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Energy efficient and delay aware ternary-state transceivers for aerial base stations
Version 2 2023-01-09, 01:05Version 2 2023-01-09, 01:05
Version 1 2019-10-15, 00:00Version 1 2019-10-15, 00:00
journal contribution
posted on 2023-01-09, 01:05 authored by Nahina IslamNahina Islam, K Sithamparanathan, KG Chavez, J Scott, H EltomIn recent times, Aerial Base Stations(AeBSs) are being investigated to provide wireless coverage to terrestrial radio terminals. There are many advantages of using aerial platforms to provide wireless coverage, including larger coverage in remote areas and better line-of-sight conditions, etc. Energy is a scarce resource for the AeBSs, hence the wise management of energy is quite beneficial for the aerial network. In this context, we study the means of reducing the total energy consumption by designing and implementing an energy efficient AeBSs as presented in this paper. Implementing the sleep mode in the Base Stations (BSs) has been proven to be a very good approach for improving the energy efficiency and we propose a novel strategy for further improving energy efficiency by considering ternary state transceivers for AeBSs. Using the three state model, we propose a Markov Decision Process (MDP) based algorithm, which intelligently switches among three states of the transceivers based on the offered traffic meanwhile maintaining a prescribed minimum channel rate per user. We define a reward function for the MDP, which helps us to get an optimal policy for selecting a particular mode for the transceivers of the AeBS. Considering an AeBS with transceivers whose states are changeable, we perform simulations to analyse the performance of the algorithm. Our results show that, compared with the always active model, around 40% gain in the energy efficiency is achieved by using our proposed MDP algorithm together with the three-state transceivers model. We also show the energy-delay tradeoff in order to design an efficient AeBS. © 2018 Chongqing University of Posts and Telecommunications
Funding
Category 3 - Industry and Other Research Income
History
Volume
5Issue
1Start Page
40End Page
50Number of Pages
11eISSN
2352-8648Publisher
Elsevier, NetherlandsPublisher DOI
Additional Rights
CC BY-NC-ND 4.0Peer Reviewed
- Yes
Open Access
- Yes
Acceptance Date
2018-10-19External Author Affiliations
CSIRO; RMIT UniversityEra Eligible
- Yes
Journal
Digital Communications and NetworksUsage metrics
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