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{{short description|American computer scientist}} | |||
{{Infobox scientist | {{Infobox scientist | ||
|name = Ramesh Govindan | |name = Ramesh Govindan | ||
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}} | }} | ||
'''Ramesh Govindan''' is an Indian-American professor of [[computer science]]. He is the Northrop Grumman Chair in Engineering and Professor of Computer Science and Electrical Engineering at the [[University of Southern California]]. | '''Ramesh Govindan''' is an Indian-American professor of [[computer science]]. He is the [[Northrop Grumman]] Chair in Engineering and Professor of Computer Science and Electrical Engineering at the [[University of Southern California]]. | ||
==Early life== | ==Early life== | ||
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In 2002, he and colleagues from both [[International Computer Science Institute]] and UCLA have developed a [[geographic hash table]] which was later used along with [[data-centric storage]] system.<ref>{{cite book|author1=Brad Karp|author2=Fang Yu|author3=Deborah Estrin|author4=Scott Shenker|title=GHT: a geographic hash table for data-centric storage|publisher=ACM|pages=78–87|isbn=978-1-58113-589-3|doi=10.1145/570738.570750|chapter=GHT|year=2002|s2cid=565276}}</ref> In 2004, while working with researchers at the [[University of California, Los Angeles]] he discussed [[wireless sensor network]] system which is called ''Wisden'' which according to him and his colleagues will use [[End-to-end principle|end-to-end]] and [[hop-by-hop transport]] recovery which wouldn't require global [[clock synchronization]] to transport data. During the same study they have developed [[wavelet]]-based technique that will use limited amount of data [[bandwidth (computing)|bandwidth]] for [[Low-power broadcasting|low-power wireless radios]].<ref>{{cite book|chapter-url=http://dl.acm.org/citation.cfm?id=1031498|chapter=A wireless sensor network For structural monitoring|publisher=ACM|pages=13–24|isbn=978-1-58113-879-5|doi=10.1145/1031495.1031498|title=Proceedings of the 2nd international conference on Embedded networked sensor systems - Sen ''Sys'' '04|year=2004|last1=Xu|first1=Ning|last2=Rangwala|first2=Sumit|last3=Chintalapudi|first3=Krishna Kant|last4=Ganesan|first4=Deepak|last5=Broad|first5=Alan|last6=Govindan|first6=Ramesh|last7=Estrin|first7=Deborah|s2cid=1379954|url=http://www.escholarship.org/uc/item/7694j52g}}</ref> | In 2002, he and colleagues from both [[International Computer Science Institute]] and UCLA have developed a [[geographic hash table]] which was later used along with [[data-centric storage]] system.<ref>{{cite book|author1=Brad Karp|author2=Fang Yu|author3=Deborah Estrin|author4=Scott Shenker|title=GHT: a geographic hash table for data-centric storage|publisher=ACM|pages=78–87|isbn=978-1-58113-589-3|doi=10.1145/570738.570750|chapter=GHT|year=2002|s2cid=565276}}</ref> In 2004, while working with researchers at the [[University of California, Los Angeles]] he discussed [[wireless sensor network]] system which is called ''Wisden'' which according to him and his colleagues will use [[End-to-end principle|end-to-end]] and [[hop-by-hop transport]] recovery which wouldn't require global [[clock synchronization]] to transport data. During the same study they have developed [[wavelet]]-based technique that will use limited amount of data [[bandwidth (computing)|bandwidth]] for [[Low-power broadcasting|low-power wireless radios]].<ref>{{cite book|chapter-url=http://dl.acm.org/citation.cfm?id=1031498|chapter=A wireless sensor network For structural monitoring|publisher=ACM|pages=13–24|isbn=978-1-58113-879-5|doi=10.1145/1031495.1031498|title=Proceedings of the 2nd international conference on Embedded networked sensor systems - Sen ''Sys'' '04|year=2004|last1=Xu|first1=Ning|last2=Rangwala|first2=Sumit|last3=Chintalapudi|first3=Krishna Kant|last4=Ganesan|first4=Deepak|last5=Broad|first5=Alan|last6=Govindan|first6=Ramesh|last7=Estrin|first7=Deborah|s2cid=1379954|url=http://www.escholarship.org/uc/item/7694j52g}}</ref> | ||
In 2006, Govindan and his colleagues have developed a compact version of a [[ | In 2006, Govindan and his colleagues have developed a compact version of a [[pursuit–evasion]] application called ''Tenet''.<ref>{{cite book|chapter-url=http://dl.acm.org/citation.cfm?id=1182823|chapter=The Tenet architecture for tiered sensor networks|publisher=ACM|pages=153–166|isbn=978-1-59593-343-0|doi=10.1145/1182807.1182823|title=Proceedings of the 4th international conference on Embedded networked sensor systems - Sen ''Sys'' '06|year=2006|last1=Gnawali|first1=Omprakash|last2=Jang|first2=Ki-Young|last3=Paek|first3=Jeongyeup|last4=Vieira|first4=Marcos|last5=Govindan|first5=Ramesh|last6=Greenstein|first6=Ben|last7=Joki|first7=August|last8=Estrin|first8=Deborah|last9=Kohler|first9=Eddie|s2cid=6494137|url=https://escholarship.org/uc/item/9bp57793}}</ref> In 2010 Govindan, [[Jeongyeup Paek]] and [[Joongheon Kim]] used [[smartphone]]s to evaluate [[Stand-alone power system|remote area power supply]]. He and his colleagues found that this prototype implementation increased phone lifetimes 3.8 times more than [[GPS]].<ref>{{cite book|author=Jeongyeup Paek|title=Proceedings of the 8th international conference on Mobile systems, applications, and services - Mobi ''Sys'' '10|author2=Joongheon Kim|author3=Ramesh Govindan|chapter=Energy-efficient rate-adaptive GPS-based positioning for smartphones|publisher=ACM|pages=299–314|isbn=978-1-60558-985-5|doi=10.1145/1814433.1814463|year=2010|citeseerx=10.1.1.192.2391|s2cid=3341893}}</ref> | ||
==References== | ==References== | ||