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ECAL
2001
Springer
2001
Springer
Insect Inspired Visual Control of Translatory Flight
Flying insects use highly efficient visual strategies to control their self-motion in three-dimensional space. We present a biologically inspired, minimalistic model for visual flight control in an autonomous agent. Large, specialized receptive fields exploit the distribution of local intensities and local motion in an omnidirectional field of view, extracting the information required for attitude control, course stabilization, obstacle avoidance, and altitude control. In openloop simulations, recordings from each control mechanism robustly indicate the sign of attitude angles, self-rotation, obstacle direction and altitude deviation, respectively. Closed-loop experiments show that these signals are sufficient for three-dimensional flight stabilization with six degrees of freedom.
Real-time TrafficArtificial Intelligence | ECAL 2001 | Efficient Visual Strategies | Three-dimensional flight Stabilization | Visual flight Control |
| Added | 28 Jul 2010 |
| Updated | 28 Jul 2010 |
| Type | Conference |
| Year | 2001 |
| Where | ECAL |
| Authors | Titus R. Neumann, Heinrich H. Bülthoff |
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