.. Principe-de-l-'étalonnage, 46 1.2.2. Spécificités des erreurs, p.53

.. La-méthode-multi-quadrique-d-'hardy, 64 1.2.5. Techniques et moyens d'acquisition de données d'étalonnage, p.71

D. Sarafian, 3D sound in the helicopter environment: localisation performance, Proceedings of 40 th International Symposium on Auditory and Audiological Research, pp.26-28

F. , R. Panini, and F. C. , Le procedure Misurare la terra centuriazone e coloni nel mondo romano, 1983.

G. , R. , and G. Jean-dominique, Réalité Augmentée et environnement collaboratif : un tour d'horizon, AFIG'03, 2003.

G. , R. Good, . Michael, . Ericson, and . Mark, A pointing technique for rapidly collecting localization responses in auditory research Behavior research methods, Instruments & Computers, vol.27, pp.1-1, 1995.

. Paris, Les Presses de l'Ecole des Mines, pp.155-191, 2001.

E. Foxlin, . Harrington, . Michael, and Y. Altshuker, Miniature six-DOF inertial system for tracking HMDs, Helmet- and Head-Mounted Displays III, pp.1-15, 1998.
DOI : 10.1117/12.317434

R. , F. Blood, E. Steioner, and T. , Magnetic position and orientation tracking system, IEEE Transactions on Aerospace and Electronic Systems, vol.15, pp.5-709, 1979.

A. , B. Johnston, E. Ellis, and S. , Dynamic response of electromagnetic spatial displacement trackers. Presence: Telepresence and Virtual Environments, pp.302-318, 1996.

S. T. and A. O. Nakagawa-m, Algorithm Design and Prototype of a Low-cost Electromagnetic Inductance Real-Time 6D-tracker, 15 th International Conference on Information Networking, pp.726-732, 2001.

L. Menn and M. , Etude d'une méthode de mesure de rotations utilisant une lumière modulée en polarisation: application aux mouvements de la tête

P. Fuchs, Les interfaces de la réalité virtuelle. Paris : Les Presses de l'Ecole des Mines, pp.147-161, 1996.

F. Ferrin, Survey of helmet tracking technologies In : SPIE, Large screen Projection, Avionic, and HMD, Proc. SPIE, 1991.

D. Fenner, The PLADAR, tracking system. The Virtual Reality Newsletter, 1993.

W. , J. F. , C. , V. Fuchs, and H. , A real-time optical 3D tracker for HMD systems, Computer graphics, pp.2-24, 1990.

W. , G. Bishop, . Gary, . Vicci, and . Leandra, The HiBall Tracker: High-Performance Wide-Area Tracking for Virtual and Augmented Environments, VRST 99, Proceedings of the ACM Symposium on Virtual Reality Software and Technology, pp.1-11, 1999.

R. Jean-claude, Gyroscopes et gyromètres mécaniques avec élément rotatif, pp.1-10, 1999.

R. Guiziou, Système de Contrôle d'Attitude et d'Orbite

B. , Y. Rolland, and J. , Fundamental Principles of Tracking Technology for Virtual Environments, Center for Research and Education in Optics and Lasers, 1996.

G. , B. Ripoll, and C. , Aide-mémoire Electronique. 5 ième éd, Paris : Dunod, issue.7, pp.148-150, 2008.

K. K. Elberink and S. , Accuracy and resolution of Kinect Depht Data for Indoor Mapping Applications, Sensors, vol.12, pp.1437-1454, 2012.

G. , M. Lecompte, C. Vaa, and . Vssa, Conséquences biomécaniques sur le système musculaire cervical du port d'un casque avec viseur. Rapport de recherche DR n°06-02, 2006.

B. , D. Simpson, B. Mckinley, and R. , The interaction between Head tracker latency, source duration, and response time in the localization of virtual sound sources, Proceedings of ICAD 04 -Tenth Meeting of the International Conference on Auditory Display, pp.1-7, 2004.

M. , K. Applewhite, H. Biocca, and F. , A survey of position trackers, Presence, vol.1, pp.2-173, 1992.

C. , C. Sandin, D. Defanti, and T. , Virtual Reality: The Design and Implementation of the CAVE, Proceedings of SIGGRAPH '93 Computer Graphics Conference, pp.135-142, 1993.

D. Frantz, K. Stefan, and A. Wiles, Specifying 3D Tracking System Accuracy One Manufacturer???s Views, Proc. Bildverarbeitung für die Medizin, pp.29-30, 2004.
DOI : 10.1007/978-3-642-18536-6_48

T. , X. Ling, K. V. Ng, and W. S. , Magnetic tracker calibration for an augmented reality system for therapy, Proceeding of Institution Mechanical Engineers, pp.51-59, 2001.

A. Wiles, . Thompson, . David, and D. Frantz, Accuracy assessment and interpretation for optical tracking systems, Medical Imaging 2004: Visualization, Image-Guided Procedures, and Display, pp.1-12, 2004.
DOI : 10.1117/12.536128

N. , M. A. Mccallum, B. C. Fright, and W. R. , The Effects of Metals and Interfering Fields on Electromagnetic Trackers, Presence, vol.7, pp.2-204, 1998.

H. Murry, Magnetic Tracker Distortion, Disponible sur : <www.polhemus.com > (consulté le 06, 2004.

C. Marek, . Sandin, . Daniel, and T. Defanti, Line of Sight Method for Tracker Calibration in Projection-Based VR Systems, Proceedings of 2 nd International Immersive Projection Technology Workshop, pp.1-7, 1998.

G. , M. Adamczyk, D. Sandin, and D. , Ultrasonic Calibration of a Magnetic Tracker in a Virtual Reality Space, VRAIS '95, Proceedings of the IEEE Virtual Reality Annual International Symposium, pp.11-15, 1995.

L. , M. A. State, and A. , Magnetic Tracker Calibration for Improved Augmented Reality Registration, Presence, vol.6, pp.5-532, 1997.

S. Bryson, Measurement and Calibration of Static Distortion of Position Data from 3D Trackers, Proceedings of SPIE Conference on Stereoscopic Displays and Applications III, pp.244-255, 1992.

E. , S. Adelstein, B. Baumeler, and S. , Sensor spatial distortion, visual latency, and update rate effects on 3D tracking in virtual environments, IEEE VR '99 Proceedings IEEE Virtual Reality Conference, pp.218-221, 1999.

K. , D. Lane, and A. , Interactive time-dependent particle tracing using tetrahedral decomposition, IEEE Transactions on Visualization and Computer Graphics, vol.2, issue.2, pp.120-129, 1996.

K. , V. Bennett, and A. , Evaluation of Rotation Correction Techniques for Electromagnetic Position Tracking Systems, Proc. Virtual Environments, pp.13-22, 2000.

I. , M. Brederson, . Dean, and C. Hansen, An Improved Calibration Framework for Electromagnetic Tracking Devices, IEEE Virtual Reality, pp.63-70, 2001.

. Saleh, . Tammer, . Kindratenko, . Volodymyr, and W. Sherman, On Using Neural Networks to Calibrate Electromagnetic Tracking Systems, 2000.

D. , J. Murdoch, D. Dumas, and G. , Calibration of position and angular data from a magnetic tracking device, Journal of Biomechanics, vol.33, pp.1039-1045, 2000.

N. Kazuhisa, . Nakamoto, . Masahiko, and Y. Sato, A rapid method for magnetic tracker calibration using a magneto-optic hybrid tracker, Lecture Notes in Computer Science, vol.2, issue.2879, pp.285-293, 2003.

N. , C. Boyle, and R. , Performance evaluation metrics and statistics for positional tracker evaluation, ICVS Lecture Notes in Computer Science, vol.2626, pp.278-289, 2003.

H. , J. Bax, M. Figi, and M. , Design and application of an assessment protocol for electromagnetic tracking systems, Med. Phys, vol.32, issue.7, pp.2371-2379, 2005.

O. Intergouvernementale-de, L. Convention, and . Metre, Le Système international d'unités (SI). 8 ème éd, STEDI Media, 2006.