| Les deux révisions précédentesRévision précédenteProchaine révision | Révision précédente |
| consortium [2024/08/30 08:46] – [Laboratoire Méthodes Formelles] sabouret | consortium [2024/09/27 11:47] (Version actuelle) – [Département Traitement de l'Information et Systèmes (DTIS) de l'ONERA] sabouret |
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| The DTIS conducts research in all fields of computer science related to aerospace. In the IDEFIX project, the team led by [[https://scholar.google.com/citations?user=XOZy39AAAAAJ&hl=fr|Dr. Bertille Somon]] in the cognitive engineering and applied neuroscience unit (ICNA) brings a unique expertise in cognitive neuroscience for the **study and design of human factors and physiological data**. | The DTIS conducts research in all fields of computer science related to aerospace. In the IDEFIX project, the team led by [[https://scholar.google.com/citations?user=XOZy39AAAAAJ&hl=fr|Dr. Bertille Somon]] in the cognitive engineering and applied neuroscience unit (ICNA) brings a unique expertise in cognitive neuroscience for the **study and design of human factors and physiological data**. |
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| In the IDEFIX project, Bertille Somon collaborates closely with LISN on the **design of the experimental scenarios** (WP1). She supervises the implementation of aviation scenario on the **SCHEMAX flight simulator** at ONERA, with the help of ONERA engineers [[https://www.linkedin.com/in/gr%C3%A9gory-bonin-82045067|Gregory Bonin]], [[https://dblp.org/pid/30/507-3.html|Christian Schulte]] and [[https://www.linkedin.com/in/nawfel-kinani|Nawfel Kinani]]. They are also responsible for the **integration of the AI assistant** in the Augmented Reality (AR) aviation environment in WP4. | In the IDEFIX project, Bertille Somon collaborates closely with LISN on the **design of the experimental scenarios** (WP1). She supervises the implementation of aviation scenarios on the **SCHEMAX flight simulator** at ONERA, with the help of ONERA engineers [[https://www.linkedin.com/in/gr%C3%A9gory-bonin-82045067|Gregory Bonin]], [[https://dblp.org/pid/30/507-3.html|Christian Schulte]] and [[https://www.linkedin.com/in/nawfel-kinani|Nawfel Kinani]]. They are also responsible for the **integration of the AI assistant** in the Augmented Reality (AR) aviation environment in WP4. |
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| In addition, [[https://scholar.google.fr/citations?user=47B0oCgAAAAJ&hl=en|Dr. Nicolas Lantos]] brings his expertise on **data science methods for fixation error detection** at runtime. Based on the analysis of experimental data in WP2, he designs new models to extract high-level concepts that serve as inputs to the formal model of the AI assistant. | In addition, [[https://scholar.google.fr/citations?user=47B0oCgAAAAJ&hl=en|Dr. Nicolas Lantos]] brings his expertise on **data science methods for fixation error detection** at runtime. Based on the analysis of experimental data in WP2, he designs new models to extract high-level concepts that serve as inputs to the formal model of the AI assistant. |
| {{:ucbl_logo.png?200 |https://www.univ-lyon1.fr/en/education/at-the-cutting-edge-of-learning-with-simulation-in-the-field-of-healthcare}} | {{:ucbl_logo.png?200 |https://www.univ-lyon1.fr/en/education/at-the-cutting-edge-of-learning-with-simulation-in-the-field-of-healthcare}} |
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| As chief engineer for the [[https://www.univ-lyon1.fr/en/education/at-the-cutting-edge-of-learning-with-simulation-in-the-field-of-healthcare|Centre Lyon EST de Simulation en Santé (CLESS)]], [[https://dblp.org/pid/302/5505.html|Loïc Druette]] collaborates closely with LISN on the **design of the experimental scenarios** (WP1). He supervises the implementation of aviation scenario on the **CLESS technical platform** with the help of Sébastien Sygiel and [[https://www.linkedin.com/in/lucas-denoyel-25a4788a|Lucas Denoyel]], also members of the [[https://teamhcl.chu-lyon.fr/simulyon-simulation-en-sante|SimyLyon research center]]. | As chief engineer for the [[https://www.univ-lyon1.fr/en/education/at-the-cutting-edge-of-learning-with-simulation-in-the-field-of-healthcare|Centre Lyon EST de Simulation en Santé (CLESS)]], [[https://dblp.org/pid/302/5505.html|Loïc Druette]] collaborates closely with LISN on the **design of the experimental scenarios** (WP1). He supervises the implementation of medical scenarios on the **CLESS technical platform** with the help of Sébastien Sygiel and [[https://www.linkedin.com/in/lucas-denoyel-25a4788a|Lucas Denoyel]], also members of the [[https://teamhcl.chu-lyon.fr/simulyon-simulation-en-sante|SimyLyon research center]]. |
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| In addition, Loïc Druette works with IRBA on the **ergonomic task analysis** to define an [[https://adlnet.gov/|xAPI]] **task model** to support the scenario control during the training session (WP5). | In addition, Loïc Druette works with IRBA on the **ergonomic task analysis** to define an [[https://adlnet.gov/|xAPI]] **task model** to support the scenario control during the training session (WP5). |
