红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
9期
3122-3127
,共6页
祁敏%曹剑中%周祚峰%高博%郭惠楠%杨磊
祁敏%曹劍中%週祚峰%高博%郭惠楠%楊磊
기민%조검중%주조봉%고박%곽혜남%양뢰
立体匹配%图像分割%全局优化%置信度传播
立體匹配%圖像分割%全跼優化%置信度傳播
입체필배%도상분할%전국우화%치신도전파
stereo matching%image segmentation%global optimization%belief propagation
传统的基于全局优化的立体匹配算法计算复杂度较高,在遮挡和视差不连续区域具有较差的匹配精度。提出了基于Tao立体匹配框架的全局优化算法。首先采用高效的局部算法获取初始匹配视差;然后对得到的视差值进行可信度检测,利用可信像素点和视差平面假设使用具有鲁棒性的低复杂度算法修正不可信任像素视差值;最后改进置信度传播算法,使其能够自适应地停止收敛节点的消息传播,并对经修正的初始匹配进行优化,提高弱纹理区域匹配准确度。实验结果表明,文中算法有效地降低整体误匹配率,改善了视差不连续及遮挡区域的匹配精度;同时,降低了算法整体复杂度,兼顾了速度,具有一定的实用性。
傳統的基于全跼優化的立體匹配算法計算複雜度較高,在遮擋和視差不連續區域具有較差的匹配精度。提齣瞭基于Tao立體匹配框架的全跼優化算法。首先採用高效的跼部算法穫取初始匹配視差;然後對得到的視差值進行可信度檢測,利用可信像素點和視差平麵假設使用具有魯棒性的低複雜度算法脩正不可信任像素視差值;最後改進置信度傳播算法,使其能夠自適應地停止收斂節點的消息傳播,併對經脩正的初始匹配進行優化,提高弱紋理區域匹配準確度。實驗結果錶明,文中算法有效地降低整體誤匹配率,改善瞭視差不連續及遮擋區域的匹配精度;同時,降低瞭算法整體複雜度,兼顧瞭速度,具有一定的實用性。
전통적기우전국우화적입체필배산법계산복잡도교고,재차당화시차불련속구역구유교차적필배정도。제출료기우Tao입체필배광가적전국우화산법。수선채용고효적국부산법획취초시필배시차;연후대득도적시차치진행가신도검측,이용가신상소점화시차평면가설사용구유로봉성적저복잡도산법수정불가신임상소시차치;최후개진치신도전파산법,사기능구자괄응지정지수렴절점적소식전파,병대경수정적초시필배진행우화,제고약문리구역필배준학도。실험결과표명,문중산법유효지강저정체오필배솔,개선료시차불련속급차당구역적필배정도;동시,강저료산법정체복잡도,겸고료속도,구유일정적실용성。
Traditional stereo matching based on global optimization is of computational complex which is poor to get accuracy matching result for the pixels in occlusion and depth discontinuity region. An efficient method of stereo matching was proposed, which was based on Tao stereo matching framework. Firstly, the initial matching disparity was obtained by the enhanced local method. Then occlusion and mismatched pixels were applied from reliable pixels using the robust method and named unreliable pixels, then reliable pixels and presupposition of disparity plane were used to refine the unreliable disparity. Finally, in order to improve the disparity accuracy in low texture region, an enhanced belief propagation method was used to optimize the refined initial disparity, which had adaptive convergence threshold. Experimental results demonstrate that our method can reduce the error matching rate effectively, improve the matching accuracy in occlusion and depth discontinuity region, reduce the computational complexity as well as improve matching speed.