Vision is protected against blue defocus
暂无分享,去创建一个
S. Burns | E. Peli | S. Marcos | C. Dorronsoro | Maria Vinas | Clara Benedi-Garcia | Clara Benedí-García
[1] Campbell Fw. A method for measuring the depth of field of the human eye. , 1954 .
[2] F. Campbell,et al. A method for measuring the depth of field of the human eye. , 1957, The Journal of physiology.
[3] W D Wright,et al. Color Science, Concepts and Methods. Quantitative Data and Formulas , 1967 .
[4] A. van Meeteren,et al. Calculations on the Optical Modulation Transfer Function of the Human Eye for White Light , 1974 .
[5] A. Bradley,et al. Theory and measurement of ocular chromatic aberration , 1990, Vision Research.
[6] Joan L. Mitchell,et al. JPEG: Still Image Data Compression Standard , 1992 .
[7] Susana Marcos,et al. The depth-of-field of the human eye from objective and subjective measurements , 1999, Vision Research.
[8] Stephen A. Burns,et al. A new approach to the study of ocular chromatic aberrations , 1999, Vision Research.
[9] Stephen A. Burns,et al. Imperfect optics may be the eye's defence against chromatic blur , 2002, Nature.
[10] Frank Schaeffel,et al. Effects of longitudinal chromatic aberration on accommodation and emmetropization , 2002, Vision Research.
[11] David R Williams,et al. Adaptive optics for vision: the eye's adaptation to point spread function. , 2003, Journal of refractive surgery.
[12] Xu Cheng,et al. Estimating visual quality from wavefront aberration measurements. , 2003, Journal of refractive surgery.
[13] D. R. Iskander,et al. Computational Aspects of the Visual Strehl Ratio , 2006, Optometry and vision science : official publication of the American Academy of Optometry.
[14] P. M. Prieto,et al. Effects of interactions among wave aberrations on optical image quality , 2006, Vision Research.
[15] David R Williams,et al. Neural compensation for the best aberration correction. , 2007, Journal of vision.
[16] F. Rucker,et al. The effects of longitudinal chromatic aberration and a shift in the peak of the middle-wavelength sensitive cone fundamental on cone contrast , 2008, Vision Research.
[17] Sowmya Ravikumar,et al. Calculation of retinal image quality for polychromatic light. , 2008, Journal of the Optical Society of America. A, Optics, image science, and vision.
[18] A. Ho,et al. Depth-of-Focus and its Association with the Spherical Aberration Sign. A Ray-Tracing Analysis , 2010 .
[19] Susana Marcos,et al. Visual performance with real-life tasks under adaptive-optics ocular aberration correction. , 2009, Journal of vision.
[20] Susana Marcos,et al. Adapting to blur produced by ocular high-order aberrations. , 2011, Journal of vision.
[21] Michael A. Webster,et al. Vision Is Adapted to the Natural Level of Blur Present in the Retinal Image , 2011, PloS one.
[22] Andrew B Watson,et al. Blur clarified: a review and synthesis of blur discrimination. , 2011, Journal of vision.
[23] Ankit Mathur,et al. Contrast sensitivity benefit of adaptive optics correction of ocular aberrations. , 2011, Journal of vision.
[24] R. Legras,et al. Effect of coma and spherical aberration on depth‐of‐focus measured using adaptive optics and computationally blurred images , 2012, Journal of cataract and refractive surgery.
[25] S. Marcos,et al. In vivo chromatic aberration in eyes implanted with intraocular lenses. , 2013, Investigative ophthalmology & visual science.
[26] F. Kingdom,et al. Perceptual scales for chromatic and luminance blur in noise textures. , 2015, Journal of vision.
[27] M. Webster. Visual Adaptation. , 2015, Annual review of vision science.
[28] Susana Marcos,et al. Longitudinal Chromatic Aberration of the Human Eye in the Visible and near Infrared from Wavefront Sensing, Double-pass and Psychophysics References and Links , 2022 .
[29] S. Marcos,et al. In vivo subjective and objective longitudinal chromatic aberration after bilateral implantation of the same design of hydrophobic and hydrophilic intraocular lenses , 2015, Journal of cataract and refractive surgery.
[30] Emily A. Cooper,et al. The natural statistics of blur , 2016, Journal of vision.
[31] The effect of aberrations on objectively assessed image quality and depth of focus. , 2017, Journal of vision.
[32] Jennifer J. Hunter,et al. Vision science and adaptive optics, the state of the field , 2017, Vision Research.
[33] Edward Anthony LaVilla,et al. Comparison of vision through surface modulated and spatial light modulated multifocal optics. , 2017, Biomedical optics express.
[34] Susana Marcos,et al. Testing vision with angular and radial multifocal designs using Adaptive Optics , 2017, Vision Research.
[35] S. Marcos,et al. In Vivo Measurement of Longitudinal Chromatic Aberration in Patients Implanted With Trifocal Diffractive Intraocular Lenses. , 2017, Journal of refractive surgery.
[36] Gordon D. Love,et al. Creating correct blur and its effect on accommodation , 2018, Journal of vision.