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Energy efficiency improvement in cloud radio access networks (CRANs) using device centric caching policies

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dc.contributor.author Samarasinghe, T
dc.contributor.author Hemachandra, K
dc.contributor.author Atapattu, S
dc.contributor.author Nuradha, T
dc.contributor.author Ranawaka, I
dc.date.accessioned 2024-02-06T07:50:02Z
dc.date.available 2024-02-06T07:50:02Z
dc.date.issued 2018
dc.identifier.uri http://dl.lib.uom.lk/handle/123/22190
dc.description Following papers were published based on the results of this research project. 1. I.J. Ranawaka, K.T. Hemachandra, T. Samarasinghe, T. Nuradha, "An Energy Efficient D2D Model with Guaranteed Quality of Service for Cloud Radio Access Networks ," in Proc. International Symposium on Wireless Personal Multimedia Communications, Lisbon, Portugal, Nov., 2019. https://ieeexplore.ieee.org/document/9096086 2. T. Nuradha, T. Samarasinghe, K.T. Hemachandra, "A Novel Content Caching and Delivery Scheme for Millimeter Wave Device-to-Device Communications ," in Proc. International Symposium on Wireless Personal Multimedia Communications, Lisbon, Portugal, Nov., 2019. https:/ /ieeexplore.ieee.org/document/9096087 2. T. Nuradha, K.T. Hemachandra, T. Samarasinghe, S. Atapattu, "Physical-Layer Security for Untrusted UAV-Assisted Full-Duplex Wireless Networks," in Proc. IEEE Global Communications Conference Workshops, Waikoloa, USA, Dec. 2019. https:/ /ieeexplore.ieee.org/document/9024575 en_US
dc.description.abstract As the demand for wireless services is projected to double every year, wireless system designers are facing a major crisis to cater to this demand with the conventional cellular network architecture due to the scarcity of spectrum resources and high cost of energy consumption. Therefore, major architectural changes such as cloud radio access networks (CRANs) and device-to-device (D2D) communications have been proposed as potential solutions. The proposed research project is mainly focuses on improving the performance of the CRAN architecture. Firstly, we propose a spectrum selection scheme and a transmit power minimization scheme for a D2D network cross-laid with a CRAN. The D2D communications are allowed as an overlay to the CRAN as well as in the unlicensed industrial, scientific and medical radio (ISM) band. A link distance-based scheme is proposed and closed-form approximations are derived for the link distance thresholds to select the operating band of the D2D users. Furthermore, analytical expressions are derived to calculate the minimum required transmit power to achieve a guaranteed level of quality of service in each operating band. Secondly, a novel content caching strategy is proposed for a cache enabled D2D network where the user devices are allowed to communicate using millimeter wave (mmWave) D2D links (> 6 GHz) as well as conventional sub 6 GHz cellular links. The proposed content placement strategy maximizes the successful content delivery probability of a line-of-sight D2D link. Furthermore, a heuristic algorithm is proposed for efficient content delivery. The overall scheme improves the successful traffic offloading gain of the network compared to conventional cache-hit maximizing content placement and delivery strategies. Significant energy efficiency improvements can also be achieved in ultra-dense networks. Finally, we consider the physical layer security of an untrusted unmanned aerial vehicle (UAV) based D2D network, operating in full-duplex mode. A source-based jamming scheme is exploited for secure communication without utilizing any external jammers. Firstly, the optimal power allocation between the confidential signal and the jamming signal is derived to maximize the secrecy rate of each link between the source and the destination. Then, the best UAV selection scheme is proposed to maximize the overall secrecy rate of the network. The corresponding secrecy outage probability and the average secrecy rate of the network are analyzed based on the proposed UAV selection and the optimal power allocation schemes. Asymptotic results are also obtained to derive the achievable diversity order. en_US
dc.description.sponsorship Senate Research Committee en_US
dc.language.iso en en_US
dc.subject SENATE RESEARCH COMMITTEE – Research Report en_US
dc.subject ELECTRONICS AND TELECOMMUNICATION ENGINEERING-Research en_US
dc.subject ENERGY EFFICIENCY IMPROVEMENT en_US
dc.subject CLOUD RADIO ACCESS NETWORKS (CRANS) en_US
dc.title Energy efficiency improvement in cloud radio access networks (CRANs) using device centric caching policies en_US
dc.type SRC-Report en_US
dc.identifier.accno SRC187 en_US
dc.identifier.year 2018 en_US
dc.identifier.srgno SRC/LT/2018/2 en_US


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