光学学报
光學學報
광학학보
ACTA OPTICA SINICA
2009年
11期
3050-3056
,共7页
肖蔓君%陈思颖%倪国强%温焱
肖蔓君%陳思穎%倪國彊%溫焱
초만군%진사영%예국강%온염
图像处理%真实影像再现%色调再现%视觉适应%高动态范围%Sigmoid函数
圖像處理%真實影像再現%色調再現%視覺適應%高動態範圍%Sigmoid函數
도상처리%진실영상재현%색조재현%시각괄응%고동태범위%Sigmoid함수
image processing%realistic image rendition%tone reproduction%visual adaptation%high dynamic range%Sigmoid function
为解决图像采集与显示设备之间的动态范围差异,色调映射技术试图建立一种由高到低的动态范围映射关系,可用于一般图像的真实影像再现.在不同亮度适应水平下,人眼能产生不同的响应特性及对比度敏感性,从而同时响应不同明暗的光强.由此建立了一种局部视觉适应的再现算法,采用具有参数控制的Sigmoid函数来模拟视觉适应的S形非线性特点,得到不同局部亮度适应水平下的压缩曲线,因此能较好地协调图像整体对比度、亮度调整与局部增强之间的关系,在增强图像较暗区域的同时,极大程度地保持亮区细节.经主观评价与特征统计参数相结合的方法验证,该算法能有效地实现动态范围压缩,保持图像细节而避免伪像,具有一定的色彩恒定性,且复杂度低,具有很好的实用性.
為解決圖像採集與顯示設備之間的動態範圍差異,色調映射技術試圖建立一種由高到低的動態範圍映射關繫,可用于一般圖像的真實影像再現.在不同亮度適應水平下,人眼能產生不同的響應特性及對比度敏感性,從而同時響應不同明暗的光彊.由此建立瞭一種跼部視覺適應的再現算法,採用具有參數控製的Sigmoid函數來模擬視覺適應的S形非線性特點,得到不同跼部亮度適應水平下的壓縮麯線,因此能較好地協調圖像整體對比度、亮度調整與跼部增彊之間的關繫,在增彊圖像較暗區域的同時,極大程度地保持亮區細節.經主觀評價與特徵統計參數相結閤的方法驗證,該算法能有效地實現動態範圍壓縮,保持圖像細節而避免偽像,具有一定的色綵恆定性,且複雜度低,具有很好的實用性.
위해결도상채집여현시설비지간적동태범위차이,색조영사기술시도건립일충유고도저적동태범위영사관계,가용우일반도상적진실영상재현.재불동량도괄응수평하,인안능산생불동적향응특성급대비도민감성,종이동시향응불동명암적광강.유차건립료일충국부시각괄응적재현산법,채용구유삼수공제적Sigmoid함수래모의시각괄응적S형비선성특점,득도불동국부량도괄응수평하적압축곡선,인차능교호지협조도상정체대비도、량도조정여국부증강지간적관계,재증강도상교암구역적동시,겁대정도지보지량구세절.경주관평개여특정통계삼수상결합적방법험증,해산법능유효지실현동태범위압축,보지도상세절이피면위상,구유일정적색채항정성,차복잡도저,구유흔호적실용성.
In order to solve the dynamic range gap between image acquisition and display devices, tone reproduction algorithms are used to generate a visually similar mapping of input luminance to display luminance, which can be imported to realistic image rendition for ordinary images. The task is similar to visual adaptation processes in human visual system. Under different adaptation levels, human eyes have different contrast sensitivity and adaptation mechanisms to cope with high dynamic range scenes, where both too bright and too dark regions contained. So a realistic image rendition method by a local model of visual adaptation is proposed in this paper. The S-shape nonlinear mapping relationship is simulated by parameters controlled Sigmoid function, and its adaptive compression curves are achieved corresponding to various lightness adaptation levels. The method effectively keeps the balance between the wholly tone and luminance and local contrast, and enhances the visibility in dark region and keeps the detail in too bright region at the same time. Subjective assessment with objective featured statistical values is applied in the paper, it's approved that the method can effectively achieve high dynamic range compression, enhance image detail without artifacts, and it's computationally efficient and easy to use.