Energy efficiency of some non-cooperative, cooperative and hybrid communication schemes in multi-relay WSNs

Marcos Kakitani; Glauber Brante; Richard Demo Souza; Anelise Munaretto; Muhammad Ali Imran

doi:10.1007/s11276-013-0569-x

Energy efficiency of some non-cooperative, cooperative and hybrid communication schemes in multi-relay WSNs

Marcos Kakitani
, Glauber Brante
, Richard Demo Souza
, Anelise Munaretto
, Muhammad Ali Imran

Universidade Tecnológica Federal do Paraná
University of Surrey

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

In this paper we analyze the energy efficiency of single-hop, multi-hop, cooperative selective decode-and-forward, cooperative incremental decode-and-forward, and even the combination of cooperative and non-cooperative schemes, in wireless sensor networks composed of several nodes. We assume that, as the sensor nodes can experience either non line-of-sight or some line-of-sight conditions, the Nakagami-m fading distribution is used to model the wireless environment. The energy efficiency analysis is constrained by a target outage probability and an end-to-end throughput. Our results show that in most scenarios cooperative incremental schemes are more energy efficient than the other methods.

Original language	English
Pages (from-to)	1769-1781
Number of pages	13
Journal	Wireless Networks
Volume	19
Issue number	7
DOIs	https://doi.org/10.1007/s11276-013-0569-x
State	Published - Oct 2013
Externally published	Yes

Keywords

Cooperative communications
Decode-and-forward
Energy efficiency
Multi-hop communication

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title = "Energy efficiency of some non-cooperative, cooperative and hybrid communication schemes in multi-relay WSNs",

abstract = "In this paper we analyze the energy efficiency of single-hop, multi-hop, cooperative selective decode-and-forward, cooperative incremental decode-and-forward, and even the combination of cooperative and non-cooperative schemes, in wireless sensor networks composed of several nodes. We assume that, as the sensor nodes can experience either non line-of-sight or some line-of-sight conditions, the Nakagami-m fading distribution is used to model the wireless environment. The energy efficiency analysis is constrained by a target outage probability and an end-to-end throughput. Our results show that in most scenarios cooperative incremental schemes are more energy efficient than the other methods.",

keywords = "Cooperative communications, Decode-and-forward, Energy efficiency, Multi-hop communication",

author = "Marcos Kakitani and Glauber Brante and Souza, \{Richard Demo\} and Anelise Munaretto and Imran, \{Muhammad Ali\}",

year = "2013",

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doi = "10.1007/s11276-013-0569-x",

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T1 - Energy efficiency of some non-cooperative, cooperative and hybrid communication schemes in multi-relay WSNs

AU - Kakitani, Marcos

AU - Brante, Glauber

AU - Souza, Richard Demo

AU - Munaretto, Anelise

AU - Imran, Muhammad Ali

PY - 2013/10

Y1 - 2013/10

N2 - In this paper we analyze the energy efficiency of single-hop, multi-hop, cooperative selective decode-and-forward, cooperative incremental decode-and-forward, and even the combination of cooperative and non-cooperative schemes, in wireless sensor networks composed of several nodes. We assume that, as the sensor nodes can experience either non line-of-sight or some line-of-sight conditions, the Nakagami-m fading distribution is used to model the wireless environment. The energy efficiency analysis is constrained by a target outage probability and an end-to-end throughput. Our results show that in most scenarios cooperative incremental schemes are more energy efficient than the other methods.

AB - In this paper we analyze the energy efficiency of single-hop, multi-hop, cooperative selective decode-and-forward, cooperative incremental decode-and-forward, and even the combination of cooperative and non-cooperative schemes, in wireless sensor networks composed of several nodes. We assume that, as the sensor nodes can experience either non line-of-sight or some line-of-sight conditions, the Nakagami-m fading distribution is used to model the wireless environment. The energy efficiency analysis is constrained by a target outage probability and an end-to-end throughput. Our results show that in most scenarios cooperative incremental schemes are more energy efficient than the other methods.

KW - Cooperative communications

KW - Decode-and-forward

KW - Energy efficiency

KW - Multi-hop communication

UR - https://www.scopus.com/pages/publications/84884291079

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DO - 10.1007/s11276-013-0569-x

M3 - Article

AN - SCOPUS:84884291079

SN - 1022-0038

VL - 19

SP - 1769

EP - 1781

JO - Wireless Networks

JF - Wireless Networks

IS - 7

ER -

Energy efficiency of some non-cooperative, cooperative and hybrid communication schemes in multi-relay WSNs

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Keywords

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