Chris J. Dallmann, Ph.D.
Affiliations: | Physiology and Biophysics | University of Washington, Seattle, Seattle, WA |
Area:
Neuroscience, Motor Control, Proprioception, DrosophilaGoogle:
"Chris Dallmann"Mean distance: (not calculated yet)
Parents
Sign in to add mentor| Robert J. Full | research assistant | 2012-2012 | UC Berkeley |
| Volker Dürr | grad student | 2014-2018 | Bielefeld University |
| John C. Tuthill | post-doc | 2018- | University of Washington |
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Publications
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| Lesser E, Azevedo AW, Phelps JS, et al. (2023) Synaptic architecture of leg and wing motor control networks in . Biorxiv : the Preprint Server For Biology |
| Dallmann CJ, Karashchuk P, Brunton BW, et al. (2021) A leg to stand on: computational models of proprioception. Current Opinion in Physiology. 22 |
| Zill SN, Dallmann CJ, Szczecinski N, et al. (2021) Evaluation of force feedback in walking using joint torques as 'naturalistic' stimuli. Journal of Neurophysiology |
| Dürr V, Arena PP, Cruse H, et al. (2019) Integrative Biomimetics of Autonomous Hexapedal Locomotion. Frontiers in Neurorobotics. 13: 88 |
| Dallmann CJ, Dürr V, Schmitz J. (2019) Motor control of an insect leg during level and incline walking. The Journal of Experimental Biology. 222 |
| Zill SN, Dallmann CJ, Büschges A, et al. (2018) Force dynamics and synergist muscle activation in stick insects: the effects of using joint torques as mechanical stimuli. Journal of Neurophysiology |
| Dallmann CJ, Hoinville T, Dürr V, et al. (2017) A load-based mechanism for inter-leg coordination in insects. Proceedings. Biological Sciences. 284 |
| Dürr V, Theunissen LM, Dallmann CJ, et al. (2017) Motor flexibility in insects: adaptive coordination of limbs in locomotion and near-range exploration Behavioral Ecology and Sociobiology. 72 |
| Dallmann CJ, Dürr V, Schmitz J. (2016) Joint torques in a freely walking insect reveal distinct functions of leg joints in propulsion and posture control. Proceedings. Biological Sciences / the Royal Society. 283 |
| 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 |