A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing
Energy saving becomes critical in modern cloud wireless multimedia and mobile communication systems. In this paper we propose to study a new paradigm named application layer Position-Value diversity for wireless image sharing for cloud-edge communications, which has significant energy saving potenti...
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European Alliance for Innovation (EAI)
2015-08-01
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| Series: | EAI Endorsed Transactions on Energy Web |
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| Online Access: | http://eudl.eu/doi/10.4108/icst.mobimedia.2015.259744 |
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doaj-13a978c000c340dca28e39a780afb9752020-11-25T01:44:42ZengEuropean Alliance for Innovation (EAI)EAI Endorsed Transactions on Energy Web2032-944X2015-08-01241610.4108/icst.mobimedia.2015.259744A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image SharingWei Wang0Kazem Sohraby1wwang@mail.sdsu.eduSouth Dakota School of Mines and TechnologyEnergy saving becomes critical in modern cloud wireless multimedia and mobile communication systems. In this paper we propose to study a new paradigm named application layer Position-Value diversity for wireless image sharing for cloud-edge communications, which has significant energy saving potentials for modern wireless networking systems. In this new paradigm, saving energy is achieved by looking into application layer imaging traffic, in stead of MAC-PHY protocols at lower layers, and partitioning it into important positions and unimportant values. This paradigm could be integrated to existing wavelet-based tree compression, and truncation of image bit streams could be performed with regards to wireless communication energy budget estimation. Simulation results demonstrated that there are significant potentials of communication energy efficiency gain and Quality of Experience (QoE) enhancement in wireless image communication systems.http://eudl.eu/doi/10.4108/icst.mobimedia.2015.259744wireless multimedia transmissionenergy efficiency |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Wei Wang Kazem Sohraby |
| spellingShingle |
Wei Wang Kazem Sohraby A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing EAI Endorsed Transactions on Energy Web wireless multimedia transmission energy efficiency |
| author_facet |
Wei Wang Kazem Sohraby |
| author_sort |
Wei Wang |
| title |
A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing |
| title_short |
A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing |
| title_full |
A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing |
| title_fullStr |
A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing |
| title_full_unstemmed |
A Study of Application Layer Paradigm for Lower Layer Energy Saving Potentials in Cloud-Edge Social User Wireless Image Sharing |
| title_sort |
study of application layer paradigm for lower layer energy saving potentials in cloud-edge social user wireless image sharing |
| publisher |
European Alliance for Innovation (EAI) |
| series |
EAI Endorsed Transactions on Energy Web |
| issn |
2032-944X |
| publishDate |
2015-08-01 |
| description |
Energy saving becomes critical in modern cloud wireless multimedia and mobile communication systems. In this paper we propose to study a new paradigm named application layer Position-Value diversity for wireless image sharing for cloud-edge communications, which has significant energy saving potentials for modern wireless networking systems. In this new paradigm, saving energy is achieved by looking into application layer imaging traffic, in stead of MAC-PHY protocols at lower layers, and partitioning it into important positions and unimportant values. This paradigm could be integrated to existing wavelet-based tree compression, and truncation of image bit streams could be performed with regards to wireless communication energy budget estimation. Simulation results demonstrated that there are significant potentials of communication energy efficiency gain and Quality of Experience (QoE) enhancement in wireless image communication systems. |
| topic |
wireless multimedia transmission energy efficiency |
| url |
http://eudl.eu/doi/10.4108/icst.mobimedia.2015.259744 |
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AT weiwang astudyofapplicationlayerparadigmforlowerlayerenergysavingpotentialsincloudedgesocialuserwirelessimagesharing AT kazemsohraby astudyofapplicationlayerparadigmforlowerlayerenergysavingpotentialsincloudedgesocialuserwirelessimagesharing AT weiwang studyofapplicationlayerparadigmforlowerlayerenergysavingpotentialsincloudedgesocialuserwirelessimagesharing AT kazemsohraby studyofapplicationlayerparadigmforlowerlayerenergysavingpotentialsincloudedgesocialuserwirelessimagesharing |
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