计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
14期
152-155,167
,共5页
Meanshift%块运动%烟雾%时间窗
Meanshift%塊運動%煙霧%時間窗
Meanshift%괴운동%연무%시간창
Meanshift%block movement%smoke%time window
通过烟雾运动分析发现在烟雾内部会呈现出局部小运动特征,基于此提出了一种新颖的烟雾运动方向快速提取算法。算法通过Meanshift核函数直方图构建烟雾运动特征模型,并利用Bhattachyarya系数值估计烟雾块的运动矢量方向。同时,为了抑制噪声和刚性物体的干扰,设计了时间窗对每个数据块的运动进行统计,通过估算出每个烟雾疑似区域主运动所占的比率实现对烟雾内部运动方向的识别。实验结果表明,该算法很好地提取了烟雾的运动方向特征,降低了运动估计的运算复杂度和提高搜索精度,并对干扰有很强的排除能力,为进一步的烟雾的识别算法研究提供了判据。
通過煙霧運動分析髮現在煙霧內部會呈現齣跼部小運動特徵,基于此提齣瞭一種新穎的煙霧運動方嚮快速提取算法。算法通過Meanshift覈函數直方圖構建煙霧運動特徵模型,併利用Bhattachyarya繫數值估計煙霧塊的運動矢量方嚮。同時,為瞭抑製譟聲和剛性物體的榦擾,設計瞭時間窗對每箇數據塊的運動進行統計,通過估算齣每箇煙霧疑似區域主運動所佔的比率實現對煙霧內部運動方嚮的識彆。實驗結果錶明,該算法很好地提取瞭煙霧的運動方嚮特徵,降低瞭運動估計的運算複雜度和提高搜索精度,併對榦擾有很彊的排除能力,為進一步的煙霧的識彆算法研究提供瞭判據。
통과연무운동분석발현재연무내부회정현출국부소운동특정,기우차제출료일충신영적연무운동방향쾌속제취산법。산법통과Meanshift핵함수직방도구건연무운동특정모형,병이용Bhattachyarya계수치고계연무괴적운동시량방향。동시,위료억제조성화강성물체적간우,설계료시간창대매개수거괴적운동진행통계,통과고산출매개연무의사구역주운동소점적비솔실현대연무내부운동방향적식별。실험결과표명,해산법흔호지제취료연무적운동방향특정,강저료운동고계적운산복잡도화제고수색정도,병대간우유흔강적배제능력,위진일보적연무적식별산법연구제공료판거。
Based on the analysis of partial microscopic moving characteristics of the internal smoke, a kind of smoke moving direction extracting algorithm is designed in this paper. The algorithm adopts Meanshift kernel function histogram to set up the model to describe the smoke moving characteristic and uses the Bhattachyarya coefficient to estimate the smoke block direction of the motion vector. In order to reduce the noise and the interference of rigid body, the algorithm counts moving data of each data block by the appropriate time window. This algorithm estimates the each smoke suspected area proportion in main movement and finally discriminates the smoke motion direction. The experimental results show that this algorithm performances well at extracting the smoke movement direction and reduces average searching point and improves searching precision, the features under a highly interference condition caused by thick black smoke and body moving, at the same time, it has a better ability to eliminate interference and provides a criterion for further smoke discrimination algorithm research.