Operational Region of D2D Communications for Enhancing Cellular Network Performance
An important enabler towards the successful deployment of any new element/feature to the cellular network is the investigation and characterization of the operational conditions where its introduction will enhance performance. Although there has been significant research activity on the potential of...
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| Veröffentlicht in: | IEEE transactions on wireless communications 2015-11, Vol.14 (11), p.5984-5997 |
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| container_title | IEEE transactions on wireless communications |
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| creator | Stefanatos, Stelios Gotsis, Antonis G. Alexiou, Angeliki |
| description | An important enabler towards the successful deployment of any new element/feature to the cellular network is the investigation and characterization of the operational conditions where its introduction will enhance performance. Although there has been significant research activity on the potential of device-to-device (D2D) communications, there are currently no clear indications of whether D2D communications are actually able to provide benefits for a wide range of operational conditions, thus justifying their introduction to the system. This paper attempts to fill this gap by taking a stochastic geometry approach on characterizing the set (region) of operational conditions for which D2D communications enhance performance in terms of average user rate. For the practically interesting case of a heavy-loaded network, the operational region is provided in closed form as a function of a variety of parameters such as maximum D2D link distances and user densities, reflecting a wide range of operational conditions (points). It is shown that, under the appropriate deployment scheme, D2D communications can indeed be beneficial not only for the usually considered regime of "proximal communications" but to a wide range of operational conditions that include D2D link distances comparable to the distance to the cellular access point and considerably large user densities. |
| doi_str_mv | 10.1109/TWC.2015.2446974 |
| format | Article |
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Although there has been significant research activity on the potential of device-to-device (D2D) communications, there are currently no clear indications of whether D2D communications are actually able to provide benefits for a wide range of operational conditions, thus justifying their introduction to the system. This paper attempts to fill this gap by taking a stochastic geometry approach on characterizing the set (region) of operational conditions for which D2D communications enhance performance in terms of average user rate. For the practically interesting case of a heavy-loaded network, the operational region is provided in closed form as a function of a variety of parameters such as maximum D2D link distances and user densities, reflecting a wide range of operational conditions (points). It is shown that, under the appropriate deployment scheme, D2D communications can indeed be beneficial not only for the usually considered regime of "proximal communications" but to a wide range of operational conditions that include D2D link distances comparable to the distance to the cellular access point and considerably large user densities.</description><subject>Approximation methods</subject><subject>Cellular communication</subject><subject>cellular network</subject><subject>channel-access-mode selection</subject><subject>Communication systems</subject><subject>D2D communications</subject><subject>Density</subject><subject>Downlink</subject><subject>Exact solutions</subject><subject>Links</subject><subject>Mathematical analysis</subject><subject>optimal system design</subject><subject>Performance enhancement</subject><subject>Probabilistic logic</subject><subject>Resource management</subject><subject>stochastic geometry</subject><subject>System analysis and design</subject><subject>Time division multiple access</subject><subject>Wireless communication</subject><issn>1536-1276</issn><issn>1558-2248</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpdkEtLw0AUhQdRsFb3gpsBN25S5z2ZpaT1AcWKVlyG6WRSU5NMnUkQ_70TW1y4ugfOdy_nHgDOMZpgjNT18i2bEIT5hDAmlGQHYIQ5TxNCWHo4aCoSTKQ4BichbBDCUnA-Ai-LrfW6q1yra_hs11FAV8IpmcLMNU3fVubXDbB0Hs7ad92aql3DzNZ1X2sPH2335fwHfLI-Ek207Sk4KnUd7Nl-jsHr7WyZ3Sfzxd1DdjNPDKOkS7QSKyMQTbkqpKBsxQ1lBVUxKk2lJqZIkSClxUygwqiSpitbYMELiRUrmaVjcLW7u_Xus7ehy5sqmBhMt9b1IcdSpogqxHFEL_-hG9f7-PNAUUqwokhFCu0o410I3pb51leN9t85RvnQch5bzoeW833LceVit1JZa_9wiUnK4sEfkXR3Dw</recordid><startdate>201511</startdate><enddate>201511</enddate><creator>Stefanatos, Stelios</creator><creator>Gotsis, Antonis G.</creator><creator>Alexiou, Angeliki</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Although there has been significant research activity on the potential of device-to-device (D2D) communications, there are currently no clear indications of whether D2D communications are actually able to provide benefits for a wide range of operational conditions, thus justifying their introduction to the system. This paper attempts to fill this gap by taking a stochastic geometry approach on characterizing the set (region) of operational conditions for which D2D communications enhance performance in terms of average user rate. For the practically interesting case of a heavy-loaded network, the operational region is provided in closed form as a function of a variety of parameters such as maximum D2D link distances and user densities, reflecting a wide range of operational conditions (points). 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| subjects | Approximation methods Cellular communication cellular network channel-access-mode selection Communication systems D2D communications Density Downlink Exact solutions Links Mathematical analysis optimal system design Performance enhancement Probabilistic logic Resource management stochastic geometry System analysis and design Time division multiple access Wireless communication |
| title | Operational Region of D2D Communications for Enhancing Cellular Network Performance |
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