Carkeet Andrew, Lister Lucas, Goh Yee Teng
School of Optometry and Vision Science, Queensland University of Technology, Brisbane, Australia.
Ophthalmic Physiol Opt. 2021 Nov;41(6):1176-1182. doi: 10.1111/opo.12882. Epub 2021 Sep 17.
To investigate the effects of computer monitor pixel density on Landolt C visual acuity measurements and to provide appropriate pixel density recommendations for Landolt C vision chart design.
Participants were 10 healthy observers aged 18-31 years (mean 21.7 ± 3.6). Logarithmic progression charts were used, consisting of eight rows of five Landolt C optotypes ranging from -0.40 logMAR to 0.30 logMAR. Monitor pixel angular subtense varied from 0.10 min arc to 1.97 min arc, achieved by changing the chart test distance. Testing took place with two filtering conditions: unfiltered optotypes, (pixels rendered either black or white) and anti-aliased optotypes with pixel luminance averaged for a pixel square and rendered as grey levels.
Each participant's acuity versus pixel size data sets were fitted by a nonlinear relationship with acuity equal to an asymptotic threshold visual acuity (VA ) for small pixel sizes below a critical pixel size (P ). For pixel sizes larger than P there was a linear relationship between acuity thresholds and pixel size. For anti-aliased Landolt Cs, mean P was 1.23 min, and for unfiltered Landolt Cs average P was 0.65 min. For anti-aliased LandoltCs, P was 2.01xVA , and for unfiltered Landolt Cs P was 1.05xVA .
These results are quantitatively very similar to previous research on pixellation and Sloan optotype acuity. We have demonstrated that spatially filtering Landolt C optotypes acts as anti-aliasing, to make them more robust to the degradation effects of pixellation. Previous recommendations for maximum pixel size on Sloan letter vision charts can be applied safely to Landolt C charts.
研究计算机显示器像素密度对Landolt C视力测量的影响,并为Landolt C视力表设计提供合适的像素密度建议。
参与者为10名年龄在18 - 31岁(平均21.7±3.6岁)的健康观察者。使用对数递增视力表,由八行五个Landolt C视标组成,范围从-0.40 logMAR到0.30 logMAR。通过改变视力表测试距离,使显示器像素视角从0.10分视角变化到1.97分视角。测试在两种滤波条件下进行:未滤波的视标(像素呈现为黑色或白色)和抗锯齿视标,像素亮度在一个像素方块内平均并呈现为灰度级。
每位参与者的视力与像素大小数据集通过非线性关系拟合,对于低于临界像素大小(P)的小像素大小,视力等于渐近阈值视力(VA)。对于大于P的像素大小,视力阈值与像素大小之间存在线性关系。对于抗锯齿Landolt C视标,平均P为1.23分,对于未滤波的Landolt C视标,平均P为0.65分。对于抗锯齿Landolt C视标,P为2.01×VA,对于未滤波的Landolt C视标,P为1.05×VA。
这些结果在数量上与先前关于像素化和斯隆视标视力的研究非常相似。我们已经证明,对Landolt C视标进行空间滤波起到了抗锯齿作用,使其对像素化的退化影响更具鲁棒性。先前关于斯隆字母视力表最大像素大小的建议可以安全地应用于Landolt C视力表。
