计算机工程
計算機工程
계산궤공정
COMPUTER ENGINEERING
2014年
1期
254-257,271
,共5页
气动退化图像%混合域%混合检测%非下采样轮廓波变换%实时性
氣動退化圖像%混閤域%混閤檢測%非下採樣輪廓波變換%實時性
기동퇴화도상%혼합역%혼합검측%비하채양륜곽파변환%실시성
turbulence degraded image%mixed domain%mixed detection%Nonsubsampled Contourlet Transform(NSCT)%real-time
气动退化图像中存在先验信息未知以及噪声成分复杂不易进行滤波处理的问题,为此,提出一种气动退化图像混合域去噪算法。设计针对高斯噪声、泊松噪声、固定值脉冲噪声和随机值脉冲噪声的混合检测方法,使用改进的滤波方法在空域去除固定值脉冲噪声和随机值脉冲噪声,进行非下采样轮廓波变换多层分解,在变换域使用阈值方法去除高斯噪声和泊松噪声。进行噪声循环检测,设定迭代停止条件控制算法循环从而实现算法自适应。仿真实验结果表明,该算法的噪声检测性能和滤波性能较好,图像细节信息得到正确恢复。同时,算法复杂度较低,实时性较好,可满足气动退化图像去噪处理的需要。
氣動退化圖像中存在先驗信息未知以及譟聲成分複雜不易進行濾波處理的問題,為此,提齣一種氣動退化圖像混閤域去譟算法。設計針對高斯譟聲、泊鬆譟聲、固定值脈遲譟聲和隨機值脈遲譟聲的混閤檢測方法,使用改進的濾波方法在空域去除固定值脈遲譟聲和隨機值脈遲譟聲,進行非下採樣輪廓波變換多層分解,在變換域使用閾值方法去除高斯譟聲和泊鬆譟聲。進行譟聲循環檢測,設定迭代停止條件控製算法循環從而實現算法自適應。倣真實驗結果錶明,該算法的譟聲檢測性能和濾波性能較好,圖像細節信息得到正確恢複。同時,算法複雜度較低,實時性較好,可滿足氣動退化圖像去譟處理的需要。
기동퇴화도상중존재선험신식미지이급조성성분복잡불역진행려파처리적문제,위차,제출일충기동퇴화도상혼합역거조산법。설계침대고사조성、박송조성、고정치맥충조성화수궤치맥충조성적혼합검측방법,사용개진적려파방법재공역거제고정치맥충조성화수궤치맥충조성,진행비하채양륜곽파변환다층분해,재변환역사용역치방법거제고사조성화박송조성。진행조성순배검측,설정질대정지조건공제산법순배종이실현산법자괄응。방진실험결과표명,해산법적조성검측성능화려파성능교호,도상세절신식득도정학회복。동시,산법복잡도교저,실시성교호,가만족기동퇴화도상거조처리적수요。
To solve the problem of difficulty in denoising owing to unknown transcendent message and complex noise components, a mixed domain denoising algorithm of turbulence degraded image is put forward. A mixed noise detection algorithm aiming at every noise components is designed. Improved denoising methods are used to wipe off settled-valued and random-valued impulse noise in spatial domain. Threshold disposals based on disassembly of Nonsubsampled Contourlet Transform(NSCT) are done to wipe off Gaussian noise in transform domain, and a cost function is designed to implement adaptive disaggrega-tire layers. Noise cycle-detection is done, and an iterative washed-up condition is set to achieve adaptive algorithm. Simulation experiments show that noise detection performance and denoising performance is better. and detail information of degraded image is resumed. Meanwhile, the complexity of the algorithm is low and the real-time is better. All above make sure this algorithm satisfy the need of denoising of aero-optics degraded image.