基于物体表面色的人眼阈值水平微小色差评价

基于物体表面色样本的视觉评价,测试常用色差公式在人眼阈值水平的微小色差预测性能.由一组21名观察者采用感知法对100个颜色样本对进行视觉实验,获得视觉色差的评价数据,通过观察者精度分析并与BFD和Witt的视觉数据进行对比,验证了本实验数据的有效性.利用实验数据对CIELAB、CMC、BFD、CIE94、LCD和CIEDE2000等六个常用色差公式在人眼阈值水平的微小色差预测性能进行了详细的测试和比较,结果表明国际照明委员会(CIE)推荐的CIEDE2000表现最好,而CIELAB性能最差.     

用特殊眼模型研究人眼像差与色差对视觉的影响

在光轴和视轴不重合的眼球模型中,设计了一种仅消轴向色差(LCA)而保持横向色差(TCA)不变的元件,建立了仅有TCA的眼模型。进而将实测的人眼高阶像差数据沿视轴方向引入眼模型,用以研究色差和高阶像差的相互作用。建立了三款个性化眼球模型,研究了明视觉状态下高阶像差、色差(LCA+TCA)、LCA和TCA对视觉的影响以及它们之间的相互作用。结果表明:对于多数人眼,色差对视觉的影响远大于高阶像差的影响,并且色差的存在进一步抑制了高阶像差的影响。在色差对视觉的影响中,LCA是具有统治地位的因素;对于多数人眼,TCA的影响可以忽略。     

矫正近视和老视的非球面衍射型隐形眼镜

近视人眼随年龄的增长会出现老视,为了实现一副眼镜矫正近视并发老视人眼的远、近视力,设计了一种非球面衍射型隐形眼镜(CL),通过非球面CL矫正近视,并通过衍射环的设计矫正老视。在一个有200度近视和2D调节力的近视并发老视眼模型上优化CL,选取的5个设计物距介于250mm到无限远。研究了0°视场和±4°视场时设计物距下佩戴CL的近视并发老视眼模型的光学性能。结果表明,佩戴该CL后,在明视觉条件下(2.8mm瞳孔直径),注视不同距离物体时,人眼视力最低可达1.3,最高可达1.5;在间视觉条件下(4.5mm瞳孔直径),除注视无穷远处物体时视力略差(0.9),注视其他距离物体时,视力均在1.0以上。此外,佩戴CL后,眼模型的大视场彗差、像散和畸变均在合理范围内。可见,所设计CL能够在0~4D物距范围内提供良好的光学质量和视觉质量,且中间距离也实现了高质量成像,成像性能几乎不受瞳孔变化的影响。     

主客观结合人眼波前像差测量系统的设计与实验

设计了主客观方法相结合的人眼波前像差测量系统。该系统的控制部分以工控机为中心,实现了对离焦补偿装置、LCD视标显示装置和可变形镜驱动器的控制。使用Hartmann-Shack传感器对人眼出瞳的波前像差进行测量,光路中加入了能够显示各种视标和测试图案的LCD,从而考虑到了主观调节对人眼像差的影响,能够对人眼的视觉质量进行全面衡量,实现了客观测量和主观测量在光路中的结合。使用该系统分别测量得到了模拟眼和活体人眼的波前像差,并对主客观测量结果进行了信息融合,能够为个性化的人眼屈光矫正提供有用的依据。     

基于色差的均方误差与峰值信噪比评价彩色图像质量研究

在图像质量评价模型中加入人眼视觉系统特性能够提高其评价性能．彩色图像色差模型S—CIELAB是在考虑到了人眼视觉系统的空间模糊特性基础上得到两幅图像的色差，该文在S—CIELAB色差模型的基础上，提出了色差均方误差（CD-MSE）和色差峰值信噪比（CD—PSNR）彩色图像质量客观评价参量．对JEPG2000、加白噪音和图像传输中产生位错的三类失真共180幅彩色图像进行了CD-PSNR参量计算，并与国际上已经给出的主观评价结果进行了比较．实验结果表明其客观评价结果与平均主观评价分数具有较好的一致性．     

基于波前像差的个性化人工晶体设计

在个性化人眼光学结构的基础上,运用ZEMAX软件的优化功能,设计了符合实际人眼光学特性的个性化人工晶体。该人工晶体不仅可以矫正离焦和像散,还引入了非球面可以矫正人眼的球差。文中将个性化人工晶体优化后得到的屈光度与经验公式计算得到的屈光度作了比较,在经验公式0.25D精确度的基础上有了提高,并直观地描述了个性化人工晶体植入前后人眼调制度和分辨率的变化情况。对样本人眼矫正后人眼分辨率最大变化由28 L/mm提高到118 L/mm,调制度由0.02提高至0.51。分析结果表明,个性化植入人工晶体的方法可以提高人眼矫正的精确度,不同人眼的波前特性不同,矫正效果也有相应的差异。     

人眼波前像差主客观测量的信息融合方法

人眼是一个不完善的屈光系统,存在着各种像差,而且视觉不仅与人眼的屈光系统有关,还与主观的判断和神经系统的处理有密切关系.只有主观测量与客观测量相结合,才能得到最佳的视力矫正数据.本文提出了通过信息融合技术把像差的主观测量和客观测量的结果进行融合处理,给出矫正时所需的唯一数据,并通过实验得到了信息融合后的人眼波前像差.     

基于人眼视觉系统的假彩色融合图像质量的评价方法

随着图像融合技术的发展,各种融合算法层出不穷,而很多情况下最终的融合图像是由人眼观察的,因此基于人眼视觉系统的图像融合质量评价显得尤为重要.为了能够模拟人眼对于融合图像的感知,得到融合后图像质量的客观评价,本文提出了一种基于色差理论的假彩色融合图像质量的评价方法.首先将源图像和融合图像转化到CIE L*a*b*均匀色空间,在频域对图像进行对比度敏感函数滤波,通过计算滤波后融合图像的色差判断图像的细节信息,在一定程度上色差越大信息越丰富;通过计算融合图像与源图像的色差判断融合图像与源图像的相关性,相关性越高,融合算法越好.通过融合图像的色差大小以及与源图像的相关性两个参量,得出融合算法的优劣.实验表明,与其他评价方法相比,本文提出的评价方法与人眼观察的结果较为一致.     

角膜手术后眼模型的构建和人工晶状体设计

根据角膜屈光手术前的角膜地形图、眼内各组分的轴向间距和波前像差,运用ZEMAX光学设计软件,构建了术前的个性化眼模型.结合角膜屈光手术后实际测量的波前像差,建立了术后个性化眼模型.运用该模型,为角膜屈光手术眼设计了双球面人工晶状体.研究表明:对于角膜屈光手术后人眼,用术后个性化眼模型计算的人工晶状体度数可靠.该模型还能够为术后眼设计矫正像散和其他高阶像差的人工晶状体,同时可以用来评估角膜手术联合白内障术后人眼的光学性能,以及手术中各类偏差对视觉质量的影响.     

印刷样品恰可察觉小色差辨色阈值的研究Ⅱ:色差公式分析与评价

利用由对印刷样品恰可察觉小色差的辨色阈值实验得到的CIELAB颜色空间中的视觉数据,对四个典型色差公式CIELAB、CMC、CIE94和CIEDE2000在辨色阈值水平上的色差预测性能进行测试和评价.不同色差公式计算的印刷样品小同颜色区域的恰可辨别小色差阈值不同,色差公式CIELAB除在灰色区域色差阈值低于其余典型色差公式外,在其他颜色区域均高于典型色差公式.对于原始形式(kL=kC=kH=1)的色差公式,CIEDE2000与人眼的视觉匹配程度最好;采用对kC:kH进行优化后的CIEDE2000色差公式,色差预测性能在颜色空间均有不同程度的改善,其中对灰色和高彩橙颜色区域的性能改善最大.     

Adaptive correction of human-eye aberrations in a subjective feedback loop

An adaptive optical system with a subjective feedback loop is used to improve the visual acuity and to determine the aberrations of the human eye. Corrections of as many as 12 low-order aberration modes were made, based on the perceived sharpness of the test object observed through the adaptive optical system. The acuity of vision was improved by adjustment of the weights of the orthogonal modes produced by a deformable mirror. Objective measurements of the correcting aspherical figures, obtained in independent subjective correction cycles for one person, demonstrated good repeatability. Participants in the study with strong ocular aberrations reported moderate to significant improvement of their visual acuity, estimated with the U.S. Air Force 1951 acuity chart.     

Closed-loop adaptive optics in the human eye

We have developed a prototype apparatus for real-time closed-loop measurement and correction of aberrations in the human eye. The apparatus uses infrared light to measure the wave-front aberration at 25 Hz with a Hartmann-Shack sensor. Defocus is removed by a motorized optometer, and higher-order aberrations are corrected by a membrane deformable mirror. The device was first tested with an artificial eye. Correction of static aberrations takes approximately five iterations, making the system capable of following aberration changes at 5 Hz. This capability allows one to track most of the aberration dynamics in the eye. Results in living eyes showed effective closed-loop correction of aberrations, with a residual uncorrected wave front of 0.1microm for a 4.3-mm pupil diameter. Retinal images of a point source in different subjects with and without adaptive correction of aberrations were estimated in real time. The results demonstrate real-time closed-loop correction of aberration in the living eye. An application of this device is as electro-optic "spectacles" to improve vision.     

人眼高阶像差校正和视觉分析系统

人眼除具有可用眼镜或接触镜校正的低阶像差(离焦、像散)之外,还普遍存在高阶像差。高阶像差的存在影响着屈光系统的成像质量。为研究高阶像差对视觉功能的影响,利用自适应光学技术,建立了具有校正高阶像差和产生高阶像差双重功能的人眼高阶像差校正和视觉分析系统。介绍了系统实现高阶像差校正和视觉分析的工作原理;阐述了波前校正器、哈特曼波前探测系统、控制系统等关键单元技术;列出了系统对泽尼克模式像差的校正效果,绝大多数像差从0.5λ降低到0.2λ以下;阐明系统功能的实现过程,并给出仿真实验的结果。该系统为进一步研究高阶像差对视功能的影响提供了有效的手段。     

Studies of transverse chromatic aberration based on individual eye model

Two kinds of individual eye models, with and without involving the angle between visual axis and optical axis, are constructed according to the measurements of the corneal surfaces, the optical axis lengths and wavefront aberrations. The constructed eye models are then used to investigate the properties of the transverse chromatic aberration (TCA) and its influence on visual performance. The statistical distributions of the horizontal TCA, vertical TCA and the absolute magnitude of the TCA over the spectrum from 470 to 650 nm are provided, respectively. The variations of TCA with wavelength as referring to the central wavelength of 555 nm for five subjects are also provided. Then we evaluate the impact of TCA on image performance in comparison with longitudinal chromatic aberration (LCA). It is shown that LCA is more detrimental than foveal TCA in image quality. It is found that, while LCA was corrected well, the foveal TCA is simultaneously corrected. Finally, we investigate the correction of peripheral TCA with an achromatizing element. The correction of peripheral TCA of human eye strongly depends on the location of the achromatizing element, and with the element in front of the eye, the peripheral TCA cannot be corrected.     

Vision improvement by correcting higher-order aberrations with customized soft contact lenses in keratoconic eyes

Higher-order aberration correction in abnormal eyes can result in significant vision improvement, especially in eyes with abnormal corneas. Customized optics such as phase plates and customized contact lenses are one of the most practical, nonsurgical ways to correct these ocular higher-order aberrations. We demonstrate the feasibility of correcting higher-order aberrations and improving visual performance with customized soft contact lenses in keratoconic eyes while compensating for the static decentration and rotation of the lens. A reduction of higher-order aberrations by a factor of 3 on average was obtained in these eyes. The higher-order aberration correction resulted in an average improvement of 2.1 lines in visual acuity over the conventional correction of defocus and astigmatism alone.     

超视力人眼模型的研究

超视力人眼模型对充分发掘人眼视力达到“鹰视”具有重要意义。用Zernike多项式描述角膜前表面，用渐变折射率描述晶状体的折射率分布，同时考虑人眼视轴和光轴的夹角对成像的影响，利用光学设计软件Zemax建立了人眼超视力模型。将Zernike条纹矢高面应用到人眼模型中，能有效改变视轴方向(即5°视场)的成像质量，提高点扩散函数（PSF）值。采用晶状体渐变折射率符合人眼的实际解剖结构，可有效减小人眼像差。通过分析人眼极限分辨能力和人眼模型波像差，得出当空间频率为60周期/度时，该模型对目标高频细节感知的调制度可达到0.55。     

Information fusion method for ocular aberrations measurement based on subjective visual compensation

The human eye is an imperfect refractive system which not only has defocus and astigmatism, but also has spherical aberration, coma and anomalistic high-order aberrations, all of which have certain influence on the imaging quality of retina. What's worse, aberration is further enlarged as a result of mydriasis in dark field and weak light, thus making the vision performance of human eyes far below diffraction limitation. Further research revealed that human eye visual imaging is not only connected with refractive system, but also is closely related to the subjective judgment of human brain and the process of neural system. In order to overcome the deficiencies, wave-front aberration measurement method and system that has subjective visual compensation is proposed and conducted in combination with objective measurement, which ensures more accurate and realistic measuring results. The experimental data revealed that wave-front aberration obtained from subjective visual compensation measuring method is smaller than objective measurement, which is the result of subjects’ adaptive correction when watching sighting targets. In addition, when subjects are watching different sighting targets, the fluctuation value of wavefront aberration is small. Therefore, it is concluded that subjective visual compensation measuring method contributes to aberration measuring improvement and obtains results match with the realistic state by taking into consideration the actual condition of human eyes when watching targets. Hopefully, these discoveries will be of positive and beneficial value to the determination of human eye aberration treatment.     

Influence of laser polarization on ocular refractive parameters after refractive surgery

We provide an adjustment factor for ablation algorithms used in photorefractive laser surgery that takes into account how laser polarization in reflection losses affects the cornea. We evaluate the influence of this factor on corneal radius and asphericity after surgery, showing that it is significant for visual performance (effective visual acuity is reduced) and for the correction of eye aberrations. Our data indicate that this adjustment factor should be included in the ablation algorithms (depending on the polarization state of each laser device) that are proposed for customized corneal ablation, which need great accuracy for minimization of eye aberrations.     

基于个体眼光学结构的角膜与晶状体的像差补偿

研究角膜对晶状体波前像差的影响对现行的个性化视觉矫正手术有-定的参考价值.运用光学设计软件Zemax,根据个体人眼的角膜地形图、眼内各部分轴向间距和全眼波前像差数据,为22只人眼构建了个体眼光学结构.基于个体眼光学结构和衍射光学理论计算了眼内、外不同位置处的波前,获得了角膜对晶状体波前像差的影响.结果表明,角膜和品状体像差存在补偿和叠加两种关系.大多数眼睛,角膜对晶状体像差有一定补偿作用.总体像散的均方根(RMS)值比品状体像散的RMS值减小0.08～1.48μm,相当于10.1%～77.5%.总体高阶像差的RMS值比晶状体高阶像差的RMS值减小了0.06～0.85 μm,相当于3.8%～79.4%,平均减小了50.7%.其中,球差和彗差的Zernike系数绝对值总体比晶状体分别减小了0.02～0.60μm和0.01～0.39μm,相当于4.3%～98.4%和2.5%～91.4%.     

采用色差先验约束的像差校正技术

本文通过分析自然图像的边缘3个通道之间的关联性,提出"同一物体的边缘在3个颜色通道应处于相同位置"的色差先验约束,该约束在数学上近似为各通道的相对导数相等,基于此色差先验约束,建立了一种新的像差校正模型即图像解卷积模型,并给出了基于交替方向乘子法的模型求解算法。实验结果表明:本文的像差校正技术可以提升图像的峰值信噪比10 dB以上,明显优于目前主流的BM3D和YUV算法,并且视觉提升效果明显,基本满足普通光学系统对像差的校正要求。