视觉透视技术在计算机辅助手术领域的研究综述

doi:10.3969/j.issn.0258-8021.2014. 03.013

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Abstract The application of seethrough technique in computeraided surgery is a hot research topic at present. In this article, firstly, the concept of seethrough is introduced, and the necessity of its application in computeraided surgery is also emphasized. Secondly, the state of arts of seethrough technique is discussed systematically in computeraided surgery. Thirdly, the research contents of seethrough technique are summarized into three parts, including registration of medical imaging data, parameterestimation of seethrough model, and depth perception, which are all explained in details. Fourthly, two standard systems based on seethrough technique are addressed in this paper. Finally, through the analysis on technique, human factor and clinic applications, further research questions and possible directions in the future are proposed.

Key words： seethrough floating display registration vision calibration depth perception

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	ZHAO ZiJian^1*WENG Ying^2

Cite this article:

ZHAO ZiJian^1*WENG Ying^2. Survey of SeeThrough Technique in ComputerAided Surgery[J]. journal1, 2014, 33(3): 349-357.

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http://cjbme.csbme.org/EN/10.3969/j.issn.0258-8021.2014. 03.013 OR http://cjbme.csbme.org/EN/Y2014/V33/I3/349

［1］Endsley MR. Toward a theory of situation awareness in dynamic system ［J］. Human Factors, 1995, 37(1): 32-64.
［2］State A, Ackerman J, Hirota G, et al. Dynamic virtual convergence for video seethrough headmounted displays: maintaining maximum stereo overlap throughout a closerange work space ［C］ // Proceedings of 4th International Symposium on Augmented Reality. Washington: IEEE Computer Society, 2001: 137-146.
［3］State A, Keller KP, Fuchs H. Simulationbased design and rapid prototyping of a parallaxfree orthoscopic video seethrough headmounted display ［C］// Proceedings of 4th IEEE and ACM International Symposium on Mixed and Augmented Reality. Vienne: IEEE Computer Society, 2005: 28-31.
［4］Sauer F, Khamene A, Bascle B, et al. A headmounted display system for augmented reality image guidance: towards clinical evaluation for iMRIguided neurosurgery ［C］// Niessen WJ, Viergever MA, eds. Proceedings of 4th International Conference on Medical Image Computing and Computer Assisted Intervention. Utrecht: SpringerVerlag, 2001: 707-716.
［5］Maurer CR, Sauer F, Hu Bo, et al. Augmentedreality visualization of brain structures with stereo and kinetic depth cues: system description and initial evaluation with head phantom ［C］// Seong KM, eds. Proceedings of SPIE 4319, Medical Imaging 2001: Visualization, Display, and ImageGuided Procedures. San Diego: SPIE, 2001: 445-456.
［6］Traub J, Stefan P, Heining SM, et al. Hybrid navigation interface for orthopedic and trauma surgery ［C］// Larsen R, Nielsen M, Sporring J, eds. Proceedings of 9th International Conference on Medical Image Computing and Computer Assisted Intervention. Copenhagen: SpringerVerlag, 2006: 373-380.
［7］Rhienmora P, Gajananan K, Haddawy P, et al. Augmented reality haptics system for dental surgical skills training ［C］// Baciu G, Lau RWH, Lin Ming, et al, eds. Proceedings of 17th ACM Symposium on Virtual Reality Software and Technology. Hong Kong: ACM, 2010: 97-98.
［8］Birkfellner W, Figl M, Huber K, et al. A headmounted operating binocular for augmented reality visualization in medicinedesign and initial evaluation ［J］. IEEE Trans Medical Imaging, 2002, 21(8): 991-997.
［9］Figl M, Ede C, Hummel J, et al. A fully automated calibration method for an optical seethrough headmounted operating microscope with variable zoom and focus ［J］. IEEE Trans Medical Imaging, 2005, 24(11): 1492-1499.
［10］Birkfellner W, Figl M, Huber K, et al. The varioscope AR—A headmounted operating microscope for augmented reality ［C］// Delp SL, DiGioia AM, Jaramaz B, eds. Proceedings of 3th International Conference on Medical Image Computing and Computer Assisted Intervention. Pittsburgh: SpringerVerlag, 2000: 869-877.
［11］Lin Yenkun, Tsai Kunlun, Yau Hongtzong. The development of optical seethrough display based on augmented reality for oral implant surgery simulation ［J］. ComputerAided Design and Applications, 2012, 9(1): 111-120.
［12］Edwards PJ, King AP, Maurer CR, et al. Design and evaluation of a system for microscopeassisted guided interventions (MAGI) ［J］. IEEE Trans Med Imaging, 2000, 19(11):1082-1093.
［13］Shahidi R, Bax MR, Maurer CR, et al. Implementation, calibration and accuracy testing of an imageenhanced endoscopy system ［J］. IEEE Trans Med Imaging, 2002, 21(12):1082-1093.
［14］Mourgues F, Viebille T, Falk V, CosteManiere E. Interactive guidance by image overlay in robot assisted coronary artery bypass ［C］// Ellis RE, Peters TM, eds. Proceedings of 6th International Conference on Medical Image Computing and Computer Assisted Intervention. Montreal: SpringerVerlag, 2003: 173-181.
［15］Liao Hongen, Iwahara M, Koike T, et al. Scalable highresolution integral videograohy autostereoscopic display with a seamless multiprojection system ［J］. Applied Optics, 2005, 44(3): 305-315.
［16］Liao Hongen, Hata H, Nakajima S, et al. Surgical navigation by autostereoscopic image overlay of integral videography ［J］. IEEE Trans Information Technology in Biomedicine, 2004, 8(2): 114-121.
［17］Liao Hongen, Inomata T, Sakuma I, et al. Surgical navigation of integral videography image overlay for open MRIguided glioma surgery ［C］// Yang Guangzhong, eds. Proceedings of 3rd international workshop on Medical Imaging and Augmented Reality. Shanghai: SpringerVerlag, 2006: 187-194.
［18］Edward H. Livingston. Surgical and clinical needs for DLP hyperspectral imaging ［C］// Douglass MR, Hornback LJ, eds. Proceedings of SPIE Emerging Digital Micromirror Device Based Systems and Applications II. San Francisco: SPIE, 2010: 1-9.
［19］Masamune K, Fichtinger G, Deguet A, et al. An image overlay system with enhanced reality for percutaneous therapy performed inside CT scanner ［C］// Dohi T, Kikinis R, eds. Proceedings of 5th International Conference on Medical Image Computing and Computer Assisted Intervention. Tokyo: SpringerVerlag, 2002: 77-84.
［20］Fichtinger G, Deguet A, Masamune K, et al. Image overlay guidance for needle insertion in CT scanner ［J］. IEEE Trans Biomedical Engineering, 2005, 52(8): 1415-1424.［21］Weiss CR, Marker DR, Fischer GS, et al. Augmented reality visualization using imageoverlay for MRguided intervention: system description, feasibility, and initial evaluation in a spine phantom ［J］. American Journal of Roentgenology, 2011, 196(1): 305-307.
［22］Tagaya N, Aoyagi H, Nakagawa A, et al. A novel approach for sentinel lymph node identification using fluorescence imaging and image overlay navigation surgery in patients with breast caner ［J］. World Journal of Surgery, 2011, 35(2): 154-158.
［23］Tuceryan M, Genc Y, Navab N. Single point active alignment method (SPAAM) for optical seethrough HMD calibration for AR ［J］. Presence: Teleoperators and Virtual Environments, 2002, 11(3): 259-276.
［24］Axholt M, Cooper MD, Skoglund MA, et al. Parameter estimation variance of the single point active alignment method in optical seethrough head mounted display calibration ［C］// Hirose M, Lok B, Majumder A, Schmalstieg D, eds. Proceedings of IEEE Virtual Reality. Singapore: IEEE Computer Society, 2011: 27-34.
［25］Gilson S, Fitzgibbon AW, Glennerster A. Spatial calibration of an optical seethrough headmounted display ［J］. Journal of Neuroscience Methods, 2008, 173(3): 140-146.
［26］Braux-Zin J, Bartoli A, Dupont R, et al. Calibrating an optical seethrough rig with two nonoverlapping cameras: The virtual camera framework ［C］// Proceedings of 2nd Joint 3DIM/3DPVT Conference on 3D Imaging, Modeling, Processing, Visualization & Transmission. Zurich: IEEE computer society, 2012: 308 -315.
［27］Prytz E, Montano M, Scerbo MW. Using Fitts' law for a 3D pointing task on a 2D display: Effects of depth and vantage point ［C］// Proceedings of the Human Factors and Ergonomics Society. Boston: Sage Publications, 2012: 1391-1395.
［28］Jones JA, Swan II JE, Singh G, et al. Peripheral visual information and its effect on distance judgments in virtual and augmented environments ［C］// McDonnell R, Thorpe SJ, Spencer SN, eds. Proceedings of ACM Symposium on Applied Perception in Graphics & Visualization. Toulouse: ACM, 2011: 29-36.
［29］Kuhl SA, Thompson WB, CreemRegehr SH. HMD calibration and its effects on distance judgments ［J］. ACM Transactions on Applied Perception, 2009, 6(3): 1-20.
［30］Singh G, Swan II JE, Jones JA, et al. Depth judgments by reaching and matching in nearfield augmented reality ［C］// Proceedings of IEEE Virtual Reality. Orange County: IEEE Computer Society, 2012: 165-166.
［31］Jones JA, Suma EA, Krum DM, et al. Comparability of narrow and wide fieldofview headmounted displays for mediumfield distance judgments ［C］// Proceedings of ACM Symposium on Applied Perception. Los Angeles: ACM, 2012: 119-122.
［32］Hanna GB, Shimi SM, Cuschieri A. Task performance in endoscopic surgery is influenced by location of the image display ［J］. Annals of Surgery, 1998, 227(4): 481-484. 
［33］李舫, 宋志坚. HMD式光学穿透技术在医学增强现实中的研究进展［J］. 中国数字医学, 2012, 7(1): 14-20.
［34］Kellner F, Bolte B, Bruder G, et al. Geometric calibration of headmounted displays and its effects on distance estimation ［J］. IEEE Transactions on Visualization and Computer Graphics, 2012, 18(4): 589-596.