R. D. Acton, The Evolving Role of Simulation in Teaching Surgery in Undergraduate Medical Education, Surgical Clinics of North America, vol.95, pp.739-750, 2015.

C. Perrenot, The virtual reality simulator dVTrainer® is a valid assessment tool for robotic surgical skills, Surgical Endoscopy, vol.26, pp.2587-2593, 2012.

G. Arbelaez-garces, Contribution to the objective assessment of technical skills for surgery students: An accelerometer based approach, In: International Journal of Industrial Ergonomics, vol.64, pp.79-88, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01812007

N. Guo and M. C. Leu, Additive manufacturing: technology, applications and research needs, Frontiers of Mechanical Engineering, vol.8, issue.3, pp.215-243, 2013.

M. Vaezi, Multiple material additive manufacturing -Part 1: a review, Virtual and Physical Prototyping, vol.8, pp.19-50, 2013.

V. Kaufui, A. Wong, and . Hernandez, A Review of Additive Manufacturing, ISRN Mechanical Engineering 2012, pp.1-10, 2012.

D. Pham and S. Dimov, Rapid prototyping and rapid tooling-the key enablers for rapid manufacturing, Proceedings of the Institution of Mechanical Engineers, vol.217, pp.1-23, 2003.

I. Gibson, D. W. Rosen, and B. Stucker, Additive Manufacturing Technologies, vol.32, 2010.

L. M. Al-saud, Feedback and motor skill acquisition using a haptic dental simulator, European Journal of Dental Education, vol.21, pp.240-247, 2017.

M. B. Putrik, Y. E. Lavrentyeva, and I. N. Antsygin, Construction of Objects for Rapid Prototyping Manufacturing in Dentistry, Biomedical Engineering, vol.50, pp.134-137, 2016.

H. Kinoshita, Development of a Drilling Simulator for Dental Implant Surgery, In: Journal of dental education, vol.80, pp.83-90, 2016.

G. Lopez, A cost-effective junior resident training and assessment simulator for orthopaedic surgical skills via fundamentals of orthopaedic surgery aaos exhibit selection: AAOS exhibit selection, Journal of Bone and Joint Surgery -American, vol.97, pp.659-666, 2015.

D. J. Thomas, M. A. Mohd-azmi, and Z. Tehrani, 3D additive manufacture of oral and maxillofacial surgical models for preoperative planning, International Journal of Advanced Manufacturing Technology, vol.71, pp.1643-1651, 2014.

A. Bankoff, Biomechanical Characteristics of the Bone". In: Human Musculoskeletal Biomechanics, pp.61-86, 2012.

P. K. Zysset, J. Schwiedrzik, and U. Wolfram, Perren Award 2016: A statistical damage model for bone tissue based on distinct compressive and tensile cracks, European Society of Biomechanics S.M, vol.49, pp.3616-3625, 2016.

Y. Lin, A predictive bone drilling force model for haptic rendering with experimental validation using fresh cadaveric bone, International Journal of Computer Assisted Radiology and Surgery, vol.12, pp.91-98, 2017.

K. Gok, A. Gok, and Y. Kisioglu, Optimization of processing parameters of a developed new driller system for orthopedic surgery applications using Taguchi method, International Journal of Advanced Manufacturing Technology, vol.76, pp.1437-1448, 2014.

J. Soriano, Study and improvement of surgical drill bit geometry for implant site preparation, International Journal of Advanced Manufacturing Technology, vol.74, pp.615-627, 2014.

, Standard Terminology for Additive Manufacturing -General Principles -Terminology, ASTM International i, pp.1-9, 2015.

Y. Zhai, D. A. Lados, and J. L. Lagoy, Additive Manufacturing: Making Imagination the Major Limitation, Jom, vol.66, pp.808-816, 2014.

H. Bikas, G. Stavropoulos, and . Chryssolouris, Additive manufacturing methods and modelling approaches: a critical review, The International Journal of Advanced Manufacturing Technology, pp.1-17, 2015.

M. Feygin and B. Hsieh, Laminated Object Manufacturing (LOM): A Simpler Process". In: Proceedings of Solid Freefonn Fabrication Symposium, vol.0, pp.123-130, 1991.

B. Mueller and D. Kochan, Laminated object manufacturing for rapid tooling and patternmaking in foundry industry, Computers in Industry, vol.39, pp.47-53, 1999.

P. Wahyudin, M. A. Syam, A. M. Mannan, and . Alahmari, Rapid prototyping and rapid manufacturing in medicine and dentistry, Virtual and Physical Prototyping, vol.6, pp.79-109, 2011.

A. Dawood, 3D printing in dentistry, British Dental Journal, vol.219, pp.521-529, 2015.

P. G. Mcmenamin, The production of anatomical teaching resources using three-dimensional (3D) printing technology, Anatomical Sciences Education, vol.7, pp.479-486, 2014.

A. Azadeh, Design and implementation of an integrated Taguchi method for continuous assessment and improvement of manufacturing systems, The International Journal of Advanced Manufacturing Technology, vol.59, pp.1073-1089, 2011.

Y. William, C. M. Fowlkes, and . Creveling, Engineering Methods for Robust Product Design: Using Taguchi Methods in Technology and Product Development, p.432, 1995.

B. N. Turner, R. Strong, and S. A. Gold, A review of melt extrusion additive manufacturing processes: I. Process design and modeling, Rapid Prototyping Journal, vol.20, pp.192-204, 2014.

S. Bose, S. Vahabzadeh, and A. Bandyopadhyay, Bone tissue engineering using 3D printing, Materials Today, vol.16, pp.496-504, 2013.

F. A. and C. Sanchez, Towards a standard experimental protocol for open source additive manufacturing, Virtual and Physical Prototyping, vol.9, pp.151-167, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01522630