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References (18)
-
G. Stange, J. Howard (1979)
An Ocellar Dorsal Light Response in a DragonflyThe Journal of Experimental Biology, 83
-
R. Moore, Saul Thurrowgood, M. Srinivasan (2012)
Vision-only estimation of wind field strength and direction from an aerial platform2012 IEEE/RSJ International Conference on Intelligent Robots and Systems
-
10.1242/jeb.83.1.351
-
Martin Wilson (1978)
The functional organisation of locust ocelliJournal of comparative physiology, 124
-
G. Horváth, D. Varjú (2004)
Polarized Light in Animal Vision: Polarization Patterns in Nature -
M. Srinivasan, Shao-Wu Zhang (2004)
Visual motor computations in insects.Annual review of neuroscience, 27
-
M. Franz, H. Krapp (2000)
Wide-field, motion-sensitive neurons and matched filters for optic flow fieldsBiological Cybernetics, 83
-
D. Lambrinos, Hiroshi Kobayashi, R. Pfeifer, M. Maris, T. Labhart, R. Wehner (1997)
An Autonomous Agent Navigating with a Polarized Light CompassAdaptive Behavior, 6
-
M. Srinivasan, Shao-Wu Zhang, M. Lehrer, T. Collett (1996)
Honeybee navigation en route to the goal: visual flight control and odometryThe Journal of experimental biology, 199 Pt 1
-
J. Chu, Kaichun Zhao, Qiang Zhang, Tichang Wang (2008)
Construction and performance test of a novel polarization sensor for navigationSensors and Actuators A-physical, 148
-
B. Hassenstein, W. Reichardt (1956)
Systemtheoretische Analyse der Zeit-, Reihenfolgen- und Vorzeichenauswertung bei der Bewegungsperzeption des Rüsselkäfers ChlorophanusZeitschrift für Naturforschung B, 11
-
J. Chahl, G. Dorrington, S. Premachandran, A. Mizutani (2013)
The Dragonfly Flight Envelope and its Application to Micro UAV Research and DevelopmentIFAC Proceedings Volumes, 46
-
R. Brooks (1990)
Elephants don't play chessRobotics Auton. Syst., 6
-
F. Ruffier, N. Franceschini (2005)
Optic flow regulation: the key to aircraft automatic guidanceRobotics Auton. Syst., 50
-
Huamg Xian-lin (2007)
Polarized-Light/Geomagnetism/GPS/SINS Integrated Navigation -
10.1242/jeb.199.1.237
-
K. Frisch (1965)
Tanzsprache und Orientierung der Bienen -
J. Strutt (1871)
XV. On the light from the sky, its polarization and colourPhilosophical Magazine Series 1, 41
- Publisher
- Emerald Publishing
- Copyright
- Copyright © Emerald Group Publishing Limited
- ISSN
- 2049-6427
- DOI
- 10.1108/IJIUS-01-2013-0008
- Publisher site
- See Article on Publisher Site
Abstract
Purpose– Insects depend on the spatial, temporal and spectral distribution of light in the environment for navigation, collision avoidance and flight control. The principles of insect vision have been gradually revealed over the course of decades by biological scientists. The purpose of this paper is to report on bioinspired implementations and flight tests of these sensors and reflexes on unmanned aerial vehicles (UAVs). The devices are used for the stabilization of UAVs in attitude, heading and position. The implementations were developed to test the hypothesis that current understanding of insect optical flight control systems is feasible in real systems. Design/methodology/approach– Design was based on behavioral and anatomical studies of insects. The approach taken was to test the designs in flight on a UAV. Findings– The research showed that stabilization in attitude, heading and position is possible using the developed sensors. Practical implications– Partial alternatives to magnetic, inertial and GPS sensing have been demonstrated. Optical flow and polarization compassing are particularly relevant to flight in urban environments and in planetary exploration. Originality/value– For the first time the use of multispectral horizon sensing, polarization compassing and optical flow-based heading control have been demonstrated in flight.
Journal
International Journal of Intelligent Unmanned Systems – Emerald Publishing
Published: Feb 4, 2014