Jean-Michel Mongeau
Assistant Professor of Mechanical Engineering and of Biomedical Engineering
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204 Reber
University Park PA, - jmm1175@psu.edu
- 814-865-7842
Publication Tags
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Diptera Animals Drosophila Flight Neurons Brain Periplaneta Ocular Vision Head Torque Saccades Running Octopamine Cockroaches Head Movements Locomotion Animal Animal Behavior Yaws Antennae Arthropod Antennae Drosophila Melanogaster Periplaneta Americana Mechanoreceptors Biological ModelsMost Recent Publications
Drosophila flying in augmented reality reveals the vision-based control autonomy of the optomotor response
Benjamin Cellini, Marioalberto Ferrero, Jean Michel Mongeau, 2024, Current Biology on p. 68-78.e4
The influence of saccades on yaw gaze stabilization in fly flight
Brock A. Davis, Brock Davish, Jean Michel Mongeau, 2023, PLoS Computational Biology on p. e1011746
Flies adaptively control flight to compensate for added inertia
Wael Salem, Benjamin Cellini, Eric Jaworski, Jean Michel Mongeau, 2023, Proceedings of the Royal Society B: Biological Sciences
Hawkmoths regulate flight torques with their abdomen for yaw control
V Le, B Cellini, Rudolf Schilder, Jean Michel Mongeau, 2023, Journal of Experimental Biology
Flies combine adaptive and passive mechanisms to compensate for wing damage in flight
Wael Salem, Ben Cellini, H Kabutz, HKH Prasad, B Cheng, Kaushik Jayaram, Jean-Michel Mongeau, 2023, Integrative and Comparative Biology on p. S274-S275
Complementary control of head & body movements in flies reveals the energetic basis of gaze control
Ben Cellini, Jean-Michel Mongeau, 2023, Integrative and Comparative Biology on p. S51-S51
Flies adaptively control flight to compensate for added inertia
Wael Salem, Benjamin Cellini, Eric Jaworski, Jean-Michel Mongeau, 2022, bioRxiv
Flies trade off stability and performance via adaptive compensation to wing damage
Wael Salem, Benjamin Cellini, Heiko Kabutz, Hari Krishna Hari Prasad, Hari Krishna Hari Prasad, Bo Cheng, Kaushik Jayaram, Jean Michel Mongeau, 2022, Science advances
Complementary feedback control enables effective gaze stabilization in animals
Benjamin Cellini, Wael Salem, Jean Michel Mongeau, 2022, Proceedings of the National Academy of Sciences of the United States of America on p. e2121660119
Nested mechanosensory feedback actively damps visually guided head movements in Drosophila
Benjamin Cellini, Jean Michel Mongeau, 2022, eLife
Most-Cited Papers
Transition by head-on collision: mechanically mediated manoeuvres in cockroaches and small robots
Kaushik Jayaram, Jean Michel Mongeau, Anand Mohapatra, Paul Birkmeyer, Ronald S. Fearing, Robert J. Full, 2018, Journal of the Royal Society Interface on p. 1-11
Flies land upside down on a ceiling using rapid visually mediated rotational maneuvers
Pan Liu, Sanjay P. Sane, Jean-Michel Mongeau, Jianguo Zhao, Bo Cheng, 2019, Science advances
Drosophila Spatiotemporally Integrates Visual Signals to Control Saccades
Jean Michel Mongeau, Mark A. Frye, 2017, Current Biology on p. 2901-2914.e2
Active vision shapes and coordinates flight motor responses in flies
Benjamin Cellini, Jean Michel Mongeau, 2020, Proceedings of the National Academy of Sciences of the United States of America on p. 23085-23095
Non-canonical Receptive Field Properties and Neuromodulation of Feature-Detecting Neurons in Flies
C Städele, M Keleş, Jean Michel Mongeau, M Frye, 2020, Current Biology on p. 2508-2519.e6
Sensory processing within cockroach antenna enables rapid implementation of feedback control for high-speed running maneuvers
Jean Michel Mongeau, Simon N. Sponberg, John P. Miller, Robert J. Full, 2015, Journal of Experimental Biology on p. 2344-2354
Mechanical processing via passive dynamic properties of the cockroach antenna can facilitate control during rapid running
Jean Michel Mongeau, Alican Demir, Chris J. Dallmann, Kaushik Jayaram, Noah J. Cowan, Robert J. Full, 2014, Journal of Experimental Biology on p. 3333-3345
Mechanisms of punctuated vision in fly flight
Benjamin Cellini, Wael Salem, Jean Michel Mongeau, 2021, Current Biology on p. 4009-4024.e3
Visuomotor strategies for object approach and aversion in Drosophila melanogaster
Jean Michel Mongeau, Karen Y. Cheng, Jacob Aptekar, Mark A. Frye, 2019, Journal of Experimental Biology
Object features and T4/T5 motion detectors modulate the dynamics of bar tracking by Drosophila
Mehmet F. Keleş, Jean Michel Mongeau, Mark A. Frye, 2019, Journal of Experimental Biology
News Articles Featuring Jean-Michel Mongeau
Nov 18, 2022
Fruit flies use corrective movements to maintain stability after injury
Fruit flies can quickly compensate for catastrophic wing injuries, researchers found, maintaining the same stability after losing up to 40% of a wing. This finding could inform the design of versatile robots, which face the similar challenge of having to quickly adapt to mishaps in the field.
Full Article