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and in pathological models, we aim to establish direct links between molecular determinants and muscle physiopathology Detailed Description of the Project : Not all muscles in the body are equivalent
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to benchmark ligand dissociation energies is key to improving computational models and enhancing catalytic efficiency. This PhD project aims to provide fundamental insights into ligand dissociation and catalytic
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-142,143Nd, 176Lu-176Hf and 182Hf-182W isotope systematics, and (3) making numerical models of early Earth evolution that can reproduce and account for newly acquired data together with available data from
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to benchmark ligand dissociation energies is key to improving computational models and enhancing catalytic efficiency. This PhD project aims to provide fundamental insights into ligand dissociation and catalytic
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coding these weights and thus provide a 'neuro-computational' model of human choices updated with invasive electrophysiology and stimulation data. We will focus on a prefronto-insular- circuit as the team
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coding these weights and thus provide a 'neuro-computational' model of human choices updated with invasive electrophysiology and stimulation data. We will focus on a prefronto-insular- circuit as the team
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coding these weights and thus provide a 'neuro-computational' model of human choices updated with invasive electrophysiology and stimulation data. We will focus on a prefronto-insular- circuit as the team
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Mines Paris - PSL, Centre PERSEE | Sophia Antipolis, Provence Alpes Cote d Azur | France | 3 months ago
applications. The classical “Forecast then Optimise” approach may involve a complex model chain of multiple models that one has to tune and maintain. For example, when trading the production of a virtual power
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coding these weights and thus provide a 'neuro-computational' model of human choices updated with invasive electrophysiology and stimulation data. We will focus on a prefronto-insular- circuit as the team
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coding these weights and thus provide a 'neuro-computational' model of human choices updated with invasive electrophysiology and stimulation data. We will focus on a prefronto-insular- circuit as the team