Paper ID: 2305.17217
Tactile-based Exploration, Mapping and Navigation with Collision-Resilient Aerial Vehicles
Karishma Patnaik, Aravind Adhith Pandian Saravanakumaran, Wenlong Zhang
In this article, we introduce novel tactile-based motion primitives termed "tactile-traversal", "tactile-turning" and "ricocheting" for unmanned aerial vehicles (UAVs). These primitives enable contact-rich UAV missions such as tactile-based exploration, mapping, and collision-inclusive navigation. We begin by introducing XPLORER, a passive deformable UAV that sustains collisions and establishes smooth contacts by exploiting its spring-augmented chassis. Next, an improved and fast converging external force estimation algorithm is proposed to detect contacts/collisions. We also design three distinct reaction controllers for (i) static-wrench application, (ii) disturbance rejection, and (iii) collision recovery. Finally, the three new tactile-based motion primitives are proposed by leveraging the reactions obtained from deploying these controllers to interact with surroundings. We showcase the effectiveness of these primitives to facilitate efficient exploration and rapid navigation in unknown environments by capitalizing on collisions and contacts.
Submitted: May 26, 2023