Energy Harvesting Aware routing protocol for wireless sensor networks

Gong, Pu; Xu, Quan

doi:10.1109/csndsp.2014.6923819

Cited by 30 publications

(20 citation statements)

References 15 publications

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“…The first protocol is LTB-AODV, which is dedicated to the mitigation of network attacks based on the observed past behaviors of nodes [19]. The other protocol for comparison is AODV-EHA which is an energy efficient protocol aware of energy harvesting [30]. In performance evaluation, "safety performance" involves the average number of compromised nodes that are likely to be encountered in a single transmission, given a specific malicious ratio.…”

Section: Performance Evaluationmentioning

confidence: 99%

ETARP: An Energy Efficient Trust-Aware Routing Protocol for Wireless Sensor Networks

Gong

Chen

2015

Journal of Sensors

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This paper presents a new routing protocol called Secure and Energy Aware Routing Protocol (ETARP) designed for energy efficiency and security for wireless sensor networks (WSNs). ETARP attempts to deal with WSN applications operating in extreme environments such as the battlefield. The key part of the routing protocol is route selection based on utility theory. The concept of utility is a novel approach to simultaneously factor energy efficiency and trustworthiness of routes in the routing protocol. ETARP discovers and selects routes on the basis of maximum utility with incurring additional cost in overhead compared to the common AODV (Ad Hoc On Demand Distance Vector) routing protocol. Simulation results show that, in comparison to previously proposed routing protocols, namely, AODV-EHA and LTB-AODV (Light-Weight Trust-Based Routing Protocol), the proposed ETARP can keep the same security level while achieving more energy efficiency for data packet delivery.

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Section: Performance Evaluationmentioning

confidence: 99%

ETARP: An Energy Efficient Trust-Aware Routing Protocol for Wireless Sensor Networks

Gong

Chen

2015

Journal of Sensors

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“…Although introducing renewable energy mechanisms to generate electricity has been possible for almost half a century, how the energy harvesting devices for WSN can be comparable in size with the sensors is a new challenge. Many scholars have worked on hardware design for providing ambient Radio Frequency (RF) energy harvesting solutions for WSN [7][18] [19][1] [17] [15]. The results from these works, using hardware testbeds and/or simulation studies, indicate that the performance of ambient RF energy harvesting is closely related the frequency band, the density of the ambient radio frequencies and the duration of the harvesting activity.…”

Section: Introductionmentioning

confidence: 99%

Smart Energy Harvesting Routing Protocol for WSN based E-Health Systems

Bai

Fan

Yang

et al. 2015

Proceedings of the 2015 Workshop on Pervasive Wireless Healthcare

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This paper proposes a novel routing protocol called Smart EnergyHarvesting Routing Protocol (SEHR) for data transmission in Wireless Sensor Network based e-Health systems (WSNEH). WSNEH is a sophisticated network environment where multiple types of mobile sensors are involved, employing different forms of data transmission without a pre-defined infrastructure, constrained by various power supplies. Given the fast developing techniques for ambient energy harvesting in WSN, the proposed SEHR route selection scheme operates alongside flexible energy harvesting resources, estimating real-time node energy consumption, predicting a node's own energy harvesting capability before a route is set up. Diverse strategies are designed for different data types, as appropriate. Overall SEHR aims to prolong whole network's lifetime. Simulation results show that SEHR greatly outperforms other routing protocols in the challenging WSNEH environment.

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“…As CWR does not consider the energy harvest capability of nodes, in order to make the comparison more appropriate, we employ two other routing protocols that account for the energy harvesting property: DEHAR [20] and AODV-EHA [19]. The features of these two protocols have been introduced in the Related Work section 1) Scenario: The same scenario used in the first set of experiments when investigating CWR and CRCPR is employed in this simulation.…”

Section: Crcpr Versus Dehar and Aodv-ehamentioning

confidence: 99%

“…Researches focusing on energy harvesting ability in MANETs is a key interest in the long term. AODV-EHA in [19] considers the energy harvesting ability of all nodes and tries to find the route with least transmission cost by replacing "hop count" with "energy count". Here, energy count can be obtained by predicting the average transmission cost to forward a data packet successfully from the sending node to the receiving node.…”

Section: B Energy-aware Routing Protocolmentioning

confidence: 99%

Toward Constructive Relay-Based Cooperative Routing in MANETs

Bai

Sun

Phillips

et al. 2018

IEEE Systems Journal

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Abstract-Frequent link breaks (due to node mobility) and quick exhaustion of energy (due to limited battery volume) are two major problems impacting on the flexibility in Mobile Ad hoc Networks (MANETs). Cooperative communication in MANETs has become an appealing topic, as it can improve system capacity and energy efficiency. In spite of such advantages of cooperative communication, some issues still remain such as the lack of a systematically designed cooperative routing scheme (including route discovery, route reply, route enhancement and cooperative data forwarding), facilitation of cooperative communication in mobility resistance, and route selection (jointly considering energy consumption, energy harvesting ability and link break probability). Driven by the above concerns, we propose a novel Constructive Relay based CooPerative Routing (CRCPR) protocol in this article. Using topological information stored and maintained in a COoPerative (COP) Table and Relay Table, CRCPR enhances resilience to mitigate the mobility issue by self-managing to construct adequate relays for data forwarding. Furthermore, assuming nodes are mostly battery-operated, CR-CPR proposes a new route selection mechanism which takes into account energy consumption, energy harvesting and link break probability, to determine an appropriate route across a network. Simulation results show the robustness of CRCPR against node mobility, further with improvement for up to 60% network throughput and 40% prolonged network lifetime.

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Energy Harvesting Aware routing protocol for wireless sensor networks

Cited by 30 publications

References 15 publications

ETARP: An Energy Efficient Trust-Aware Routing Protocol for Wireless Sensor Networks

ETARP: An Energy Efficient Trust-Aware Routing Protocol for Wireless Sensor Networks

Smart Energy Harvesting Routing Protocol for WSN based E-Health Systems

Toward Constructive Relay-Based Cooperative Routing in MANETs

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