计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
20期
163-166
,共4页
时间域%空间域%投影原理%火灾区域
時間域%空間域%投影原理%火災區域
시간역%공간역%투영원리%화재구역
time domain%space domain%projection principle%fire area
针对火灾场景图像容易受到噪声干扰、光照变化等干扰因素的影响,难以实时有效地提取出火灾运动区域的问题,设计了一种适合于全天候高效工作的火灾火焰运动区域的快速提取算法,该算法根据像素点灰度信息分布和序列帧相关性,从时间域对背景模型和阈值进行自适应更新,并利用投影原理的二维统计原理,在基于运动目标区域空间相关性的基础上,实现了对火焰疑似区域的快速提取。实验结果表明,在1920×1080分辨率下,该算法总共消耗时间为0.232 ms。该算法解决了外界光线对目标区域提取的影响,同时火灾疑似区域检测的时间消耗以及算法复杂度也比区域聚类算法大大降低,较大地提高了算法的执行效率。
針對火災場景圖像容易受到譟聲榦擾、光照變化等榦擾因素的影響,難以實時有效地提取齣火災運動區域的問題,設計瞭一種適閤于全天候高效工作的火災火燄運動區域的快速提取算法,該算法根據像素點灰度信息分佈和序列幀相關性,從時間域對揹景模型和閾值進行自適應更新,併利用投影原理的二維統計原理,在基于運動目標區域空間相關性的基礎上,實現瞭對火燄疑似區域的快速提取。實驗結果錶明,在1920×1080分辨率下,該算法總共消耗時間為0.232 ms。該算法解決瞭外界光線對目標區域提取的影響,同時火災疑似區域檢測的時間消耗以及算法複雜度也比區域聚類算法大大降低,較大地提高瞭算法的執行效率。
침대화재장경도상용역수도조성간우、광조변화등간우인소적영향,난이실시유효지제취출화재운동구역적문제,설계료일충괄합우전천후고효공작적화재화염운동구역적쾌속제취산법,해산법근거상소점회도신식분포화서렬정상관성,종시간역대배경모형화역치진행자괄응경신,병이용투영원리적이유통계원리,재기우운동목표구역공간상관성적기출상,실현료대화염의사구역적쾌속제취。실험결과표명,재1920×1080분변솔하,해산법총공소모시간위0.232 ms。해산법해결료외계광선대목표구역제취적영향,동시화재의사구역검측적시간소모이급산법복잡도야비구역취류산법대대강저,교대지제고료산법적집행효솔。
Aiming at solving the problem of extracting real-time fire movement area caused by the sensitive of fire scene image in variable noises interference and illumination changes, a kind of rapid extraction algorithm suitable for all-weather efficient fire flame movement area is designed in this paper. According to the distribution of pixel gray information and the correlation of sequence frame, the algorithm, using the 2d-statistical principle of projection principle, adaptive updat-ing from the time domain for background model and the threshold value, can realize the extraction of the flame suspected area rapidly based on the movement of the target area on spatial correlation. The experimental results show that the pro-posed algorithm consumption time is 0.232 ms in total at a 1920×1080 resolution. The algorithm solves outside light influ-ence in the extraction in the target area. Compared with the area clustering algorithm, the algorithm proposed in this paper, reduces the detecting time consuming of suspected fire area and algorithm calculation complexity greatly.