Potential for global mapping of development via a nightsat mission

被引：2

作者：

Christopher D. Elvidge

Jeffrey Safran

Benjamin Tuttle

Paul Sutton

Pierantonio Cinzano

Donald Pettit

John Arvesen

Christopher Small

机构：

[1] NOAA-NESDIS National Geophysical Data Center,Earth Observation Group

[2] Environmental Systems Research Institute,Cooperative Institute for Research in Environmental Sciences

[3] University of Colorado,Department of Geography

[4] University of Denver,Dipartimento di Astronomia

[5] Università di Padova,Lamont

[6] Istituto di Scienza e Tecnologia dell’Inquinamento Luminoso (ISTIL),Doherty Earth Observatory

[7] NASA Johnson Spaceflight Center,undefined

[8] Cirrus Digital Systems,undefined

[9] The Earth Institute at Colombia University,undefined

来源：

GeoJournal | 2007年 / 69卷 / 1-2期

关键词：

Urban; Exurban; Nighttime lights; Global mapping;

D O I：

10.1007/s10708-007-9104-x

中图分类号：

学科分类号：

摘要：

Nightsat is a concept for a satellite system capable of global observation of the location, form and density of lighted infrastructure and development within human settlements. Nightsat’s repeat cycle should be sufficient to produce an annual cloud-free composite of surface lighting to enable detection of growth rates. Airborne and satellite imagery have been used to define the range of spatial, spectral, and detection limit options for a future Nightsat mission. Our conclusion is that Nightsat should collect data from a near-synchronous orbit in the early evening with 50–100 m spatial resolution and have detection limits of 2.5E−8 W cm−2 sr−1 μm−1 or better. Multispectral low-light imaging data would be better than panchromatic data by providing valuable information on the type or character of lighting, a potentially stronger predictor of variables such as ambient population density and economic activity.

引用

页码：45 / 53

页数：8

共 109 条

[1]

Cinzano P.(2004)Night sky brightness at sites from DMSP-OLS satellite measurements Monthly Notices of the Royal Astronomical Society 353 1107-1116

[2]

Elvidge C. D.(2000)The artificial night sky brightness mapped from DMSP operational linescan system measurements Monthly Notices of the Royal Astronomical Society 318 641-657

[3]

Cinzano P.(2001)Naked eye star visibility and limiting magnitude mapped from DMSP-OLS satellite data Monthly Notices of the Royal Astronomical Society 323 34-46

[4]

Falchi F.(2001)The first world atlas of the artificial night sky brightness Monthly Notices of the Royal Astronomical Society 328 689-707

[5]

Elvidge C. D.(2000)LandScan: A global population database for estimating populations at risk Photogrammetric Engineering and Remote Sensing 66 849-857

[6]

Baugh K. E.(2000)Night-time imagery as a tool for global mapping of socio-economic parameters and greenhouse gas emissions Ambio 29 157-162

[7]

Cinzano P.(2005)From wealth to health: modeling the distribution of income per capita at the sub-national level using nighttime lights imagery International Journal of Health Geographics 4 5-14

[8]

Falchi F.(1999)Radiance calibration of DMSP-OLS low-light imaging data of human settlements Remote Sensing of Environment 68 77-88

[9]

Elvidge C. D.(1997)Mapping city lights with nighttime data from the DMSP Operational Linescan System Photogrammetric Engineering and Remote Sensing 63 727-734

[10]

Cinzano P.(2001)Night-time lights of the world: 1994–1995 ISPRS Journal of Photogrammetry & Remote Sensing 56 81-99

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