Information Technology Reference
In-Depth Information
14.
Starkes, J.L., Payk, I., Hodges, N.J.: Developing a standardized test for the assessment of
suturing skill in novice microsurgeons. Microsurgery 18(1), 19-22 (1998)
15.
Macmillan, A.I., Cuschieri, A.: Assessment of innate ability and skills for endoscopic manipu-
lations by the Advanced Dundee Endoscopic Psychomotor Tester: predictive and concurrent
validity. The American Journal of Surgery 177(3), 274-277 (1999)
16.
Egi, H., et al.: Objective assessment of endoscopic surgical skills by analyzing direction-
dependent dexterity using the Hiroshima University Endoscopic Surgical Assessment
Device (HUESAD). Surgery Today 38(8), 705-710 (2008)
17.
Mason, J.D., et al.: Is motion analysis a valid tool for assessing laparoscopic skill? Surgical
Endoscopy, 1-10 (2012)
18.
Reiley, C.E., Hager, G.D.: Task versus subtask surgical skill evaluation of robotic mini-
mally invasive surgery. In: Yang, G.-Z., Hawkes, D., Rueckert, D., Noble, A., Taylor, C.
(eds.) MICCAI 2009, Part I. LNCS, vol. 5761, pp. 435-442. Springer, Heidelberg (2009)
19.
Rosen, J., et al.: Task decomposition of laparoscopic surgery for objective evaluation of
surgical residents' learning curve using hidden Markov model. Computer Aided Sur-
gery 7(1), 49-61 (2002)
20.
Pagador, J.B., et al.: Decomposition and analysis of laparoscopic suturing task using tool-
motion analysis (TMA): improving the objective assessment. International Journal of
Computer Assisted Radiology and Surgery 7(2), 305-313 (2012)
21.
Cao, C., et al.: Hierarchical decomposition of laparoscopic procedures. Studies in Health
Technology and Informatics, 83-89 (1999)
22.
Chen, J., Yeasin, M., Sharma, R.: Visual modelling and evaluation of surgical skill. Pattern
Analysis & Applications 6(1), 1-11 (2003)
23.
Harwell, R.C., Ferguson, R.L.: Physiologic tremor and microsurgery. Microsurgery 4(3),
187-192 (1983)
24.
Elble, R.J., Koller, W.C.: Tremor. Johns Hopkins University Press (1990)
25.
Rappel, J.K., et al.: Tremor Profiling Using Digital Microsurgical Pre-Trainer. In: The
Third Asian Pacific Conference on Biomechanics. The Japan Society of Mechanical Engi-
neers, Japan (2007)
26.
Huang, N.E., et al.: The empirical mode decomposition and the Hilbert spectrum for non-
linear and non-stationary time series analysis. Proceedings of the Royal Society of London
454, 903-995 (1998)
27.
Schenker, P.S., et al.: Development of a telemanipulator for dexterity enhanced microsur-
gery. In: Proc. 2nd Intl. Symp. Med. Robot. Comput. Assist. Surg. (1995)
28.
Riviere, C., Khosla, P.: Accuracy in positioning of handheld instruments. In: Proceedings
of the 18th Annual International Conference of the IEEE Engineering in Medicine and
Biology Society, Bridging Disciplines for Biomedicine. IEEE (1996)
29.
Hotraphinyo, L.F., Riviere, C.N.: Three-dimensional accuracy assessment of eye surgeons.
In: Proceedings of the 23rd Annual International Conference of the IEEE Engineering in
Medicine and Biology Society. IEEE (2001)
30.
Moraes, R.M., Machado, L.S.: Psychomotor Skills Assessment in Medical Training Based
on Virtual Reality Using a Weighted Possibilistic Approach. Knowledge-Based Systems
(in press, 2014)
31.
De Moraes, R.M., dos Santos Machado, L.: A New Class of Assessment Methodologies in
Medical Training Based on Combining Classifiers. In: 12th Safety, Health and Environ-
ment World Congress, San Paulo, Brazil, July 22-25 (2012)
Search WWH ::
Custom Search