Author :
Srinivasan, Mandyam V. ; Thurrowgood, Saul ; Soccol, Dean
Abstract :
In this article, we describe how flying insects use vision for guidance, especially in the contexts of regulating flight speed, negotiating narrow gaps, avoiding obstacles, and performing smooth landings. We show that many of these maneuvers, which were traditionally believed to involve relatively complex and high-level perception, can be achieved through the use of low-level cues and relatively simple computation. We also describe tests of the effectiveness of some of these strategies for autonomous guidance of small-scale terrestrial and aerial vehicles in the contexts of corridor navigation, altitude control, and terrain following and landing. We also describe a novel, mirror- based imaging system that is tailored for these tasks and facilitates the requisite visual computations.
Keywords :
aerospace robotics; aircraft; collision avoidance; mobile robots; robot vision; velocity control; aerial vehicles; altitude control; competent vision; corridor navigation; flight speed regulation; flying insects; mirror-based imaging system; navigation systems; obstacle avoidance; small-scale terrestrial vehicles; smooth landings; terrain following; Eyes; Gratings; Humans; Insects; Machine vision; Mobile robots; Navigation; Optical refraction; Remotely operated vehicles; Retina; Vision; aerial robotics; biologically inspired robots; insects;
