25 September 2001 Fractal simulation of coronary arteries based on bifurcate rule-base
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Proceedings Volume 4553, Visualization and Optimization Techniques; (2001) https://doi.org/10.1117/12.441573
Event: Multispectral Image Processing and Pattern Recognition, 2001, Wuhan, China
Abstract
As to the research of 3D reconstruction in modern medical imaging, if an object to be reconstructed can be simulated by computer, its X-ray projections will be gotten exactly and freely, which will be more significant in testing the behavior of reconstruction algorithms. In this paper we present a new, efficient method to simulate coronary arteries under the background of cone-beam reconstruction. In order to achieve this task, we create a bifurcate rule-base of coronary arteries and model their spatial configuration by controlling the parameters in spherical coordinates, then we use random iterated algorithm to simulate them by the reference of fractal theory. As to the research of 3D reconstruction in modern medical imaging, if an object to be reconstructed can be simulated by computer, its X-ray projections will be gotten exactly and freely, which will be more significant in testing the behavior of reconstruction algorithms. In this paper we present a new, efficient method to simulate coronary arteries under the background of cone-beam reconstruction. In order to achieve this task, we create a bifurcate rule-base of coronary arteries and model their spatial configuration by controlling the parameters in spherical coordinates, then we use random iterated algorithm to simulate them by the reference of fractal theory.
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Ping Wang, Ping Wang, Xuanqin Mou, Xuanqin Mou, Chuanjian Hou, Chuanjian Hou, Yuanlong Cai, Yuanlong Cai, } "Fractal simulation of coronary arteries based on bifurcate rule-base", Proc. SPIE 4553, Visualization and Optimization Techniques, (25 September 2001); doi: 10.1117/12.441573; https://doi.org/10.1117/12.441573
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