Fiche membre Retour à l'annuaire
Franck MARS
HDR
Publications référencées sur HAL
Revues internationales avec comité de lecture (ART_INT)
- [1] I. Frissen, F. Mars. Planning Lane Changes using Advance Visual and Haptic Information. In Psychological Research ; éd. Springer Verlag, 2024, vol. 88.https://hal.science/hal-04231880v1
- [2] S. Mecheri, F. Mars, R. Lobjois. Influence of continuous edge-line delineation on drivers’ lateral positioning in curves: a gaze-steering approach. In Ergonomics ; éd. Taylor & Francis, 2024, vol. 67, num. 3.https://hal.science/hal-04160845v1
- [3] J. Petit, C. Charron, F. Mars. Subjective risk and associated electrodermal activity of a self-driving car passenger in an urban shared space. In PLoS ONE ; éd. Public Library of Science, 2023, vol. 18, num. 11.https://hal.science/hal-04317218v1
- [4] B. Pano, P. Chevrel, F. Claveau, C. Sentouh, F. Mars. Obstacle avoidance in highly automated cars: can progressive haptic shared control make it safer and smoother?. In IEEE Transactions on Human-Machine Systems ; éd. IEEE, 2022, vol. 52, num. 4.https://hal.science/hal-03631149v1
- [5] C. Ed-Driouch, F. Mars, P. Gourraud, C. Dumas. Addressing the Challenges and Barriers to the Integration of Machine Learning into Clinical Practice: An Innovative Method to Hybrid Human–Machine Intelligence. In Sensors ; éd. MDPI, 2022, vol. 22, num. 21.https://hal.science/hal-03837932v1
- [6] P. Marti, C. Jallais, A. Koustanaï, A. Guillaume, F. Mars. Impact of the driver's visual engagement on situation awareness and takeover quality. In Transportation Research Part F: Traffic Psychology and Behaviour ; éd. Elsevier, 2022, vol. 87.https://hal.science/hal-03665618v1
- [7] S. Mecheri, R. Lobjois, F. Mars. Gaze and steering strategies while driving around bends with shoulders. In Applied Ergonomics ; éd. Elsevier, 2022, vol. 103.https://hal.science/hal-03670083v1
- [8] S. Mecheri, F. Mars, R. Lobjois. Driving around bends with or without shoulders: The influence of bend direction. In Transportation Research Part F: Traffic Psychology and Behaviour ; éd. Elsevier, 2022, vol. 91.https://hal.science/hal-03850526v1
- [9] C. Ed-driouch, F. Chéneau, F. Simon, G. Pasquier, B. Combès, A. Kerbrat, E. Le Page, S. Limou, N. Vince, D. Laplaud, F. Mars, C. Dumas, G. Edan, P. Gourraud. Multiple sclerosis clinical decision support system based on projection to reference datasets. In Annals of Clinical and Translational Neurology ; éd. Wiley, 2022, vol. 9, num. 12.https://inserm.hal.science/inserm-04004193v1
- [10] Y. Zhao, P. Chevrel, F. Claveau, F. Mars. Driving with a Haptic Guidance System in Degraded Visibility Conditions: Behavioral Analysis and Identification of a Two-Point Steering Control Model. In Vehicles ; éd. MDPI, 2022, vol. 4, num. 4.https://hal.science/hal-03902419v1
- [11] D. Schnebelen, C. Charron, F. Mars. Model-based estimation of the state of vehicle automation as derived from the driver’s spontaneous visual strategies. In Journal of Eye Movement Research ; éd. International Group for Eye Movement Research - University of Bern, Switzerland, 2021, vol. 12, num. 3.https://hal.science/hal-03142031v1
- [12] J. Petit, C. Charron, F. Mars. Risk assessment by a passenger of an autonomous vehicle among pedestrians: relationship between declarative and physiological measures. In Frontiers in Neuroergonomics ; éd. Frontiers Media SA, 2021, vol. 2.https://hal.science/hal-03445566v1
- [13] I. Milleville-Pennel, F. Mars, L. Pouliquen-Lardy. Sharing spatial information in a virtual environment: How do visual cues and configuration influence spatial coding and mental workload?. In Virtual Reality ; éd. Springer Verlag, 2020, vol. 24, num. 4.https://hal.science/hal-02502727v1
- [14] P. Loiseau, C. Boultifat, P. Chevrel, F. Claveau, S. Espie, F. Mars. Rider model identification: neural networks and quasi-LPV models. In IET Intelligent Transport Systems ; éd. Institution of Engineering and Technology, 2020, vol. 14, num. 10.https://hal.science/hal-02883894v1
- [15] R. Lobjois, F. Mars. Effects of motorcycle simulator configurations on steering control and gaze behavior in bends.. In Journal of Experimental Psychology: Applied ; éd. American Psychological Association, 2020, vol. 26, num. 1.https://hal.science/hal-02279075v1
- [16] D. Schnebelen, C. Charron, F. Mars. Estimating the out-of-the-loop phenomenon from visual strategies during highly automated driving. In Accident Analysis & Prevention ; éd. Elsevier, 2020, vol. 148.https://hal.science/hal-02962111v1
- [17] C. Mole, O. Lappi, O. Giles, G. Markkula, F. Mars, R. Wilkie. Getting Back Into the Loop: The Perceptual-Motor Determinants of Successful Transitions out of Automated Driving. In Human Factors ; éd. SAGE Publications, 2019, vol. 61, num. 7.https://hal.science/hal-02108005v1
- [18] D. Schnebelen, O. Lappi, C. Mole, J. Pekkanen, F. Mars. Looking at the Road When Driving Around Bends: Influence of Vehicle Automation and Speed. In Frontiers in Psychology ; éd. Frontiers Media, 2019, vol. 10.https://hal.science/hal-02266546v1
- [19] M. Hoarau, C. Charron, F. Mars. Revealing misleading schemes through operator activity analysis: A factory case study. In Human Factors and Ergonomics in Manufacturing and Service Industries ; éd. Wiley, 2018, vol. 28.https://hal.science/hal-01861708v1
- [20] F. Mars, P. Chevrel. Modelling human control of steering for the design of advanced driver assistance systems. In Annual Reviews in Control ; éd. Elsevier, 2017, vol. 44.https://hal.science/hal-01627334v1
- [21] L. Pouliquen-Lardy, I. Milleville-Pennel, F. Guillaume, F. Mars. Remote collaboration in virtual reality: asymmetrical effects of task distribution on spatial processing and mental workload. In Virtual Reality ; éd. Springer Verlag, 2016.https://hal.science/hal-01364040v1
- [22] R. Lobjois, I. Siegler, F. Mars. Effects of visual roll on steering control and gaze behavior in a motorcycle simulator. In Transportation Research Part F: Traffic Psychology and Behaviour ; éd. Elsevier, 2016, vol. 38.https://hal.science/hal-01307490v1
- [23] J. Navarro, M. François, F. Mars. Obstacle avoidance under automated steering: Impact on driving and gaze behaviours. In Transportation Research Part F: Traffic Psychology and Behaviour ; éd. Elsevier, 2016, vol. 43.https://hal.science/hal-01396206v1
- [24] L. Pouliquen-Lardy, F. Mars, F. Guillaume, I. Milleville-Pennel. Virtual collaboration: effect of spatial configuration on spatial statements production. In Cognitive Processing ; éd. Springer Verlag, 2015, vol. 16, num. S1.https://hal.science/hal-01185513v1
- [25] F. Mars, M. Deroo, J. Hoc. Analysis of human-machine cooperation when driving with different degrees of haptic shared control. In IEEE Transactions on Haptics (ToH) ; éd. IEEE, 2014, vol. 7, num. 3.https://hal.science/hal-00968133v1
- [26] I. Frissen, F. Mars. The effect of visual degradation on anticipatory and compensatory steering control. In Quarterly Journal of Experimental Psychology ; éd. Taylor & Francis (Routledge), 2014, vol. 67, num. 3.https://hal.science/hal-00849513v1
- [27] M. Deroo, J. Hoc, F. Mars. Effect of strength and direction of haptic cueing on steering control during near lane departure. In Transportation Research Part F: Traffic Psychology and Behaviour ; éd. Elsevier, 2013, vol. 16, num. 1.https://hal.science/hal-00743040v1
- [28] L. Saleh, P. Chevrel, F. Claveau, J. Lafay, F. Mars. Shared steering control between a driver and an automation: stability in the presence of driver behaviour uncertainty. In IEEE Transactions on Intelligent Transportation Systems ; éd. IEEE, 2013, vol. 14, num. 2.https://hal.science/hal-00790521v1
- [29] F. Mars, J. Navarro. Where We Look When We Drive with or without Active Steering Wheel Control.. In PLoS ONE ; éd. Public Library of Science, 2012, vol. 7, num. 8.https://hal.science/hal-00727897v1
- [30] L. Saleh, P. Chevrel, J. Lafay, F. Mars. Contrôle latéral partagé d'un véhicule automobile - Conception à base d'un modèle cybernétique du conducteur et d'une commande H2 anticipative. In Journal Européen des Systèmes Automatisés (JESA) ; éd. Lavoisier, 2012, vol. 46, num. 4-5.https://hal.science/hal-00683398v1
- [31] M. Deroo, J. Hoc, F. Mars. Influence of risk expectation on haptically cued corrective manoeuvres during near lane departure.. In Ergonomics ; éd. Taylor & Francis, 2012, vol. 55, num. 4.https://hal.science/hal-00668971v1
- [32] J. Navarro, F. Mars, M. Young. Lateral control assistance in car driving: classification, review and future prospects. In IET Intelligent Transport Systems ; éd. Institution of Engineering and Technology, 2011, vol. 5, num. 3.https://hal.science/hal-00622223v1
- [33] T. Denoual, F. Mars, J. Petiot, G. Reymond, A. Kemeny. Drivers' Perception of Loss of Adherence in Bends: Influence of Motion Rendering. In Journal of Computing and Information Science in Engineering ; éd. American Society of Mechanical Engineers, 2011, vol. 11, num. 4.https://hal.science/hal-00630144v1
- [34] J. Navarro, F. Mars, J. Forzy, M. El Jaafari, J. Hoc. Objective and subjective evaluation of motor priming and warning systems applied to lateral control assistance. In Accident Analysis & Prevention ; éd. Elsevier, 2010, vol. 42.https://hal.science/hal-00475244v1
- [35] F. Mars. Driving around bends with manipulated eye-steering coordination.. In Journal of vision (Charlottesville, Va.) ; éd. ARVO Journals, 2008, vol. 8, num. 11.https://hal.science/hal-00394670v1
- [36] J. Navarro, F. Mars, J. Hoc. Lateral control assistance for car drivers: a comparison of motor priming and warning systems.. In Human Factors ; éd. SAGE Publications, 2007, vol. 49, num. 5.https://hal.science/hal-00394675v1
- [37] J. Hoc, F. Mars, I. Milleville-Pennel, E. Jolly, M. Netto, J. Blosseville. Human-machine cooperation in car driving for lateral safety: delegation and mutual control. In Le travail humain ; éd. Presses Universitaires de France, 2006, vol. 69, num. 2.https://hal.science/hal-00403257v1
- [38] F. Mars, L. Bringoux, C. Cian, P. Barraud, C. Raphel, J. Vercher. Perception de la verticale avec un cadre visuel solidaire de la tête : implications pour l'utilisation des visiocasques. In Le travail humain ; éd. Presses Universitaires de France, 2005, vol. 68.https://hal.science/hal-00394688v1
- [39] J. Naveteur, F. Mars, G. Crombez. The effect of eye orientation on slowly increasing pain.. In European Journal of Pain ; éd. Wiley, 2005, vol. 9, num. 1.https://hal.science/hal-00394754v1
- [40] F. Mars, J. Vercher, K. Popov. Dissociation between subjective vertical and subjective body orientation elicited by galvanic vestibular stimulation.. In Brain Research Bulletin ; éd. Elsevier, 2005, vol. 65, num. 1.https://hal.science/hal-00394684v1
- [41] F. Mars, J. Vercher, J. Blouin. Perception of the vertical with a head-mounted visual frame during head tilt.. In Ergonomics ; éd. Taylor & Francis, 2004, vol. 47, num. 10.https://hal.science/hal-00394763v1
- [42] J. Carriot, L. Bringoux, C. Charles, F. Mars, V. Nougier, C. Cian. Perceived body orientation in microgravity: effects of prior experience and pressure under the feet.. In Aviation, Space, and Environmental Medicine ; éd. Aerospace Medical Association, 2004, vol. 75, num. 9.https://hal.science/hal-00193809v1
- [43] F. Mars, P. Archambault, A. Feldman. Vestibular contribution to combined arm and trunk motion.. In Experimental Brain Research ; éd. Springer Verlag, 2003, vol. 150, num. 4.https://hal.science/hal-00394765v1
- [44] F. Mars, K. Popov, J. Vercher. Supramodal effects of galvanic vestibular stimulation on the subjective vertical.. In NeuroReport ; éd. Lippincott, Williams & Wilkins, 2001, vol. 12, num. 13.https://hal.science/hal-00394768v1
- [45] F. Mars, C. Bourdin, J. Vercher. Effect of a head-mounted visual frame on the subjective vertical. In Perception ; éd. SAGE Publications, 2000, vol. 29, num. S.https://hal.science/hal-01436310v1
- [46] F. Mars, J. Honoré, C. Richard, J. Coquery. Effects of an illusory orientation of the head on straight-ahead pointing movements. In Cahiers de Psychologie Cognitive - Current Psychology of Cognition ; éd. Marseille : ADRSC, 1998, vol. 17.https://hal.science/hal-00394774v1
- [47] D. Morisson, R. Lobjois, B. Minier, F. Mars, S. Mecheri. Analyzing Pilot Experience of Flying in Formation through the Course-of-Action Framework: A Case Study of Helicopter Pilot Trainee. In ECCE 2024: European Conference on Cognitive Ergonomics, octobre 2024, Paris, France.https://hal.science/hal-04725413v1
- [48] C. Pignat, P. Michel, B. Larnaudie, B. Vincke, S. Rodriguez Florez, A. Elouardi, F. Delgehier, F. Mars, S. Espié, A. Boubezoul. Comparison of bend-taking on thermal and electric motorcycles: qualitative studies. In 15th International Motorcycle Conference (IMC 2024), décembre 2024, Köln, Allemagne.https://hal.science/hal-04831595v1
- [49] P. Marti, C. Charron, D. Schnebelen, C. Jallais, A. Guillaume, F. Mars. Evolution of mind wandering while driving with different levels of vehicle automation. In 7th International Symposium on Future Active Safety Technology toward zero traffic accidents (FAST-zero’23), novembre 2023, Kanazawa, Japon.https://hal.science/hal-04300842v1
- [50] C. Ed-Driouch, F. Mars, P. Gourraud, C. Dumas. L'intelligence hybride pour prédire l'évolution des maladies chroniques. In IHM 2022 : 33ème Conference Francophone sur l'Interaction Humain-Machine, avril 2022, Namur, Belgique.https://hal.science/hal-03656359v1
- [51] C. Ed-Driouch, G. Edan, F. Mars, C. Dumas, P. Gourraud. L'interaction Homme-Machine au Service de la Médecine de Précision. In Colloque, Machine quelle est ton humanité ?, juin 2022, Nantes, France.https://hal.science/hal-03715833v1
- [52] C. Ed-Driouch, P. Gourraud, C. Dumas, F. Mars. The Integration of Human Intelligence into Artificial Intelligence to Provide Medical Practice-Based Predictions. In Hybrid Human Artificial Intelligence (HHAI) 2022, juin 2022, Amsterdam, Pays-Bas.https://hal.science/hal-03829412v1
- [53] S. Coeugnet, F. Mars, M. Bueno, C. Sentouh, J. Popieul, A. Koustanai, A. Pauzie, H. Tattegrain. A User-Centered Approach to Adapt the Human-Machine Cooperation Strategy in Autonomous Driving. In 21st Congress of the International Ergonomics Association (IEA 2021), juin 2021, VANCOUVER, Canada.https://hal.science/hal-03228345v1
- [54] P. Marti, C. Jallais, A. Koustanai, A. Guillaume, F. Mars. Effect of driver's distraction on gaze behaviour, mental workload and takeover quality. In Driving Simulation Conference Europe 2021 VR, septembre 2021, MUNICH, Allemagne.https://hal.science/hal-03343285v1
- [55] P. Loiseau, C. Boultifat, P. Chevrel, F. Claveau, S. Espie, F. Mars. Rider model identification using dynamic neural networks. In IFAC World Congress 2020, juillet 2020, BERLIN, Allemagne.https://hal.science/hal-02498139v1
- [56] B. Pano, F. Claveau, P. Chevrel, C. Sentouh, F. Mars. Systematic H2 /H∞ haptic shared control synthesis for cars, parameterized by sharing level. In SMC 2020: IEEE International Conference on Systems, Man, and Cybernetics, octobre 2020, Toronto, Canada.https://hal.science/hal-02929610v1
- [57] Y. Zhao, B. Pano, P. Chevrel, F. Claveau, F. Mars. Driver Model Validation through Interaction with Varying Levels of Haptic Guidance. In SMC 2020: IEEE International Conference on Systems, Man, and Cybernetics, octobre 2020, Toronto, Canada.https://hal.science/hal-02929636v1
- [58] Y. Zhao, P. Chevrel, F. Claveau, F. Mars. Towards a Driver Model to Clarify Cooperation Between Drivers and Haptic Guidance Systems. In SMC 2020: IEEE International Conference on Systems, Man, and Cybernetics, octobre 2020, Toronto, Canada.https://hal.science/hal-02929620v1
- [59] J. Petit, C. Charron, F. Mars. A pilot study on the dynamics of online risk assessment by the passenger of a self-driving car among pedestrians. In 22nd International Conference on Human-Computer Interaction, juillet 2020, Copenhagen, Danemark.In Krömker H. (éds.), . Springer, 2020.https://hal.science/hal-02487213v1
- [60] X. Zanlonghi, A. Barrucand, I. Milleville-Pennel, F. Mars, T. Rozière. L’analyse de la dynamique du regard comme méthode de mesure de l’impact d’un déficit visuel sur la conduite. In 125e Congrès International de la Société Française d'Ophtalmologie, mai 2019, Paris, France.https://hal.science/hal-02458283v1
- [61] B. Pano, Y. Zhao, P. Chevrel, F. Claveau, F. Mars. Shared Control Based on an Ecological Feedforward and a Driver Model Based Feedback. In 9th IFAC International Symposium on Advances in Automotive Control, juin 2019, Orléans, France.https://hal.science/hal-02110825v1
- [62] D. Schnebelen, C. Charron, F. Mars. Predicting self-assessment of the out-of-the-loop phenomenon from visual strategies during highly automated driving. In Human Factors and Ergonomics Society Europe Chapter Annual Meeting 2019, octobre 2019, Nantes, France.https://hal.science/hal-02308393v1
- [63] Y. Zhao, P. Chevrel, F. Claveau, F. Mars. Continuous Identification of Driver Model Parameters via the Unscented Kalman Filter. In 3rd IFAC Workshop on Linear Parameter Varying Systems, novembre 2019, Eindhoven, Pays-Bas.https://hal.science/hal-02352056v1
- [64] F. Mars, A. Boubezoul, S. Espie. Subjective assessment of steering control actions during bend-taking with a motorcycle. In 29th International Congress of Applied Psychology, juin 2018, Montréal, Canada.https://hal.science/hal-01954458v1
- [65] F. Mars, A. Ameyoe, P. Chevrel, E. Le Carpentier, H. Illy. Estimating in-vehicle distraction through a driver model. In 20th Congress of the International Ergonomics Association, août 2018, Florence, Italie.https://hal.science/hal-01954399v1
- [66] I. Milleville-Pennel, F. Mars, X. Zanlonghi, A. Barrucand, T. Rozière. Ecological method to assess visual field deficit while driving. In 20th Congress of the International Ergonomics Association, août 2018, Florence, Italie.https://hal.science/hal-01954271v1
- [67] D. Schnebelen, O. Lappi, F. Mars. Gaze behavior as a function of vehicle automation and speed. In The Eye, The Brain & The Auto - 8th World Research Congress on Vision and Driving, octobre 2018, Detroit, états-Unis.https://hal.science/hal-01954317v1
- [68] F. Mars. Relevance seen through the prism of hierarchical driver modelling. In Many faces of relevance - 2nd workshop, janvier 2017, Helsinki, Finlande.https://hal.science/hal-01536610v1
- [69] F. Mars, A. Ameyoe, P. Chevrel, E. Le Carpentier, H. Illy. Analysis of a driver model sensitivity to various types of distraction. In 5th International Conference on Driver Distraction and Inattention, mars 2017, Paris, France.https://hal.science/hal-01492034v1
- [70] M. Hoarau, C. Charron, F. Mars. D'où viennent les schèmes trompeurs des opérateurs dans l’industrie ? Étude dans un micromonde simulant un atelier aéronautique réel.. In Ergo'IA 2016, juillet 2016, Bidart/Biarritz, France.https://hal.science/hal-01355521v1
- [71] S. Espié, B. Larnaudie, B. Vincke, F. Delgehier, R. Sadoun, S. Bouaziz, S. Mammar, F. Mars, C. Laubenheimer, J. Reynaud. In-depth study of bend taking practices, towards evaluation and (re)training tools : the VIROLO++ research project. In 11th International Motorcycle Conference, octobre 2016, Cologne, Allemagne.https://hal.science/hal-01396243v1
- [72] F. Mars, P. Chevrel. A psychophysiology-based driver model for the design of driving assistance systems. In 1st International Neuroergonomics Conference: "The brain at work and in everyday life", octobre 2016, Paris, France.https://hal.science/hal-01377386v1
- [73] L. Jaschinski, S. Denjean, J. Petiot, F. Mars, V. Roussarie. Impact of interface sonification with touchless gesture command in a car. In Human Factors and Ergonomics Society Europe Chapter 2016 Annual Conference, octobre 2016, Prague, République tchèque.In D. de Waard (éds.), . , 2016.https://hal.science/hal-01396196v1
- [74] A. Ameyoe, F. Mars, P. Chevrel, E. Le Carpentier, H. Illy. Estimation of Driver Distraction Using the Prediction Error of a Cybernetic Driver Model. In Driving Simulation Conference and Exhibition, DSC'2015, septembre 2015, Tübingen, Allemagne.https://hal.science/hal-01164330v1
- [75] A. Ameyoe, P. Chevrel, E. Le Carpentier, F. Mars, H. Illy. Identification of a Linear Parameter Varying Driver Model for the Detection of Distraction. In 1st IFAC Workshop on Linear Parameter Varying systems, octobre 2015, Grenoble, France.https://hal.science/hal-01164323v1
- [76] L. Pouliquen-Lardy, I. Milleville-Pennel, F. Mars. Remote collaboration: spatial communication in immersive virtual environments. In 28th International Congress of Applied Psychology, juillet 2014, Paris, France.https://hal.science/hal-01110052v1
- [77] M. Hoarau, C. Charron, F. Mars. Activity analysis of expert and novice operators in a semi-automated manufacturing process. In 2014 European Conference on Cognitive Ergonomics, septembre 2014, Vienna, Autriche.https://hal.science/hal-01068527v1
- [78] L. Pouliquen-Lardy, I. Milleville-Pennel, F. Guillaume, F. Mars. How role distribution influences choice of spatial reference frames in a virtual collaborative task. In Spatial Cognition 2014, septembre 2014, Bremen, Allemagne.https://hal.science/hal-01068523v1
- [79] F. Mars. Hierarchical control of driving and human-machine cooperation. In Human Cyber Physical System Interaction - Control for the Human Welfare, septembre 2014, Paris, France.https://hal.science/hal-01068508v1
- [80] F. Mars, M. Deroo, C. Charron. Driver adaptation to haptic shared control of the steering wheel. In 2014 IEEE International Conference on Systems, Man, and Cybernetics (IEEE SMC), octobre 2014, San Diego, états-Unis.https://hal.science/hal-01068513v1
- [81] T. Denoual, J. Petiot, F. Mars, A. Kemeny. Predicting the subjective evaluation of vehicle behaviour in a driving simulator. In 11th Biennial Conference On Engineering Systems Design And Analysis (ESDA2012), juillet 2012, Nantes, France.https://hal.science/hal-00716579v1
- [82] T. Denoual, F. Mars, J. Petiot, A. Kemeny. Toward predicting the subjective assessment of ESC in a driving simulator. In Driving Simulation Conference 2012 - Europe (DSC2012), septembre 2012, Paris, France.In A. Kemeny, F. Mérienne & S. Espié (éds.), Proceedings of the Driving Simulation Conference Europe 2012. Les collections de l'IFSTTAR, 2012.https://hal.science/hal-00716581v1
- [83] L. Saleh, P. Chevrel, F. Mars, J. Lafay, F. Claveau. Human-like cybernetic driver model for lane keeping. In IFAC World Congress, août 2011, Milan, Italie.https://hal.science/hal-00567778v1
- [84] F. Mars, L. Saleh, P. Chevrel, F. Claveau, J. Lafay. Modeling the visual and motor control of steering with an eye to shared-control automation. In Human Factors and Ergonomics Society 55th Annual Meeting, septembre 2011, Las Vegas, états-Unis.https://hal.science/hal-00630161v1
- [85] M. Deroo, J. Hoc, F. Mars. Varying the degree of shared control between drivers and steering automation. In Human Factors and Ergonomics Society - European Chapter Annual Meeting, octobre 2011, Leeds, Royaume-Uni.https://hal.science/hal-01110063v1
- [86] T. Denoual, F. Mars, J. Petiot, G. Reymond, A. Kemeny. Drivers' perception of simulated loss of adherence in bends. In Driving Simulation Conference Europe 2010, septembre 2010, Paris, France.https://hal.science/hal-00539685v1
- [87] M. Deroo, F. Mars, J. Hoc. Can drivers modulate the effect of a motor priming assistance device during lane departure?. In 2010 Human Factors and Ergonomics Society European Chapter Meeting, octobre 2010, Berlin, Allemagne.https://hal.science/hal-00539694v1
- [88] C. Sentouh, P. Chevrel, F. Mars, F. Claveau. A human-centred Approach of Steering Control Modelling. In 21st IAVSD Symposium on Dynamics of Vehicles on Roads and Tracks, août 2009, Stockholm, Suède.https://hal.science/hal-00457752v1
- [89] C. Sentouh, P. Chevrel, F. Mars, F. Claveau. A Sensorimotor Driver Model for Steering Control. In IEEE International Conference on Systems, Man, and Cybernetics (SMC 2009), octobre 2009, San Antonio, TX, états-Unis.https://hal.science/hal-00457750v1
- [90] F. Mars. Steering and gaze control modifications from directed or spontaneous use of a visual augmentation cue.. In Human Factors and Ergonomics Society Annual Meeting 2008, 2008, , états-Unis.https://hal.science/hal-00457754v1
- [91] M. El Jaafari, J. Forzy, J. Navarro, F. Mars, J. Hoc. User acceptance and effectiveness of warning and motor priming assistance devices in car driving. In European Conference on Human Centred Design for Intelligent Transport Systems, 2008, Lyon, France.In C. Brusque (éds.), Proceedings of the European Conference on Human Centred Design for Intelligent Transport Systems. HUMANIST Publications, 2008.https://hal.science/hal-00457845v1
- [92] J. Navarro, F. Mars, J. Hoc. Lateral control support for car drivers: a human-machine cooperation approach. In European Conference on Cognitive Ergonomics 2007 (ECCE 2007), 2007, Londres, Royaume-Uni.https://hal.science/hal-00456816v1
- [93] J. Navarro, F. Mars, J. Forzy, M. El Jaafari, J. Hoc. Objective and subjective assessment of warning and motor priming assistance devices in car driving. In Human Factors and Ergonomics Society European Chapter Meeting, 2007, Braunschweig, Allemagne.In D. de Waard, F.O. Flemisch, B. Lorenz, H. Oberheid, & K.A. Brookhuis (éds.), Human Factors for assistance and automation. Shaker Publishing, 2007.https://hal.science/hal-00456832v1
- [94] F. Mars. Visual cue enhancement in the vicinity of the tangent point can improve steering in bends.. In 3rd International Conference on Enactive Interfaces, 2006, , France.https://hal.science/hal-00457772v1
- [95] J. Navarro, F. Mars, J. Hoc, R. Boisliveau, F. Vienne. Evaluation of human-machine cooperation applied to lateral control in car driving. In 16th World Congress of the International Ergonomics Association, 2006, Maastricht, Pays-Bas.https://hal.science/hal-00449785v1
- [96] J. Navarro, F. Mars, J. Hoc, R. Boisliveau, S. Espié. A comparison of warning and motor priming assistance systems for lateral control in car driving.. In 9th Driving Simulation Conference, 2006, Paris, France.https://hal.science/hal-00449800v1
- [97] J. Navarro, F. Mars, J. Hoc. Evaluation of a motor priming device to assist car drivers.. In 2nd ENACTIVE Conference, 2006, Montpellier, France.https://hal.science/hal-00449804v1
- [98] J. Hoc, F. Mars, I. Milleville-Pennel, E. Jolly. Human-machine co-operation in car driving for safe lateral control in bends: function delegation and mutual control.. In Human Factors and Ergonomics Society European Chapter Conference, 2006, Turin, Italie.In D. de Waard, K.A. Brookhuis, & A. Toffetti (éds.), Developments in Human Factors in Transportation, Design, and Evaluation. Shaker Publishing, 2006.https://hal.science/hal-00449795v1
- [99] H. Tattegrain, S. Coeugnet, M. Petrov, F. Mars, X. Wang, A. Hidalgo-Munoz, C. Jallais, A. Fort, D. Schnebelen, G. Beurrier. Approach used to merge the different driver monitoring diagnostics in the AutoConduct project. In 7th International Conference on Driver Distraction and Inattention (DDI2021), octobre 2021, Lyon, France.https://hal.science/hal-03388338v1
- [100] P. Marti, C. Jallais, A. Koustanai, A. Guillaume, F. Mars. Impact of the driver's visual engagement and situation awareness on takeover quality. In 7th International Conference on Driver Distraction and Inattention (DDI2021), octobre 2021, LYON, France.https://hal.science/hal-03388322v1
- [101] D. Schnebelen, O. Lappi, C. Mole, F. Mars. Stratégies visuelles des conducteurs en virage selon le degré d'automatisation et la vitesse du véhicule. In 10ème colloque de Psychologie Ergonomique (EPIQUE 2019), juillet 2019, Lyon, France.https://hal.science/hal-02294211v1
- [102] X. Zanlonghi, A. Barrucand, T. Bizeau, F. Mars, R. Boisliveau, I. Milleville-Pennel. Évaluation de la conduite sur simulateur lors d’atteinte du champ visuel par neuropathie optique : identification de mécanisme de compensation. In 124e Congrès International de la Société Française d'Ophtalmologie, mai 2018, Paris, France.https://hal.science/hal-02458271v1
- [103] B. Pano, P. Chevrel, F. Claveau, F. Mars. Une assistance anticipatrice et compensatrice pour la commande haptique partagée de la direction d’un véhicule. In 3ème Journées de l'Automatique du GdR MACS, novembre 2018, Nantes, France.https://hal.science/hal-01954355v1
- [104] P. Loiseau, F. Mars, F. Claveau, P. Chevrel, S. Espie. Analyse de l’interaction pilote/moto lors de la prise de virage. In 3ème Journées de l'Automatique du GdR MACS, novembre 2018, Nantes, France.https://hal.science/hal-01954378v1
- [105] Y. Zhao, P. Chevrel, F. Claveau, F. Mars. Driver model parameter identification to estimate driver adaptation over time. In 3ème Journées de l'Automatique du GdR MACS, novembre 2018, Nantes, France.https://hal.science/hal-01954364v1
- [106] R. Lobjois, F. Mars, I. Siegler. Simulation de conduite moto : effets du roulis visuel sur les stratégies visuelles et le contrôle de trajectoire lors de la prise de virage. In Journées scientifiques Deux-roues motorisés, octobre 2013, Bron, France.https://hal.science/hal-01110058v1
- [107] P. Chevrel, F. Mars, J. Lafay, F. Claveau. Contrôle latéral partagé d'un véhicule automobile : conception à base d'un modèle cybernétique du conducteur et d'une commande H2 anticipative. In Réunion GTAA (Groupe de Travail Automatique et Automobile), mai 2012, Versailles, France.https://hal.science/hal-00702059v1
- [108] M. Deroo, F. Mars, J. Hoc. Contrôlabilité de manœuvres d'évitement de sortie de voie amorcées par un dispositif haptique de maintien dans la voie. In Colloque Epique'2011, septembre 2011, Metz, France.In C. Bastien, J. Cegarra, A. Chevalier, J. Dinet, N. Gregori, V. Grosjean (éds.), Epique'2011 - Sixième Colloque de Psychologie Ergonomique. Presse Universitaire de Nancy, 2011.https://hal.science/hal-00622258v1
- [109] C. Sentouh, P. Chevrel, F. Mars, F. Claveau. Modélisation du conducteur pour le contrôle de la trajectoire d'un véhicule automobile. In Conférence Internationale Francophone d'Automatique, juin 2010, NANCY, France.https://hal.science/hal-00480009v1
- [110] J. Hoc, F. Mars, J. Navarro. Coopérer avec les assistances à la conduite: l'articulation des niveaux de contrôle cognitif.. In Congrès de la SFP, 2008, Bordeaux, France.https://hal.science/hal-00456840v1
- [111] F. Mars, I. Milleville-Pennel, J. Hoc. La modélisation de la perception et du contrôle du mouvement au service de la conception des assistances à la conduite automobile. In ÉPIQUE 2007, 2007, Nantes, France.https://hal.science/hal-00456821v1
- [112] J. Navarro, J. Hoc, F. Mars. La délégation de fonction en conduite automobile du point de vue de la coopération homme-machine.. In ÉPIQUE 2007, 2007, Nantes, France.https://hal.science/hal-00456823v1
- [113] F. Mars. Providing reference visual cues near the tangent point improves curve driving.. In 26th International Congress of Applied Psychology, 2006, , Grèce.https://hal.science/hal-00457797v1
- [114] I. Milleville-Pennel, F. Mars, E. Jolly, V. Aguiléra, B. Lusetti. Assistance à la conduite automobile : Intégration des capacités d'anticipation perceptive du conducteur. In Congrés National de la SFP, 2003, Poitiers, France.https://hal.science/hal-01111513v1
- [115] H. Illy, A. Ameyoe, P. Chevrel, E. Le Carpentier, F. Mars. Procédé de détermination d'un niveau d'attention d'un conducteur d'un véhicule automobile et méthode de stimulation de l'attention d'un conducteur d'un véhicule automobile. N° brevet : FR3040231 / WO2017029443.https://hal.science/hal-01730937v1
- [116] H. Illy, A. Ameyoe, P. Chevrel, F. Mars, E. Le Carpentier. Procédé de détermination d’un niveau d’attention d’un conducteur d’un véhicule automobile et méthode de stimulation de l’attention d’un conducteur d’un véhicule automobile. N° brevet : WO2017029444 (A1).https://hal.science/hal-01562653v1
- [117] H. Illy, A. Ameyoe, P. Chevrel, F. Mars, E. Le Carpentier. Procédé et dispositif de détection d'un changement de comportement de conducteur d'un véhicule automobile. N° brevet : FR3032919 / WO2016/132032.https://hal.science/hal-01307359v1
- [118] F. Mars. Coordination des processus sensori-moteurs et cognitifs. In Ergonomie : 150 notions clés. 2021 https://hal.science/hal-04034790v1
- [119] F. Mars, P. Chevrel. A psychophysiology-based driver model for the design of driving assistance systems. In Neuroergonomics: The brain at work and in everyday life. 2019 https://hal.science/hal-01954154v1
- [120] F. Mars. Driving in curves with constrained gaze orientation in the vicinity of the tangent point. In Vision In Vehicles - XI. 2012 https://hal.science/hal-00748988v1
- [121] J. Honoré, C. Richard, F. Mars. Perception de l’espace du corps et action. In Percevoir, s'orienter et agir dans l'espace : approche pluridisciplinaire des relations perception-action. 2002 https://hal.science/hal-01861709v1
- [122] F. Mars.