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A Multi-Agent System for Autonomous Adaptive Control of a Flapping-Wing Micro Air Vehicle.

, , , и . SSCI, стр. 1073-1080. IEEE, (2015)

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John C Maraldo

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A Multi-Agent System for Autonomous Adaptive Control of a Flapping-Wing Micro Air Vehicle., , , и . SSCI, стр. 1073-1080. IEEE, (2015)A Reconfigurable Analog Neural Network for Evolvable Hardware Applications: Intrinsic Evolution and Extrinsic Verification., , и . IEEE Congress on Evolutionary Computation, стр. 3145-3152. IEEE, (2006)Evolution and analysis of non-autonomous neural networks for walking: reflexive pattern generators.. CEC, стр. 245-250. IEEE, (2001)Evolved neuromorphic flight control for a flapping-wing mechanical insect model., и . IEEE Congress on Evolutionary Computation, стр. 1744-1751. IEEE, (2008)On the relative efficacies of space saving *CGAs for evolvable hardware applications., и . IEEE Congress on Evolutionary Computation, стр. 2187-2193. IEEE, (2004)An analysis of the search performance of a mini-population evolutionary algorithm for a robot-locomotion control problem., и . Congress on Evolutionary Computation, стр. 2768-2775. IEEE, (2005)Islands of fitness compact genetic algorithm for rapid in-flight control learning in a Flapping-Wing Micro Air Vehicle: A search space reduction approach., , , и . ICES, стр. 219-226. IEEE, (2014)Application of evolved locomotion controllers to a hexapod robot., , , и . Robotics Auton. Syst., 19 (1): 95-103 (1996)An improved evolvable oscillator for all flight mode control of an insect-scale flapping-wing micro air vehicle., и . IEEE Congress on Evolutionary Computation, стр. 417-425. IEEE, (2011)Cross-layer learning in an evolvable oscillator for in-flight controller adaptation in a flapping-wing micro air vehicle., и . ACSCC, стр. 1547-1551. IEEE, (2011)