Laser & Optoelectronics Progress, Volume. 60, Issue 9, 0933002(2023)
Detection and Classification of Color Deficiency Using Hue Tests and Anomaloscope
Figures & Tables(9)
Fig. 3. Comparison of TES between dichromats, anomalous trichromats, and normal trichromats
Fig. 4. Comparison of PES along red-green axis and blue-yellow axis between dichromats, anomalous trichromats, and normal trichromats
Fig. 5. Results of all dichromats in FM 100-Hue test represented in the polar diagrams. (a)-(b) Test results of protanopes; (c)-(j) test results of deuteranopes; (k)-(l) test results of normal trichromats
Fig. 6. Results of all anomalous trichromats in FM 100-Hue test represented in the polar diagrams. (a)-(f) Test results of protanomalous trichromats; (g)-(l) test results of deuteranomalous trichromats
Fig. 7. Comparison of the matching range in anomaloscope and TES in FM 100-Hue test for 12 anomalous trichromats
Table 1. Classification of type of deficiency by Neitz anomaloscope
View tableTable 1. Classification of type of deficiency by Neitz anomaloscope
Type of deficiency Neitz anomaloscope Protanopia Monochromatic scale decreases from 30 to 4 with the increase of mixture scale from 0 to 73 Protanomaly Monochromatic scale decreases with the increase of mixture scale from 40 to 73 Deuteranopia Monochromatic scale remains 15 with the increase of mixture scale from 0 to 73 Deuteranomaly Monochromatic scale remains 15 with the increase of mixture scale from 0 to 40
Table 2. Classification results of D-15, FM 100-Hue and anomaloscope for all subjects
View tableTable 2. Classification results of D-15, FM 100-Hue and anomaloscope for all subjects
Subject No. Gender D-15 FM 100-Hue(TES) Anomaloscope(Matching range) Type of deficiency 1 M deutan 152 all deuteranopia 2 M deutan 280 all deuteranopia 3 M pass 64 all deuteranopia 4 M deutan 152 all deuteranopia 5 M deutan 144 all deuteranopia 6 M deutan 184 all deuteranopia 7 M deutan 100 all deuteranopia 8 F deutan 80 all deuteranopia 9 M protan 160 all protanopia 10 M protan 48 all protanopia 11 F pass 76 18-26 deuteranomaly 12 F pass 36 15-30 deuteranomaly 13 M pass 36 0-25 deuteranomaly 14 F pass 24 12-25 deuteranomaly 15 M pass 128 0-40 deuteranomaly 16 M pass 36 10-30 deuteranomaly 17 M pass 88 0-65 extreme protanomaly 18 M pass 72 45-70 protanomaly 19 M pass 88 55-70 protanomaly 20 M pass 48 60-70 protanomaly 21 M pass 88 65-67 protanomaly 22 M pass 64 40-70 protanomaly
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Qiang Gao, Ruiqing Ma, Yan Qiang. Detection and Classification of Color Deficiency Using Hue Tests and Anomaloscope[J]. Laser & Optoelectronics Progress, 2023, 60(9): 0933002
Paper Information
Category: Vision, Color, and Visual Optics
Received: Mar. 8, 2022
Accepted: Mar. 30, 2022
Published Online: May. 9, 2023
The Author Email: Ma Ruiqing (mrq153101@163.com)
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