红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2013年
7期
1923-1927
,共5页
单点噪声%条纹非均匀性%白天观星%红外星图%峰值信噪比%星图预处理
單點譟聲%條紋非均勻性%白天觀星%紅外星圖%峰值信譟比%星圖預處理
단점조성%조문비균균성%백천관성%홍외성도%봉치신조비%성도예처리
single-point noise%stripe non-uniformity noise%daytime star observation%infrared star map%peak signal-to-noise ratio%star map preprocessing
单点噪声和条纹非均匀性噪声是白天观星红外星图中的两种典型噪声,严重影响了星图识别的后续处理。针对两种噪声产生的原因和特点,提出改进的单点噪声去噪算法,即用局部窗口遍历扫描全图检测出单点噪声,然后用全局均值进行补偿;又提出列直方图偏移校正算法去除条纹非均匀性噪声,即依据列偏移校正模型,对每列直方图相对于全局直方图的峰值位置偏移进行校正。实验结果表明:所提出的噪声抑制算法对红外星图去噪效果良好,星点目标峰值信噪比可从7.4提高到12.8,并且算法计算简单,可以在单帧时间内完成,满足星图实时预处理的应用要求。
單點譟聲和條紋非均勻性譟聲是白天觀星紅外星圖中的兩種典型譟聲,嚴重影響瞭星圖識彆的後續處理。針對兩種譟聲產生的原因和特點,提齣改進的單點譟聲去譟算法,即用跼部窗口遍歷掃描全圖檢測齣單點譟聲,然後用全跼均值進行補償;又提齣列直方圖偏移校正算法去除條紋非均勻性譟聲,即依據列偏移校正模型,對每列直方圖相對于全跼直方圖的峰值位置偏移進行校正。實驗結果錶明:所提齣的譟聲抑製算法對紅外星圖去譟效果良好,星點目標峰值信譟比可從7.4提高到12.8,併且算法計算簡單,可以在單幀時間內完成,滿足星圖實時預處理的應用要求。
단점조성화조문비균균성조성시백천관성홍외성도중적량충전형조성,엄중영향료성도식별적후속처리。침대량충조성산생적원인화특점,제출개진적단점조성거조산법,즉용국부창구편력소묘전도검측출단점조성,연후용전국균치진행보상;우제출렬직방도편이교정산법거제조문비균균성조성,즉의거렬편이교정모형,대매렬직방도상대우전국직방도적봉치위치편이진행교정。실험결과표명:소제출적조성억제산법대홍외성도거조효과량호,성점목표봉치신조비가종7.4제고도12.8,병차산법계산간단,가이재단정시간내완성,만족성도실시예처리적응용요구。
Single-point noise (SPN) and stripe non-uniformity (SNU) noise are two typical noises in infrared star map of daytime star observation, which seriously affect subsequent processing of star recognition. Considering the causes and characteristics of the two noises, an improved SPN denoising algorithm was proposed to denoise SPN. The full map was scanned by a local window to detect SPN, and the SPN was instead by global mean value. And a colum histogram offset correction (CHOC) algorithm was proposed to denoise SNU noise. According to the colum offset correction model, the offset of histogram peak position between colum histogram and global histogram was corrected. Experimental results indicate that the algorithms proposed could achieve good denoising effects with infrared star map, and the peak signal-to-noise ratio of star point target could be raised from 7.4 to 12.8, meanwhile, the algorithms could finish in one frame time with low computation complexity, so the algorithms meet the requirements of real-time star map preprocessing application.