Using spatial principles to optimize distributed computing for enabling the physical science discoveries
Identifieur interne : 000639 ( Main/Exploration ); précédent : 000638; suivant : 000640Using spatial principles to optimize distributed computing for enabling the physical science discoveries
Auteurs : Chaowei Yang [États-Unis] ; Huayi Wu [États-Unis] ; Qunying Huang [États-Unis] ; Zhenlong Li [États-Unis] ; Jing LiSource :
- Proceedings of the National Academy of Sciences of the United States of America [ 0027-8424 ] ; 2011.
English descriptors
- KwdEn :
- MESH :
- methods : Informatics, Natural Science Disciplines.
- trends : Informatics.
- Climate Change, Computer Communication Networks, Computer Simulation, Computers, Demography, Weather.
Abstract
Contemporary physical science studies rely on the effective analyses of geographically dispersed spatial data and simulations of physical phenomena. Single computers and generic high-end computing are not sufficient to process the data for complex physical science analysis and simulations, which can be successfully supported only through distributed computing, best optimized through the application of spatial principles. Spatial computing, the computing aspect of a spatial cyberinfrastructure, refers to a computing paradigm that utilizes spatial principles to optimize distributed computers to catalyze advancements in the physical sciences. Spatial principles govern the interactions between scientific parameters across space and time by providing the spatial connections and constraints to drive the progression of the phenomena. Therefore, spatial computing studies could better position us to leverage spatial principles in simulating physical phenomena and, by extension, advance the physical sciences. Using geospatial science as an example, this paper illustrates through three research examples how spatial computing could (
Url:
DOI: 10.1073/pnas.0909315108
PubMed: 21444779
PubMed Central: 3078382
Affiliations:
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Computing, College of Science, George Mason University, Fairfax, VA 22030-4444</nlm:aff><country xml:lang="fr">États-Unis</country><placeName><region type="state">Virginie</region></placeName><wicri:cityArea>Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax</wicri:cityArea></affiliation></author><author><name sortKey="Wu, Huayi" sort="Wu, Huayi" uniqKey="Wu H" first="Huayi" last="Wu">Huayi Wu</name><affiliation wicri:level="2"><nlm:aff id="aff1">Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax, VA 22030-4444</nlm:aff><country xml:lang="fr">États-Unis</country><placeName><region type="state">Virginie</region></placeName><wicri:cityArea>Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax</wicri:cityArea></affiliation></author><author><name sortKey="Huang, Qunying" sort="Huang, Qunying" uniqKey="Huang Q" first="Qunying" last="Huang">Qunying Huang</name><affiliation wicri:level="2"><nlm:aff id="aff1">Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax, VA 22030-4444</nlm:aff><country xml:lang="fr">États-Unis</country><placeName><region type="state">Virginie</region></placeName><wicri:cityArea>Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax</wicri:cityArea></affiliation></author><author><name sortKey="Li, Zhenlong" sort="Li, Zhenlong" uniqKey="Li Z" first="Zhenlong" last="Li">Zhenlong Li</name><affiliation wicri:level="2"><nlm:aff id="aff1">Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax, VA 22030-4444</nlm:aff><country xml:lang="fr">États-Unis</country><placeName><region type="state">Virginie</region></placeName><wicri:cityArea>Joint Center for Intelligent Spatial Computing, College of Science, George Mason University, Fairfax</wicri:cityArea></affiliation></author><author><name sortKey="Li, Jing" sort="Li, Jing" uniqKey="Li J" first="Jing" last="Li">Jing Li</name></author></analytic><series><title level="j">Proceedings of the National Academy of Sciences of the United States of America</title><idno type="ISSN">0027-8424</idno><idno type="eISSN">1091-6490</idno><imprint><date when="2011">2011</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Climate Change</term><term>Computer Communication Networks</term><term>Computer Simulation</term><term>Computers</term><term>Demography</term><term>Informatics (methods)</term><term>Informatics (trends)</term><term>Natural Science Disciplines (methods)</term><term>Weather</term></keywords><keywords scheme="MESH" qualifier="methods" xml:lang="en"><term>Informatics</term><term>Natural Science Disciplines</term></keywords><keywords scheme="MESH" qualifier="trends" xml:lang="en"><term>Informatics</term></keywords><keywords scheme="MESH" xml:lang="en"><term>Climate Change</term><term>Computer Communication Networks</term><term>Computer Simulation</term><term>Computers</term><term>Demography</term><term>Weather</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en"><p>Contemporary physical science studies rely on the effective analyses of geographically dispersed spatial data and simulations of physical phenomena. Single computers and generic high-end computing are not sufficient to process the data for complex physical science analysis and simulations, which can be successfully supported only through distributed computing, best optimized through the application of spatial principles. Spatial computing, the computing aspect of a spatial cyberinfrastructure, refers to a computing paradigm that utilizes spatial principles to optimize distributed computers to catalyze advancements in the physical sciences. Spatial principles govern the interactions between scientific parameters across space and time by providing the spatial connections and constraints to drive the progression of the phenomena. Therefore, spatial computing studies could better position us to leverage spatial principles in simulating physical phenomena and, by extension, advance the physical sciences. Using geospatial science as an example, this paper illustrates through three research examples how spatial computing could (<italic>i</italic>) enable data intensive science with efficient data/services search, access, and utilization, (<italic>ii</italic>) facilitate physical science studies with enabling high-performance computing capabilities, and (<italic>iii</italic>) empower scientists with multidimensional visualization tools to understand observations and simulations. The research examples demonstrate that spatial computing is of critical importance to design computing methods to catalyze physical science studies with better data access, phenomena simulation, and analytical visualization. We envision that spatial computing will become a core technology that drives fundamental physical science advancements in the 21st century.</p></div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Virginie</li></region></list><tree><noCountry><name sortKey="Li, Jing" sort="Li, Jing" uniqKey="Li J" first="Jing" last="Li">Jing Li</name></noCountry><country name="États-Unis"><region name="Virginie"><name sortKey="Yang, Chaowei" sort="Yang, Chaowei" uniqKey="Yang C" first="Chaowei" last="Yang">Chaowei Yang</name></region><name sortKey="Huang, Qunying" sort="Huang, Qunying" uniqKey="Huang Q" first="Qunying" last="Huang">Qunying Huang</name><name sortKey="Li, Zhenlong" sort="Li, Zhenlong" uniqKey="Li Z" first="Zhenlong" last="Li">Zhenlong Li</name><name sortKey="Wu, Huayi" sort="Wu, Huayi" uniqKey="Wu H" first="Huayi" last="Wu">Huayi Wu</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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