Abstract
In this paper, a Computational Virtual Reality Environment for Anesthesia (CVREA) is proposed. Virtual reality, data mining, machine learning techniques will be explored to develop (1) an immersive and interactive training platform for anaesthetists, which can greatly improve their training and learning performance; (2) a knowledge learning environment which collects clinical data with greater richness, process data with more efficacy, and facilitate knowledge discovery in anaesthesiology.
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References
Grottke, O., et al.: Virtual reality-based simulator for training in regional anaesthesia. Br. J. Anaesth. 103, 594–600 (2009). aep224
Burt, D.E.: Virtual reality in anaesthesia. Br. J. Anaesth. 75(4), 472–480 (1995)
Wiener, E.L., Nagel, D.C. (eds.): Human Factors in Aviation. Gulf Professional Publishing, Houston (1988)
Wiener, E.L., Kanki, B.G., Helmreich, R.L. (eds.): Cockpit Resource Management. Gulf Professional Publishing, Houston (1993)
Levin, A.: Fewer crashes caused by pilots. USA Today, p. 2, March 2, 2004
Issenberg, S.B., et al.: Effectiveness of a computer-based system to teach bedside cardiology. Acad. Med. 74(10), S93–S95 (1999)
Schwid, H.A., et al.: Use of a computerized advanced cardiac life support simulator improves retention of advanced cardiac life support guidelines better than a textbook review. Crit. Care Med. 27(4), 821–824 (1999)
Logan, I.P., et al.: Virtual environment knee arthroscopic training system. Simul. Ser. 28, 11–16 (1996)
Tuggy, M.L.: Virtual reality flexible sigmoidoscopy simulator training: impact on resident performance. J. Am. Board Fam. Pract. 11(6), 426–433 (1998)
Small, S.D., et al.: Demonstration of high-fidelity simulation team training for emergency medicine. Acad. Emerg. Med. 6(4), 312–323 (1999)
Ziv, A., Small, S.D., Wolpe, P.R.: Patient safety and simulation-based medical education. Med. Teach. 22(5), 489–495 (2000)
Ziv, A., et al.: Simulation-based medical education: an ethical imperative. Acad. Med. 78(8), 783–788 (2003)
Rolfe, J.M., Staples, K.J. (eds.): Flight Simulation, vol. 1. Cambridge University Press, Cambridge (1988)
Gaba, D.M.: Anaesthesiology as a model for patient safety in health care. BMJ. Br. Med. J. 320(7237), 785 (2000)
Cooper, J.B.: No myth: anesthesia is a model for addressing patient safety. Anesthesiology 97(6), 1335–1337 (2002)
Lagasse, R.S.: Anesthesia safety: Model or myth. Anesthesiology 97(6), 1609–1617 (2002)
Merry, A.F., et al.: International standards for a safe practice of anesthesia 2010. Can. J. Anesth./J. Can. d’anesthésie 57(11), 1027–1034 (2010)
Bainbridge, D., et al.: Perioperative and anaesthetic-related mortality in developed and developing countries: a systematic review and meta-analysis. Lancet 380(9847), 1075–1081 (2012)
Kunkler, K.: The role of medical simulation: an overview. Int. J. Med. Robot. Comput. Assist. Surg. 2(3), 203–210 (2006)
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Cao, X., Zhang, P., He, J., Huang, G. (2015). Building Computational Virtual Reality Environment for Anesthesia. In: Zhang, C., et al. Data Science. ICDS 2015. Lecture Notes in Computer Science(), vol 9208. Springer, Cham. https://doi.org/10.1007/978-3-319-24474-7_21
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DOI: https://doi.org/10.1007/978-3-319-24474-7_21
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