.
Similar Papers
Spatiotemporal Tubes for Differential Drive Robots with Model Uncertainty
Robotics
Robot safely navigates to goal, avoiding moving obstacles.
Spatiotemporal Tubes based Control of Unknown Multi-Agent Systems for Temporal Reach-Avoid-Stay Tasks
Systems and Control
Robots and drones avoid each other, reach goals.
Smooth Spatiotemporal Tube Synthesis for Prescribed-Time Reach-Avoid-Stay Control
Systems and Control
Guides robots safely to goals, using less energy.