计算机应用
計算機應用
계산궤응용
COMPUTER APPLICATION
2014年
z1期
238-242
,共5页
曾祥森%韦山%周海%王冬梅%王成焘
曾祥森%韋山%週海%王鼕梅%王成燾
증상삼%위산%주해%왕동매%왕성도
X光片%股骨标准模型%二维三维配准%自由变形%三维重建
X光片%股骨標準模型%二維三維配準%自由變形%三維重建
X광편%고골표준모형%이유삼유배준%자유변형%삼유중건
X-ray image%Standard Shape Model ( SSM)%2D/3D registration%Free-Form Deformation (FFD)%3D reconstruction
介绍了一种利用两张常规X光照片和标准骨模型对股骨三维模型进行快速重建的方法。从两个正交方向拍摄X光片,并记录X光片拍摄的参数信息;利用二维/三维配准算法建立了二维X光片与三维标准模型之间的对应关系。提出了基于FFD算法的单位自由变形方法对标准模型进行重建,最终使得X光片外轮廓与标准模型模拟投影轮廓一致,从而获得个性化的股骨三维模型。针对35个样本设计了全面的实验,最终得到全骨的二维点配对平均时间为20 s,平均重建时间为112 s;三维模型的外形平均误差为0.52 mm,且精度和速度均保持稳定,具有良好的鲁棒性。该快速长骨重建方法减少了重建时间,具有较高的重建精度,同时具有良好的稳定性,在临床应用和相关科学研究中具有很好的应用前景。
介紹瞭一種利用兩張常規X光照片和標準骨模型對股骨三維模型進行快速重建的方法。從兩箇正交方嚮拍攝X光片,併記錄X光片拍攝的參數信息;利用二維/三維配準算法建立瞭二維X光片與三維標準模型之間的對應關繫。提齣瞭基于FFD算法的單位自由變形方法對標準模型進行重建,最終使得X光片外輪廓與標準模型模擬投影輪廓一緻,從而穫得箇性化的股骨三維模型。針對35箇樣本設計瞭全麵的實驗,最終得到全骨的二維點配對平均時間為20 s,平均重建時間為112 s;三維模型的外形平均誤差為0.52 mm,且精度和速度均保持穩定,具有良好的魯棒性。該快速長骨重建方法減少瞭重建時間,具有較高的重建精度,同時具有良好的穩定性,在臨床應用和相關科學研究中具有很好的應用前景。
개소료일충이용량장상규X광조편화표준골모형대고골삼유모형진행쾌속중건적방법。종량개정교방향박섭X광편,병기록X광편박섭적삼수신식;이용이유/삼유배준산법건립료이유X광편여삼유표준모형지간적대응관계。제출료기우FFD산법적단위자유변형방법대표준모형진행중건,최종사득X광편외륜곽여표준모형모의투영륜곽일치,종이획득개성화적고골삼유모형。침대35개양본설계료전면적실험,최종득도전골적이유점배대평균시간위20 s,평균중건시간위112 s;삼유모형적외형평균오차위0.52 mm,차정도화속도균보지은정,구유량호적로봉성。해쾌속장골중건방법감소료중건시간,구유교고적중건정도,동시구유량호적은정성,재림상응용화상관과학연구중구유흔호적응용전경。
This paper described a rapid method for reconstructing 3D models of femur using a standard shape model and two conventional X-ray images. The X-ray images were taken at two orthogonal directions and documented X-ray source and sensor configurations. A direct correspondence building method was proposed for linking 2D images with 3D projections of a Standard Shape Model ( SSM) . A silhouette-based unit Free-Form Deformation ( FFD) method was evaluated for its suitability as an adaption of the standard model for projection images. The reconstruction method proposed in this study was accomplished by deforming the template bone shape until its silhouette boundary approximated the X-ray image as closely as possible for correspondence of the two silhouettes. Comprehensive experiments were designed and conducted with 35 specimens. The mean time for creating full bone correspondence is 20 s and 92 s for 3D model reconstruction. The mean error of reconstructed model is 0. 52 mm. With a reduced reconstruction time, improved precision, and a good robustness, the proposed method is efficient for routine clinical and research purposes.
