The Experts below are selected from a list of 27600 Experts worldwide ranked by ideXlab platform
Steffen Hoernig - One of the best experts on this subject based on the ideXlab platform.
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on net and off net pricing on asymmetric Telecommunications Networks
Information Economics and Policy, 2007Co-Authors: Steffen HoernigAbstract:Abstract The differential between on-net and off-net prices, for example on mobile telephony Networks, is an issue that is hotly debated between telecoms operators and regulators. Small operators contend that their competitors’ high off-net prices are anticompetitive. We show that if the utility of receiving calls is taken into account, the equilibrium pricing structures will indeed depend on firms’ market shares. Larger firms will charge higher off-net prices even without anticompetitive intent, both under linear and two-part tariffs. Predatory behavior would be accompanied by even larger on-net/off-net differentials even if access charges are set at cost.
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on net and off net pricing on asymmetric Telecommunications Networks
Research Papers in Economics, 2006Co-Authors: Steffen HoernigAbstract:The differential between on-net and off-net prices, for example on mobile telephony Networks, is an issue that is hotly debated between telecoms operators and regulators. Small operators contend that their competitors' high off-net prices are anticompetitive. We show that if the utility of receiving calls is taken into account, the equilibrium pricing structures will indeed depend on firms' market shares. Larger firms will charge higher off-net prices even without anticompetitive intent, both under linear and two-part tariffs. Predative behavior would be accompanied by even larger on-net / off-net differentials even if access charges are set at cost.
Georgios Ginis - One of the best experts on this subject based on the ideXlab platform.
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cupon the copper alternative to pon 100 gb s dsl Networks accepted from open call
IEEE Communications Magazine, 2007Co-Authors: S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new "Copper-PON" or, more compactly CuPON1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
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cupon the copper alternative to pon 100 gb s dsl Networks
2007Co-Authors: Joseph M Cioffi, S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new “Copper-PON” or, more compactly CuPON 1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored 2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
S Jagannathan - One of the best experts on this subject based on the ideXlab platform.
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cupon the copper alternative to pon 100 gb s dsl Networks accepted from open call
IEEE Communications Magazine, 2007Co-Authors: S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new "Copper-PON" or, more compactly CuPON1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
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cupon the copper alternative to pon 100 gb s dsl Networks
2007Co-Authors: Joseph M Cioffi, S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new “Copper-PON” or, more compactly CuPON 1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored 2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
Michele Rossi - One of the best experts on this subject based on the ideXlab platform.
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When Telecommunications Networks meet energy grids: cellular Networks with energy harvesting and trading capabilities
IEEE Communications Magazine, 2015Co-Authors: Davide Zordan, Marco Miozzo, Paolo Dini, Michele RossiAbstract:In this article, we cover eco-friendly cellular Networks, discussing the benefits that ambient energy harvesting offers in terms of energy consumption and profit. We advocate for future Networks where energy harvesting will be massively employed to power network elements; even further, communication Networks will seamlessly blend with future power grids. This vision entails the fact that future base stations may trade some of the excess energy they harvest so as to make a profit and provide ancillary services to the electricity grid. We start by discussing recent developments in the energy harvesting field, and then deliberate on the way future energy markets are expected to evolve and the new fundamental trade-offs that arise when energy can be traded. Performance estimates are given throughout to support our arguments, and open research issues in this emerging field are discussed.
Mehdi Mohseni - One of the best experts on this subject based on the ideXlab platform.
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cupon the copper alternative to pon 100 gb s dsl Networks accepted from open call
IEEE Communications Magazine, 2007Co-Authors: S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new "Copper-PON" or, more compactly CuPON1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
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cupon the copper alternative to pon 100 gb s dsl Networks
2007Co-Authors: Joseph M Cioffi, S Jagannathan, Mehdi Mohseni, Georgios GinisAbstract:This article investigates the ultimate bandwidth limits of a copper DSL binder of 200 telephone line connections, finding the ultimate available shared data bandwidth to be 100 Gb/s. A new “Copper-PON” or, more compactly CuPON 1 multidropping DSL architecture enables DSL bandwidth sharing and increases data rates through exploitation of all modes of crosstalk, particularly with the use of vectored 2 dynamic spectrum management. The inevitable emerging conclusion raises an intriguing question about the broadband access evolution of Telecommunications Networks: Why deploy currently available or contemplated passive fiber systems when the existing last kilometer of copper can provide broadband gigabits per second to everyone?
