By Stephen J. Riederer (auth.), Guang-Zhong Yang, Tian-Zi Jiang (eds.)
Rapid technical advances in scientific imaging, together with its transforming into software to drug/gene remedy and invasive/interventional strategies, have attracted major curiosity in shut integration of study in existence sciences, drugs, actual sciences and engineering. this is often prompted through the medical and easy technology learn requi- ment of acquiring extra exact physiological and pathological information regarding the physique for setting up localized genesis and development of ailments. present learn is usually prompted through the truth that clinical imaging is more and more relocating from a basically diagnostic modality in the direction of a healing and interventional relief, pushed via contemporary advances in minimal-access and robotic-assisted surgical procedure. It was once our nice excitement to welcome the attendees to MIAR 2004, the 2d Int- nationwide Workshop on clinical Imaging and Augmented truth, held on the Xia- shan (Fragrant Hills) lodge, Beijing, in the course of August 19–20, 2004. The objective of MIAR 2004 was once to assemble researchers in computing device imaginative and prescient, images, robotics, and scientific imaging to offer the state of the art advancements during this ever-growing examine region. The assembly consisted of a unmarried tune of oral/poster displays, with each one consultation led by way of an invited lecture from our distinct foreign f- ulty participants. For MIAR 2004, we acquired ninety three complete submissions, which have been sub- quently reviewed through as much as five reviewers, leading to the reputation of the forty-one complete - pers incorporated during this volume.
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Additional info for Medical Imaging and Augmented Reality: Second International Workshop, MIAR 2004, Beijing, China, August 19-20, 2004. Proceedings
And Viergever, M. Proc MICCAI 2001, LNCS vol. 2208, 368-375. 2001. 8. , “3-D Image Guidance for Minimally Invasive Robotic Coronary Artery Bypass (MIRCAB), Heart Surgery Forum, vol. 3, no. html, 2000. 9. , Validation of dynamic heart models obtained using non-linear registration for virtual reality training, planning, and guidance of minimally invasive cardiac surgeries, Medical Image Analysis, vol. 8, no. 3, pp. In Press, 2004. 10. M. Cardiac endoscopy enhanced by dynamic organ modeling for minimally-invasive surgery guidance.
The targets in these cases are relatively rigid, making the process of registering pre-operative images to the patient fairly straightforward. For other organs, for example the heart, liver, and kidney, registration is not as simple, and it is these organs that present the major challenges for imaging during minimally invasive surgery. -Z. Yang and T. ): MIAR 2004, LNCS 3150, pp. 19-26, 2004. M. 1 Frame-Based Stereotactic Deep-Brain Surgery Computerized surgical planning systems made their debut in the early 1980’s using simple programs that established coordinate systems in the brain based on framebased fiducial markers.
They defined the “salient map” of an image as a feature to guide the grouping process. -Z. Yang and T. ): MIAR 2004, LNCS 3150, pp. 38–45, 2004. © Springer-Verlag Berlin Heidelberg 2004 An Adaptive Enhancement Method for Ultrasound Images 39 Fig. 1. A typical US image of a normal liver and its canny edge map. Left: The original US image. Right: The edge map derived via the canny operator. was computed by an incremental optimization scheme called saliency network. This approach generally prefers long and smooth curves over short or wiggly ones.