Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks

Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks

Energy efficiency (EE) is critical to achieve cooperative sensing and transmission in relay-assisted cognitive radio networks (CRNs) with limited battery capacity. This paper proposes an energy-efficient cooperative transmission strategy with combined censoring report and spatial diversity in cooper...

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Main Authors: Li Feng, Jirong Sun, Hua Sun, Shengju Tang
Format: Article
Language:English
Published: Hindawi-Wiley 2020-01-01
Series:Wireless Communications and Mobile Computing
Online Access:http://dx.doi.org/10.1155/2020/5104605
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spelling doaj-164d737faced472181f0a095ef98e20e2020-11-25T03:30:26ZengHindawi-WileyWireless Communications and Mobile Computing1530-86691530-86772020-01-01202010.1155/2020/51046055104605Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio NetworksLi Feng0Jirong Sun1Hua Sun2Shengju Tang3School of Engineering & Technology, Sichuan Open University, Chengdu 610073, ChinaSchool of Engineering & Technology, Sichuan Open University, Chengdu 610073, ChinaSchool of Engineering & Technology, Sichuan Open University, Chengdu 610073, ChinaSchool of Engineering & Technology, Sichuan Open University, Chengdu 610073, ChinaEnergy efficiency (EE) is critical to achieve cooperative sensing and transmission in relay-assisted cognitive radio networks (CRNs) with limited battery capacity. This paper proposes an energy-efficient cooperative transmission strategy with combined censoring report and spatial diversity in cooperative process, namely, censoring-based relay transmission (CRT). Specifically, secondary relays (SRs) take part in cooperative sensing with differential censoring to reduce energy consumption, and the best SR assists secondary transmission to enhance communication quality in transmission stage and thus to improve secondary transmission EE. First, we derived generalized-form expressions for detection probability, reporting probability, sensing energy, and expected throughput for CRT. Second, we investigate a mean EE-oriented maximization nonconvex problem by joint optimizing sensing duration and power allocation for secondary users under secondary outage probability and sensing performance constraints. With the aid of Jensen’s inequality, an efficient cross-iteration algorithm with low complexity is proposed to obtain the suboptimal solutions, which is developed by golden segmentation search method. Finally, extensive simulations are conducted to evaluate the performance of CRT. The results show significant improvements of SUs’ EE compared with traditional noncooperation single cognitive transmission schemes, which demonstrate the benefits of our proposed cooperative strategy in conserving energy for secondary transmission.http://dx.doi.org/10.1155/2020/5104605
collection DOAJ
language English
format Article
sources DOAJ
author Li Feng
Jirong Sun
Hua Sun
Shengju Tang
spellingShingle Li Feng
Jirong Sun
Hua Sun
Shengju Tang
Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
Wireless Communications and Mobile Computing
author_facet Li Feng
Jirong Sun
Hua Sun
Shengju Tang
author_sort Li Feng
title Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
title_short Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
title_full Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
title_fullStr Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
title_full_unstemmed Censoring-Based Relay Transmission for Achieving Energy Efficiency in Cognitive Radio Networks
title_sort censoring-based relay transmission for achieving energy efficiency in cognitive radio networks
publisher Hindawi-Wiley
series Wireless Communications and Mobile Computing
issn 1530-8669
1530-8677
publishDate 2020-01-01
description Energy efficiency (EE) is critical to achieve cooperative sensing and transmission in relay-assisted cognitive radio networks (CRNs) with limited battery capacity. This paper proposes an energy-efficient cooperative transmission strategy with combined censoring report and spatial diversity in cooperative process, namely, censoring-based relay transmission (CRT). Specifically, secondary relays (SRs) take part in cooperative sensing with differential censoring to reduce energy consumption, and the best SR assists secondary transmission to enhance communication quality in transmission stage and thus to improve secondary transmission EE. First, we derived generalized-form expressions for detection probability, reporting probability, sensing energy, and expected throughput for CRT. Second, we investigate a mean EE-oriented maximization nonconvex problem by joint optimizing sensing duration and power allocation for secondary users under secondary outage probability and sensing performance constraints. With the aid of Jensen’s inequality, an efficient cross-iteration algorithm with low complexity is proposed to obtain the suboptimal solutions, which is developed by golden segmentation search method. Finally, extensive simulations are conducted to evaluate the performance of CRT. The results show significant improvements of SUs’ EE compared with traditional noncooperation single cognitive transmission schemes, which demonstrate the benefits of our proposed cooperative strategy in conserving energy for secondary transmission.
url http://dx.doi.org/10.1155/2020/5104605
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AT jirongsun censoringbasedrelaytransmissionforachievingenergyefficiencyincognitiveradionetworks
AT huasun censoringbasedrelaytransmissionforachievingenergyefficiencyincognitiveradionetworks
AT shengjutang censoringbasedrelaytransmissionforachievingenergyefficiencyincognitiveradionetworks
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