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Kwon, Ohjae,Lee, Jeongjin,Kim, Bohyoung,Shin, Juneseuk,Shin, Yeong-Gil Elsevier 2017 Computers in biology and medicine Vol.82 No.-
<P><B>Abstract</B></P> <P>With the recent advances regarding the acquisition and simulation of blood flow data, blood flow visualization has been widely used in medical imaging for the diagnosis and treatment of pathological vessels. In this paper, we present a novel method for the visualization of the blood flow in vascular structures. The vessel inlet or outlet is first identified using the orthogonality metric between the normal vectors of the flow velocity and vessel surface. Then, seed points are generated on the identified inlet or outlet by Poisson disk sampling. Therefore, it is possible to achieve the automatic seeding that leads to a consistent and faster flow depiction by skipping the manual location of a seeding plane for the initiation of the line integration. In addition, the early terminated line integration in the thin curved vessels is resolved through the adaptive application of the tracing direction that is based on the flow direction at each seed point. Based on the observation that blood flow usually follows the vessel track, the representative flowline for each branch is defined by the vessel centerline. Then, the flowlines are rendered through an opacity assignment according to the similarity between their shape and the vessel centerline. Therefore, the flowlines that are similar to the vessel centerline are shown transparently, while the different ones are shown opaquely. Accordingly, the opacity modulation method enables the flowlines with an unusual flow pattern to appear more noticeable, while the visual clutter and line occlusion are minimized. Finally, Hue-Saturation-Value color coding is employed for the simultaneous exhibition of flow attributes such as local speed and residence time. The experiment results show that the proposed technique is suitable for the depiction of the blood flow in vascular structures. The proposed approach is applicable to many kinds of tubular structures with embedded flow information.</P> <P><B>Highlights</B></P> <P> <UL> <LI> An improved method for visualizing blood flow in vascular structures is proposed. </LI> <LI> The proposed method automates the seeding process. </LI> <LI> Our method resolves the early termination of flowline integration in curved vessels. </LI> <LI> Our method adjusts the visibility of flowlines by attenuating the opacity. </LI> <LI> Our method enables a faster diagnosis through the depiction of abnormal flow. </LI> </UL> </P>
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조용무(Y.M.Cho),Ohjae Kwon(O.J.Kwon) 한국자동차공학회 1998 한국자동차공학회 춘 추계 학술대회 논문집 Vol.1998 No.5_2
At present. the designer. using the analysis software for plastic injection molding process have a difficulty to interface geometry model data of another CAD software. In this work. we have been concerned with developing the flow analysis system for plastic injection molding on the AutoCAD. We have concentrated on building a viable environment, including a resin databese, a menu-driven user interface and molding machine data file, And FEM/FDM/FVM was used in the flow analysis considering the effects of heat transfer between molten polymer, mold wall, and frictional heating by shear flow. This provides distribution of pressure, temperature, shear stress and shear stress. So. the system, which is called CAMA/Fill, is applied to predict weld line, air trap. gate position and runner balance. And using the analysis results, the molding factors can be estimated quality and productivity of parts at the stage of mold design. <br/>