| Les deux révisions précédentesRévision précédenteProchaine révision | Révision précédente |
| consortium [2024/08/12 12:53] – 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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| Heudiasyc has unique competencies in the design of **Virtual Reality (VR) environments for training**. This is why it is in charge of two main tasks in the IDEFIX project: | Heudiasyc has unique competencies in the design of **Virtual Reality (VR) environments for training**. This is why it is in charge of two main tasks in the IDEFIX project: |
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| - The **development of the VR medical environment** used in the experiments in WP5; | - The **development of the VR medical environment** used in the experiments in WP5, include the **VR version of the AI assistant** for fixation error detection; |
| - The **design of new algorithms for situation control** that allow the system to maintain participants in the required level of fixation error during training. | - The **design of new algorithms for situation control** that allow the system to maintain participants in the required level of fixation error during training. |
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| {{:lmf-logo-black-rgb.jpg?200 |https://lmf.cnrs.fr/}} | {{:lmf-logo-black-rgb.jpg?200 |https://lmf.cnrs.fr/}} |
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| Under the supervision of [[https://wdi.supelec.fr/boulanger/|Pr. Frédéric Boulanger]], the LMF coordinates the research work on the formal model in WP3. Together with LISN and Heudiasyc, we will design: | Under the supervision of [[https://wdi.centralesupelec.fr/boulanger/|Pr. Frédéric Boulanger]], the LMF coordinates the research work on the **formal model** in WP3. Together with LISN and Heudyasic, they will design: |
| - A new formal model of the task and mental states, based on previous joint work between LMF and LISN, that can capture fixation bias in the different scenarios of the IDEFIX project's experimental protocol; | - A new **formal model of the task and mental states**, based on previous joint work between LMF and LISN, that can capture fixation bias in the different scenarios of the IDEFIX project's experimental protocol; |
| - New algorithms for real-time human error diagnosis based on this formal model. | - New algorithms for real-time **human error diagnosis** based on this formal model. |
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| | [[https://research.centralesupelec.fr/safouan.taha/|Dr. Safouan Taha]] will bring his expertise on automated proof and temporal logics. |
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| ===== Département Traitement de l'Information et Systèmes (DTIS) de l'ONERA ===== | ===== Département Traitement de l'Information et Systèmes (DTIS) de l'ONERA ===== |
| {{:onera-bloc-marque.png?200 |https://www.onera.fr/fr/dtis-traitement-de-l-information-et-systemes}} | {{:onera-bloc-marque.png?200 |https://www.onera.fr/fr/dtis-traitement-de-l-information-et-systemes}} |
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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 and ONERA, with the help of ONERA engineers [[https://www.linkedin.com/in/gr%C3%A9gory-bonin-82045067/?originalSubdomain=fr|Gregory Bonin]], [[https://dblp.org/pid/30/507-3.html|Christian Schulte]] and [[https://www.linkedin.com/in/nawfel-kinani/?originalSubdomain=fr|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. |
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| ===== Université Claude Bernard Lyon ===== | ===== Université Claude Bernard Lyon ===== |
| {{: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/?originalSubdomain=fr|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). |
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| ===== Institut de Recherche Biomédicale des Armées ===== | ===== Institut de Recherche Biomédicale des Armées ===== |
| {{:logo_irba.png?200 |https://irba.sante.defense.gouv.fr/}} | {{:logo_irba.png?200 |https://irba.sante.defense.gouv.fr/}} |
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| | Under the supervision of [[https://www.linkedin.com/in/anthony-vacher-65260466|Dr. Anthony Vacher]], the Aeromedical Research Expertise and Training department at IRBA coordinates the scenario specification based on **ergonomic task analysis** (WP2) that will guide the scenario control in the final experiments (WP5). |
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| | With the help of his colleagues [[https://www.linkedin.com/in/marie-h%C3%A9l%C3%A8ne-ferrer-25652a41|Dr. Marie-Hélène Ferrer]], [[https://www.linkedin.com/in/carine-malle-7a29b17b|Dr. Carine Malle]], [[https://www.linkedin.com/in/pierre-pasquier-84555367|Pr. Pierre Pasquier]], [[https://centreborelli.ens-paris-saclay.fr/fr/annuaire-des-personnes/benoit-plaud|Pr. Benoît Plaud]], Pascal Van Beers and Julien Deghaye, Anthony Vacher will collaborate closely with LISN on the **design of the experimental scenarios** (WP1) and with UCBL on the **definition of the xAPI model of the task** (WP2). |
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