计算机时代
計算機時代
계산궤시대
COMPUTER ERA
2014年
10期
38-40,43
,共4页
金晓芳%卢秋群%吴怡%王力岩%易巾萍%叶含笑
金曉芳%盧鞦群%吳怡%王力巖%易巾萍%葉含笑
금효방%로추군%오이%왕력암%역건평%협함소
3DMAX技术%三维医学动画%耳蜗%案例教学
3DMAX技術%三維醫學動畫%耳蝸%案例教學
3DMAX기술%삼유의학동화%이와%안례교학
the technology of 3DMAX%three-dimensional%medical%animation%the cochlea%case-based teaching
为精确显示耳蜗的结构和功能,提供耳蜗的三维参数,进一步帮助人们认识耳蜗这一特殊结构,采用3DMAX技术,结合现有的二维耳蜗分割技术,通过虚拟化的三维场景重建耳蜗动态效果。将多维子对象材质、mental ray渲染器和高级动画结合,直观立体地表达了耳蜗在医学范畴的难点。通过三维耳蜗医学动画展示,形成可视化、可交互效果。将三维医学动画应用于教学和临床更容易被学生所理解和接受。三维耳蜗医学动画案例教学在帮助学生、老师和医生准确掌握耳蜗解剖结构的同时,达到了学科交叉和多学科技术融合的目的,在教学工作中有着深远的意义和广阔的应用前景。
為精確顯示耳蝸的結構和功能,提供耳蝸的三維參數,進一步幫助人們認識耳蝸這一特殊結構,採用3DMAX技術,結閤現有的二維耳蝸分割技術,通過虛擬化的三維場景重建耳蝸動態效果。將多維子對象材質、mental ray渲染器和高級動畫結閤,直觀立體地錶達瞭耳蝸在醫學範疇的難點。通過三維耳蝸醫學動畫展示,形成可視化、可交互效果。將三維醫學動畫應用于教學和臨床更容易被學生所理解和接受。三維耳蝸醫學動畫案例教學在幫助學生、老師和醫生準確掌握耳蝸解剖結構的同時,達到瞭學科交扠和多學科技術融閤的目的,在教學工作中有著深遠的意義和廣闊的應用前景。
위정학현시이와적결구화공능,제공이와적삼유삼수,진일보방조인문인식이와저일특수결구,채용3DMAX기술,결합현유적이유이와분할기술,통과허의화적삼유장경중건이와동태효과。장다유자대상재질、mental ray선염기화고급동화결합,직관입체지표체료이와재의학범주적난점。통과삼유이와의학동화전시,형성가시화、가교호효과。장삼유의학동화응용우교학화림상경용역피학생소리해화접수。삼유이와의학동화안례교학재방조학생、로사화의생준학장악이와해부결구적동시,체도료학과교차화다학과기술융합적목적,재교학공작중유착심원적의의화엄활적응용전경。
In order to display the structure and function of the cochlea accurately and provide three-dimensional parameters of the cochlea, further helping people to understand the cochlea, by adopting the technology of 3DMAX, combining the existing two-dimensional cochlea segmentation technology, cochlear dynamic 3D scene is reconstructed through virtualization. Multi-dimensional subobject material, getting ray renderer and advanced animation are integrated to intuitively show the difficulty of cochlear in medical category. Through three-dimensional cochlear medical animation display, the visual, interactive effect is created. The results show that applying the three-dimensional medical animation to clinical work will make it easy for students to understood and accept. It helps students, teachers and doctors accurately master the cochlear anatomical structure, achieves the purpose of interdisciplinary and multidisciplinary technology integration, which has a profound significance and broad application prospects.