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Preciado, O.; Manzano, E. |
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Title |
Spectral characteristics of road surfaces and eye transmittance: Effects on energy efficiency of road lighting at mesopic levels |
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Journal Article |
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Year |
2017 |
Publication |
Lighting Research & Technology |
Abbreviated Journal |
Lighting Research & Technology |
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147715351771822 |
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Keywords |
Vision; Lighting |
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Abstract |
In 2010, the CIE published a recommended system for mesopic photometry based on visual performance. According to this system, scenes illuminated at mesopic levels with light sources of high S/P ratio, will produce better visual performance than those illuminated with light sources of a lower S/P ratio at equal photopic luminance. However, there could be other factors affected by SPD that, when quantified, could lead to a contradictory final effect. The scope of this paper was to evaluate how road lighting is affected by the spectral road surface reflectance and by the human eye transmittance as people get older. Our results suggest that the benefits of considering the mesopic vision effect for light sources with high S/P ratios are totally counteracted by the other two effects at mesopic luminances between 0.75 cd/m2 and 1.73 cd/m2 for people between 20 and 60 years of age, depending on the light source and the age of observers. |
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1477-1535 |
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GFZ @ kyba @ |
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1862 |
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Do, Q.-T.; Shapiro, J.N.; Elvidge, C.D.; Abdel-Jelil, M.; Ahn, D.P.; Baugh, K.; Hansen-Lewis, J.; Zhizhin, M.; Bazilian, M.D. |
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Title |
Terrorism, geopolitics, and oil security: Using remote sensing to estimate oil production of the Islamic State |
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Journal Article |
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Year |
2018 |
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Energy Research & Social Science |
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Energy Research & Social Science |
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44 |
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411-418 |
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Keywords |
Remote Sensing; Economics |
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As the world’s most traded commodity, oil production is typically well monitored and analyzed. It also has established links to geopolitics, international relations, and security. Despite this attention, the illicit production, refining, and trade of oil and derivative products occur all over the world and provide significant revenues outside of the oversight and regulation of governments. A prominent manifestation of this phenomenon is how terrorist and insurgent organizations—including the Islamic State group, also known as ISIL/ISIS or Daesh—use oil as a revenue source. Understanding the spatial and temporal variation in production can help determine the scale of operations, technical capacity, and revenue streams. This information, in turn, can inform both security and reconstruction strategies. To this end, we use satellite multi-spectral imaging and ground-truth pre-war output data to effectively construct a real-time census of oil production in areas controlled by the ISIL terrorist group. More broadly, remotely measuring the activity of extractive industries in conflict-affected areas without reliable administrative data can support a broad range of public policy and decisions and military operations. |
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2214-6296 |
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GFZ @ kyba @ |
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1864 |
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Grenis, K.; Murphy, S.M. |
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Direct and indirect effects of light pollution on the performance of an herbivorous insect |
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Journal Article |
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Year |
2018 |
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Insect Science |
Abbreviated Journal |
Insect Sci |
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26 |
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4 |
Pages |
770-776 |
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Keywords |
Animals; Plants |
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Light pollution is a global disturbance with resounding impacts on a wide variety of organisms, but our understanding of these impacts is restricted to relatively few higher vertebrate species. We tested the direct effects of light pollution on herbivore performance as well as indirect effects mediated by host plant quality. We found that artificial light from streetlights alters plant toughness. Additionally, we found evidence of both direct and indirect effects of light pollution on the performance of an herbivorous insect, which indicates that streetlights can have cascading impacts on multiple trophic levels. Our novel findings suggest that light pollution can alter plant-insect interactions and thus may have important community-wide consequences. |
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Department of Biological Sciences, University of Denver, Denver, Colorado, USA |
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English |
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1672-9609 |
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PMID:29425403 |
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GFZ @ kyba @ |
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1865 |
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Author |
Petržala, J. |
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Title |
Feasibility of inverse problem solution for determination of city emission function from night sky radiance measurements |
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Journal Article |
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Year |
2018 |
Publication |
Journal of Quantitative Spectroscopy and Radiative Transfer |
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Journal of Quantitative Spectroscopy and Radiative Transfer |
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213 |
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86-94 |
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Skyglow |
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The knowledge of the emission function of a city is crucial for simulation of sky glow in its vicinity. The indirect methods to achieve this function from radiances measured over a part of the sky have been recently developed. In principle, such methods represent an ill-posed inverse problem. This paper deals with the theoretical feasibility study of various approaches to solving of given inverse problem. Particularly, it means testing of fitness of various stabilizing functionals within the Tikhonov’s regularization. Further, the L-curve and generalized cross validation methods were investigated as indicators of an optimal regularization parameter. At first, we created the theoretical model for calculation of a sky spectral radiance in the form of a functional of an emission spectral radiance. Consequently, all the mentioned approaches were examined in numerical experiments with synthetical data generated for the fictitious city and loaded by random errors. The results demonstrate that the second order Tikhonov’s regularization method together with regularization parameter choice by the L-curve maximum curvature criterion provide solutions which are in good agreement with the supposed model emission functions. |
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0022-4073 |
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GFZ @ kyba @ |
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1868 |
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Duriscoe, D.M.; Anderson, S.J.; Luginbuhl, C.B.; Baugh, K.E. |
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Title |
A simplified model of all-sky artificial sky glow derived from VIIRS Day/Night band data |
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Journal Article |
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Year |
2018 |
Publication |
Journal of Quantitative Spectroscopy and Radiative Transfer |
Abbreviated Journal |
Journal of Quantitative Spectroscopy and Radiative Transfer |
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Volume |
214 |
Issue |
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Pages |
133-145 |
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Keywords |
Skyglow; Remote Sensing |
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We present a simplified method using geographic analysis tools to predict the average artificial luminance over the hemisphere of the night sky, expressed as a ratio to the natural condition. The VIIRS Day/Night Band upward radiance data from the Suomi NPP orbiting satellite was used for input to the model. The method is based upon a relation between sky glow brightness and the distance from the observer to the source of upward radiance. This relationship was developed using a Garstang radiative transfer model with Day/Night Band data as input, then refined and calibrated with ground-based all-sky V-band photometric data taken under cloudless and low atmospheric aerosol conditions. An excellent correlation was found between observed sky quality and the predicted values from the remotely sensed data. Thematic maps of large regions of the earth showing predicted artificial V-band sky brightness may be quickly generated with modest computing resources. We have found a fast and accurate method based on previous work to model all-sky quality. We provide limitations to this method. The proposed model meets requirements needed by decision makers and land managers of an easy to interpret and understand metric of sky quality. |
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0022-4073 |
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GFZ @ kyba @ |
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1879 |
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