Yiannis Laouris test: Difference between revisions

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Laouris

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 Laouris is one of 12 experts commissioned to draft the ONLINFE Manifesto <ref>https://epthinktank.eu/2014/12/08/what-makes-us-human-in-a-hyper-connected-era/ What makes us human in a hyper connected era</ref> <ref> https://digital-strategy.ec.europa.eu/en/events/being-human-hyperconnected-era What makes us human in a hyper connected era</ref> for Europe <ref>Floridi, L. (2014). The fourth revolution: How the infosphere is reshaping human reality. OUP Oxford. pg XII</ref> <ref>Peters, M. A., & Jandrić, P. (2019). Posthumanism, open ontologies and bio-digital becoming: Response to Luciano Floridi’s Onlife Manifesto. 971-980. pg 977 </ref> and co-presented it in the European Parliament <ref>https://multimedia.europarl.europa.eu/en/webstreaming/science-and-technology-options-assessment_20141202-1700-SPECIAL-UNKN Presentation of the ONLIFE Manifesto to the EU parliament</ref>
-During his early career in the late eighties and nineties, Laouris applied [[Digital signal processing]] in [[Digital signal processing #Time and space domains|time]] and [[Digital signal processing #Frequency domain|frequency]] domains to [[Single-cell recording|single-cell recordings]] from [[Experimental animal|experimental animals]] to study transmission properties and fatique of cat [[Motor neurons|motor neurons]], muscle afferents and [[Renshaw cells]]. Together with [[Uwe Windhorst]] they explored the relations between linear and non-linear characteristics in the behavious of neurons<ref>Gottlieb, G. L., Corcos, D. M., & Agarwal, G. C., 1989. Strategies for the control of voluntary movements with one mechanical degree of freedom. Behavioral and brain sciences, 12(2), 189-210, p 237.</ref> <ref>Windhorst, U. (1996). On the role of recurrent inhibitory feedback in motor control. Progress in neurobiology, 49(6), 517-587.</ref>  <ref>Laouris, Y., & Windhorst, U. (1989). The relationship between coherence and nonlinear characteristics in Renshaw cell responses to random motor axon stimulation. Neuroscience, 28(3), 625-633.</ref>
+During his early career in the late eighties and nineties, Laouris applied [[Digital signal processing]] in [[Digital signal processing #Time and space domains|time]] and [[Digital signal processing #Frequency domain|frequency]] domains to [[Single-cell recording|single-cell recordings]] from [[Experimental animal|experimental animals]] to study transmission properties and fatique of cat [[Motor neurons|motor neurons]], muscle afferents and [[Renshaw cells]]. Together with [[Uwe Windhorst]] they explored the relations between linear and non-linear characteristics in the behavious of neurons<ref>Gottlieb, G. L., Corcos, D. M., & Agarwal, G. C., 1989. Strategies for the control of voluntary movements with one mechanical degree of freedom. Behavioral and brain sciences, 12(2), 189-210, p 237.</ref> <ref>Herzog, E., Landry, M., Buhler, E., Bouali‐Benazzouz, R., Legay, C., Henderson, C. E., ... & El Mestikawy, S. (2004). Expression of vesicular glutamate transporters, VGLUT1 and VGLUT2, in cholinergic spinal motoneurons. European Journal of Neuroscience, 20(7), 1752-1760. p 1759</ref> <ref>Windhorst, U. (1996). On the role of recurrent inhibitory feedback in motor control. Progress in neurobiology, 49(6), 517-587.</ref>  <ref>Laouris, Y., & Windhorst, U. (1989). The relationship between coherence and nonlinear characteristics in Renshaw cell responses to random motor axon stimulation. Neuroscience, 28(3), 625-633.</ref>
 ==Authority==
 * https://viaf.org/viaf/38153409650841580096/#Laouris,_Yiannis
 * https://www.worldcat.org/identities/lccn-no2016047869/

Yiannis Laouris test: Difference between revisions

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Revision as of 16:28, 19 February 2025

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