Jean-Michel Mongeau, Ph.D.

Integrative Biology and Physiology University of California, Los Angeles, Los Angeles, CA 
"Jean-Michel Mongeau"
Mean distance: 16 (cluster 39)


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Robert J. Full grad student 2013 UC Berkeley
 (Neuromechanics of Maneuverability: Sensory-Neural and Mechanical Processing for the Control of High-Speed Locomotion.)
Mark A. Frye post-doc UCLA


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Kaushik Jayaram collaborator 2009- (Biomechanics Tree)
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Mongeau JM, Cheng KY, Aptekar J, et al. (2018) Visuomotor strategies for object approach and aversion in . The Journal of Experimental Biology
Keleş MF, Mongeau JM, Frye MA. (2018) Object features and T4/T5 motion detectors modulate the dynamics of bar tracking by . The Journal of Experimental Biology
Jayaram K, Mongeau JM, Mohapatra A, et al. (2018) Transition by head-on collision: mechanically mediated manoeuvres in cockroaches and small robots. Journal of the Royal Society, Interface. 15
Mongeau JM, Frye MA. (2017) Drosophila Spatiotemporally Integrates Visual Signals to Control Saccades. Current Biology : Cb
Mongeau JM, Sponberg SN, Miller JP, et al. (2015) Sensory processing within antenna enables rapid implementation of feedback control for high-speed running maneuvers. The Journal of Experimental Biology
Aptekar JW, Keles MF, Mongeau JM, et al. (2014) Method and software for using m-sequences to characterize parallel components of higher-order visual tracking behavior in Drosophila. Frontiers in Neural Circuits. 8: 130
Mongeau JM, Demir A, Dallmann CJ, et al. (2014) Mechanical processing via passive dynamic properties of the cockroach antenna can facilitate control during rapid running. The Journal of Experimental Biology. 217: 3333-45
Mongeau JM. (2013) Antennae's mechanical role in escaping Journal of Experimental Biology. 216: i-ii
Mongeau JM, Demir A, Lee J, et al. (2013) Locomotion- and mechanics-mediated tactile sensing: antenna reconfiguration simplifies control during high-speed navigation in cockroaches. The Journal of Experimental Biology. 216: 4530-41
Revzen S, Burden SA, Moore TY, et al. (2013) Instantaneous kinematic phase reflects neuromechanical response to lateral perturbations of running cockroaches. Biological Cybernetics. 107: 179-200
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