Joint Network Admission Control, Mode Assignment, and Power Allocation in Energy Harvesting Aided D2D Communication
Green communication with sustainable energy is being considered for 5G cellular network and Internet of Things (IoT) mainly with focus on energy harvesting (EH) to prolong network lifetime. Moreover, device-to-device (D2D) communication on shared channels is also considered as a promising technology...
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| Published in: | IEEE transactions on industrial informatics Vol. 16; no. 3; pp. 1914 - 1923 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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01.03.2020
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| ISSN: | 1551-3203, 1941-0050 |
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| Abstract | Green communication with sustainable energy is being considered for 5G cellular network and Internet of Things (IoT) mainly with focus on energy harvesting (EH) to prolong network lifetime. Moreover, device-to-device (D2D) communication on shared channels is also considered as a promising technology to achieve high data rates, ultralow latency communication, and high spectral efficiency. In this paper, we investigated resource allocation in EH-aided D2D communication underlying 5G cellular along with enabling IoT services. The objective is to maximize throughput of the network subject to the joint constraints on user performance, number of admitted users for equity and fair usage, mode assignment (cellular or D2D) as per available energy, and transmit power allocation along with EH techniques, which results in a mixed integer nonlinear programming problem. We have proposed a low complexity and efficient algorithm, adaptive resource allocation and energy sentient network (ARA-ESN) using branch-cut, branch-bound, and mesh adaptive direct search (MADs) solutions, where cellular or D2D communication is based on available energy and user performance criteria along with EH through ambient energy and radio frequency (RF) energy transfer techniques. We have applied the outer approximation based linearization technique that guarantees the convergence to the optimal solution. The results show that ARA-ESN branch-cut outperforms ARA-ESN branch-bound and ARA-ESN MADs. Moreover, we have also observed that ambient harvesting increases performance of network due to better acquisition of energy as compared to RF energy transfer. |
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| AbstractList | Green communication with sustainable energy is being considered for 5G cellular network and Internet of Things (IoT) mainly with focus on energy harvesting (EH) to prolong network lifetime. Moreover, device-to-device (D2D) communication on shared channels is also considered as a promising technology to achieve high data rates, ultralow latency communication, and high spectral efficiency. In this paper, we investigated resource allocation in EH-aided D2D communication underlying 5G cellular along with enabling IoT services. The objective is to maximize throughput of the network subject to the joint constraints on user performance, number of admitted users for equity and fair usage, mode assignment (cellular or D2D) as per available energy, and transmit power allocation along with EH techniques, which results in a mixed integer nonlinear programming problem. We have proposed a low complexity and efficient algorithm, adaptive resource allocation and energy sentient network (ARA-ESN) using branch-cut, branch-bound, and mesh adaptive direct search (MADs) solutions, where cellular or D2D communication is based on available energy and user performance criteria along with EH through ambient energy and radio frequency (RF) energy transfer techniques. We have applied the outer approximation based linearization technique that guarantees the convergence to the optimal solution. The results show that ARA-ESN branch-cut outperforms ARA-ESN branch-bound and ARA-ESN MADs. Moreover, we have also observed that ambient harvesting increases performance of network due to better acquisition of energy as compared to RF energy transfer. |
| Author | Sial, Muhammad Nadeem Naeem, Muhammad Qamar, Farhan Awan, Asfand Yar Ali, Mudassar |
| Author_xml | – sequence: 1 givenname: Asfand Yar orcidid: 0000-0003-3433-6779 surname: Awan fullname: Awan, Asfand Yar email: asfand.yar.awan@gmail.com organization: Beihang University, Beijing, China – sequence: 2 givenname: Mudassar orcidid: 0000-0002-8402-5920 surname: Ali fullname: Ali, Mudassar email: mudassar.ali@hotmail.com organization: University of Engineering and Technology, Taxila, Taxila, Pakistan – sequence: 3 givenname: Muhammad orcidid: 0000-0001-9734-4608 surname: Naeem fullname: Naeem, Muhammad email: muhammadnaeem@gmail.com organization: Commission on Science and Technology for Sustainable Development in the South (COMSATS) University Islamabad, Wah Campus, Wah Cantt, Pakistan – sequence: 4 givenname: Farhan orcidid: 0000-0003-4406-4308 surname: Qamar fullname: Qamar, Farhan email: farhanqamar83@hotmail.com organization: University of Engineering and Technology, Taxila, Taxila, Pakistan – sequence: 5 givenname: Muhammad Nadeem surname: Sial fullname: Sial, Muhammad Nadeem email: nadeem_606@yahoo.com organization: Department of Informatics, King's College London, London, U.K |
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| Cites_doi | 10.1109/SURV.2011.060710.00094 10.1007/s11590-008-0089-2 10.1109/ACCESS.2017.2681696 10.1109/TVT.2017.2727144 10.1109/JCN.2017.000027 10.1016/S0895-7177(00)00258-2 10.1109/TWC.2015.2489651 10.23919/ChiCC.2017.8028558 10.1109/TVT.2015.2487220 10.1109/ICCW.2017.7962652 10.1109/26.664305 10.1109/TVT.2018.2833447 10.1109/TII.2018.2794467 10.1002/ett.3299 10.1109/ICCW.2015.7247475 |
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| SubjectTerms | 5G mobile communication Adaptive algorithms Admission control branch–bound Cellular communication Clean energy Communication device-to-device (D2D) Device-to-device communication Energy Energy harvesting energy harvesting (EH) Energy transfer green communication Internet of Things Internet of Things (IoT) mesh adaptive direct search (MADS) Mixed integer Nonlinear programming outer approximation Power management Radio frequency Resource allocation Resource management Service life assessment Transmitters |
| Title | Joint Network Admission Control, Mode Assignment, and Power Allocation in Energy Harvesting Aided D2D Communication |
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