DRL Induced Glare An Analytical Study of the Effects of Peak Luminous Intensity.

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Presentation transcript:

DRL Induced Glare An Analytical Study of the Effects of Peak Luminous Intensity

NHTSA Proposed Rulemaking August 7, 1998 Federal Motor Vehicle Safety Standard 108: Lamps, Reflective Devices and Assoc. Equip. Proposed Rule Change: Reduction in the maximum permitted luminous intensity for vehicle daytime running lights [DRLs]

Rational for Proposed Rulemaking 400+ complaints re: excessive glare from U.S. public on file (N.B. Virtually no complaints in Canada) This action is intended to provide the public with all the conspicuity benefits of DRLs while reducing glare

U.S. DRL Intensity Specification Current Maximum:7000 cd compatible with Canadian specification compatible with high-beam headlamps operated at half voltage 34-inch maximum mounting height (else 3000 cd – rearview mirror glare)

Proposed Maximum:3000 cd (Phase I) 1500 cd (Phase II) demonstrated conspicuity benefits under high ambient daytime illumination (based on search conspicuity paradigms) minimal discomfort glare (especially re: rearview mirrors)

Modeling the Magnitude of Glare Effects Disability Glare Adrian & Bhanji (1991) equation Relative elevation of contrast threshold Discomfort Glare deBoer Subjective Rating Scale Schmidt-Claussen & Bindels (1974) model

Analytic Conditions (4) DRL Intensities 1500, 3000, 5000, 7000 cd (Proposed – Current NHTSA Maximum) (5) Observation Distances 20, 40, 60, 80, 100 m (6) Driver Light Adaptation States 1, 50, 100, 500, 1000, 5000 (Dark-to-Brightest Summer Day)

Driver Luminance Adaptation States Adaptation Ambient Time of DayStateIllumination (cd/m2) (lux) road at night5100 twilight / dawn clear winter day ,000-30,000 brilliant summer day500085,000+ Luminance (cd/m2) = illumination (lux) * reflectance / p assumption: average scene reflectance = 0.15 (asphalt road = 0.10, grass = 0.20)

Adrian & Bhanji (1991) Disability Glare Model

Influence of Veiling Luminance (Reduction of Retinal Contrast/Visibility) Nominal Contrast = L target – L background / L background

Effects of Glare upon Contrast Sensitivity (Due to Veiling Luminance) Threshold elevation = Retinal Contrast without Glare Retinal Contrast with Glare

1% Contrast Elevation Factor Blackwell (1946) showed that small and mid-size objects in the roadway environment can be detected at a contrast of 1% across a broad range of photopic luminance levels. The effect of veiling retinal luminance upon this nominal detection threshold can be estimated as follows:

Glare Illumination: Viewing Distance & DRL Intensity

Disability Glare Drops Rapidly with Increasing Luminance Adaptation Conclusion: DRLs can cause some disability at nighttime but not between dusk and dawn. But…What about discomfort glare?

Discomfort Glare deBoer Subjective Rating Scale 1 Unbearable 2 3 Disturbing 4 5 Just Acceptable 6 7 Satisfactory 8 9 Just Noticable

Schmidt-Claussen & Bindles (1974) Disability Glare Model

deBoer Discomfort Glare DRL=1500 cd; Changing Adaptation Level Adaptation Level Day/Clear Sky Dusk/Dawn

deBoer Discomfort Glare DRL=3000 cd; Changing Adaptation Level

deBoer Discomfort Glare DRL=5000 cd; Changing Adaptation Level

deBoer Discomfort Glare DRL=7000 cd; Changing Adaptation Level

Saturn Special Case Alternator Over voltage => 10,000 cd

DRL Discomfort Borderlines

European Glare Sensitivity?

DRL Intensity > 2000 cd Small Gains in Visibility Large Increases in Discomfort