Formation (dont annonces des séminaires MEGA)

• 6 séminaires de laboratoire (voir ci-contre) à valider sous forme de note de synthèse d'une page préparée par le doctorant.
  (dont au moins 3 labellisés MEGA pour les doctorants majoritairement localisés à Lyon - pour les doctorants non localisés à Lyon, des dérogations peuvent être accordées). Les séminaires non labellisés MEGA peuvent être des séminaires de laboratoire dans d'autres laboratoires que ceux de l'ED, des "keynotes lectures" (voir ci-contre) présentées pendant des conférences, etc.
   
• 34h de formation scientifique composée de :
• au moins 20 h de cours scientifique (cours de niveau Master / cycle ingénieur, dispensés dans les établissements de l'Université de Lyon ou d'autres universités, écoles d'été, écoles de printemps, écoles thématiques nationales ou internationales,...).
• au maximum 14 h de formation scientifique sous forme de participation à des conférences internationales.

• 39 h de formation transversale à visée professionnelle (non-scientifique), parmi les formations proposées aux doctorant par l'Université de Lyon (cf. catalogue des formations de l'UdL) ou les établissements de l'école doctorale (INSA, ECL, ENTPE, Univ. Lyon 1, Université Eiffel), dont au moins un cours en lien avec la formation à l'éthique. Les cours non-scientifiques de la plateforme nationale FUN MOOC peuvent également être choisis.

Les justificatifs de chaque formation (attestation de présence signée indiquant le nombre d'heures) doivent être chargés sur la plateforme électronique de gestion du doctorat pour être soumises à la validation de l'école doctorale. Les notes de synthèse sur les séminaires seront déposées dans cette même rubrique en affichant une durée de 1h par séminaire (ajouter dans la zone commentaire "séminaire n° xx").

• 25 JUIN 25 JUIL
  Kinematic analysis: for better TKA patient engagement, outcomes and satisfaction (Pr.Nicola Hagemeister, ETS Montréal)
  Total knee arthroplasty (TKA) is an effective way to treat severe knee osteoarthritis. However, up to now, still 20% of patients are unsatisfied, complaining of residual pain or discomfort. The present talk will expose how the use of a innovative tool, the knee kinesiography exam, can help identifying the factors that lead to dissatisfaction. The knee kinesiography exam is based on the KneeKG technology that was co-invented by the presenter. It allows precise, repeatable and fast three-dimensional analysis of knee kinematics in a clinical setting. 20 years of research with multiple cohorts have lead to the identification of biomechanical markers that provide better understanding of residual dysfunctions and help in post-op management to improve patient reported outcomes.
• 01 JUIL
  Rethinking thermophotovoltaics for low-temperature heat (Dr. Eric Tervo, Univ. of Wisonsin)
  Solid-state heat engines offer several advantages over their traditional mechanical counterparts via compact size, quiet operation, no moving parts, and scalability. However, current commercial devices such as thermoelectric converters suffer from low efficiency and challenges to further improvements. In this seminar, a different type of solid-state heat engine that utilizes thermal radiation, a thermophotovoltaic (TPV) device, will be described. This converts infrared light from a heated object to electricity by a photovoltaic cell. Its operation, demonstrations, and possible applications in a variety of energy conversion and storage scenarios will be discussed. Novel concepts for TPV cells and systems focused on lower-temperature heat sources will be highlighted. This will show that TPVs have the potential to significantly affect our energy infrastructure. (...)
• 01 JUIL
  Changes in Mechanical Properties of Endothelial Cells with Age Contribute to Impairment of Nuclear Shear Stress Mechanosensing (Jacques Ohayon, Univ. Savoie Mont Blanc)
  Mechanobiology, the study of cellular mechanical properties (MPs) and how they transduce physical stimuli into a biological response, is an active area of current research due to the implications in several disease processes1. Previous reports have shown that the MPs of senescent cells and those in an accelerated aging disease, Hutchinson-Gilford Progeria Syndrome2,3, are altered significantly. However the granularity at which this information was collected needs refinement: there appear to be several different studies reporting composite stiffnesses as measured by atomic force microscopy (AFM) to be higher2-4, lower5, and unchanged6 between young and aged cells. Current biomechanical measurements as taken by AFM require several assumptions about the geometry and material to be made7 which do not hold true for senescent cells. Namely – senescent cells grow to be exceedingly large8. Here, we use a correlative super-resolution/AFM approach to perform measurements on individual cells to extract ....
• 02 JUIL
  Incorporating human factors in the driver behaviour models (Dr. Anshuman Sharma, BHU Varanasi, India)
  Understanding how drivers behave is central to designing safer and more efficient transportation systems. While many driver behaviour models have been developed over the past several decades, most of them simplify how drivers perceive, react, and interact with traffic. In reality, driving behaviour is influenced by human factors such as perception, anticipation, decision-making, and individual variability. Ignoring these aspects can limit the accuracy and usefulness of traffic models, especially in complex and mixed traffic conditions commonly seen in many cities.This talk highlights recent efforts to incorporate human factors into driver behaviour models. It presents examples of how accounting for differences in vehicle types—such as buses—and their operational characteristics can improve our understanding of traffic dynamics. It also discusses how drivers do not behave consistently at all times; instead, their behaviour varies depending on context, experience, and surrounding conditions...