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University of Illinois
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Champaign, IL
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$36K
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to fund research pertaining to The Effectiveness of Tunable White Lighting Systems on Improving Seniors Quality of Life Residing in Assisted Living Units.
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2020
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Icahn School of Medicine at Mt Sina
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New York, NY
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$62K
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support research to assess the feasibility and implementation of an advanced solid-state lighting system intervention with fully controlled light spectra, intensity, timing, directionality, and duration/dose of light in a hospital setting mimicking the characteristics of natural light across the visible spectra. Objective of research is to determine if advanced lighting systems can reduce sleep disruption which in turn would improve immune systems and time of recovery for patients.
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2020
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Rensselaer Polytechnic Institute
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Troy, NY
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$46K
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to fund research pertaining to Investigating Retinal Sensitivity to Circadian Stimulus as Measured by Acute Melatonin Suppression in Humans. Objective of this research is to characterize the relative sensitivity of specific retinal regions to circadian-effective light and thereby expand the existing CS model 2 to encompass light's spatial characteristics; doing so will provide the lighting industry with a clearer understanding of the lighting qualities that will be most effective for promoting circadian entrainment.
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2020
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Brown University
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Providence, RI
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$150K
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to fund research pertaining to Nursing Home tunable LED Lighting Evaluation.
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2020
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Rensselaer Polytechnic Institute
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Troy, NY
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$23K
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The grant will fund research pertaining to Investigating Retinal Sensitivity to Circadian Stimulus as Measured by Acute Melatonin Suppression in Humans. The objective of this research is to characterize the relative sensitivity of specific retinal regions to circadian-effective light and thereby expand the existing CS model 2 to encompass light's spatial characteristics; doing so will provide the lighting industry with a clearer understanding of the lighting qualities that will be most effective for promoting circadian entrainment.
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2021
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University of Illinois
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Champaign, IL
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$5K
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The grant will fund research pertaining to The Effectiveness of Tunable White Lighting Systems on Improving Seniors Quality of Life Residing in Assisted Living Units.
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2021
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Icahn School of Medicine at Mt Sina
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New York, NY
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$74K
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The grant will support research to assess the feasibility and implementation of an advanced solid-state lighting system intervention with fully controlled light spectra intensity timing directionality and duration dose of light in a hospital setting mimicking the characteristics of natural light across the visible spectra. The objective of this research is to determine if advanced lighting systems can reduce sleep disruption which in turn would improve immune systems and time of recovery for patients.
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2021
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Icahn School of Medicine at Mt Sina
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New York, NY
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$19K
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The grant will support research to assess the impact of luminance degradation of exit signs using light emitting diode LED technology. The goals of the research are a to develop a method to measure with sufficient accuracy and precision the average luminance of exit signs b to validate the field measurement method through measurements in the field at a limited number of locations and c to determine if there is a relationship between the documented or estimated age and average luminance of the exit signs evaluated in the field.
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2021
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Rensselaer Polytechnic Institute
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Troy, NY
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$50K
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The grant supported the development of a Lighting Answers publication that will provide information to assist decision makers to determine the effectiveness safety and efficiency of UV-disinfection products.
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2021
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Childrens Hospital Medical Center
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Cincinnati, OH
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$100K
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The grant will support research to study the luminous environment in schools to determine whether changes in such environment including changes in light sources and daylight over the years were associated with myopia trends.
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2023
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Icahn School of Medicine at Mt Sina
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New York, NY
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$48K
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The grant supported the examination and quantification of the lighting design process for lighting in commercial spaces so that the lighting entrains the circadian rhythms of occupants while also meeting energy limits and the quantity and quality requirements recommended by the Illuminating Engineering Society.
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2023
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Icahn School of Medicine at Mt Sina
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New York, NY
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$60K
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The grant will support research to assess the feasibility and implementation of an advanced solid-state lighting system intervention with fully controlled light spectra intensity timing directionality and duration dose of light in a hospital setting mimicking the characteristics of natural light across the visible spectra. The objective of this research is to determine if advanced lighting systems can reduce sleep disruption which in turn would improve immune systems and time of recovery for patients.
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2023
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Icahn School of Medicine at Mt Sina
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New York, NY
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$76K
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The grant will support research to assess the impact of luminance degradation of exit signs using light emitting diode led technology. the goals of the research are a to develop a method to measure with sufficient accuracy and precision the average luminance of exit signs b to validate the field measurement method through measurements in the field at a limited number of locations and c to determine if there is a relationship between the documented or estimated age and average luminance of the exit signs evaluated in the field.
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2022
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Icahn School of Medicine at Mt Sina
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New York, NY
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$48K
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The grant will support research to investigate the effects of luminaire intensity distribution on nocturnal melatonin suppression visual performance discomfort glare ratings and electric lighting power density in a simulated commercial office setting.
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2022
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Icahn School of Medicine at Mt Sina
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New York, NY
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$74K
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The grant will support research to assess the feasibility and implementation of an advanced solid-state lighting system intervention with fully controlled light spectra intensity timing directionality and duration dose of light in a hospital setting mimicking the characteristics of natural light across the visible spectra. The objective of this research is to determine if advanced lighting systems can reduce sleep disruption which in turn would improve immune systems and time of recovery for patients.
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2022
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University of Illinois
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Champaign, IL
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$9K
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The grant will fund research pertaining to the effectiveness of tunable white lighting systems on improving seniors quality of life residing in assisted living units
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2022
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