Fuzzy genetic based dynamic spectrum allocation approach for cognitive radio sensor networks

Ganesan, Rajesh; Raajini, X. Mercilin; Sagayam, K. Martin; Bhushan, Bharat; Köse, Utku

doi:10.3906/elk-1907-206

Cited by 20 publications

(4 citation statements)

References 28 publications

(30 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They achieved enhanced performance in identifying the misbehavior of the routing but failed to prevent all the attacks. (Rajesh, et al, 2020) developed fuzzy genetic-based dynamic spectrum allocation (FGDSA). The FGDSA is devised to use the channel without any interference.…”

Section: Literature Surveymentioning

confidence: 99%

Adaptive-Sunflower-Based Grey Wolf Algorithm for Multipath Routing in IoT Networks

Pingale

Shinde

2021

International Journal of Business Data Communications and Networking

View full text Add to dashboard Cite

This paper devises a routing method for providing multipath routing inan IoT network. Here the Fractional Artificial Bee colony(FABC)algorithm is devised for initiating clustering process. Moreover the multipath routing is performed by the newly devised optimization technique, namely Adaptive-Sunflower based grey wolf(Adaptive-SFG)optimization technique which is designed by incorporating adaptive idea in Sunflower based grey wolf technique. In addition the fitness function is newly devised by considering certain factors that involves Context awareness, link lifetime Energy, Trust, and Delay.For the computation of the trust, additional trust factors like direct trust indirect trust recent trust and forwarding rate factor is considered. Thus, the proposed Adaptive SFG algorithm selects the multipath for routing based on the fitness function.Finally, route maintenance is performed to ensure routing without link breakage.The proposed Adaptive-SFG outperformed other methods with high energy of0.185Jminimal delay of 0.765sec maximum throughput of47.690%and maximum network lifetime of98.7%.

show abstract

Section: Literature Surveymentioning

confidence: 99%

Adaptive-Sunflower-Based Grey Wolf Algorithm for Multipath Routing in IoT Networks

Pingale

Shinde

2021

International Journal of Business Data Communications and Networking

View full text Add to dashboard Cite

show abstract

“…However, none of the above algorithms consider the dynamic nature of WSN topology changes due to node failures. To solve the problem, Rajesh et al (2020) investigated a dynamic spectrum allocation algorithm based on fuzzy genetics. Although dynamic channel algorithms can allocate channels according to the dynamic changes of network parameters, they bring additional energy consumption and increase the energy burden of WSNs because they require frequent exchange of node information.…”

Section: Introductionmentioning

confidence: 99%

Distributed optimization game algorithm to improve energy efficiency for multi-radio multi-channel wireless sensor network

Yao,

Chen,

Wang

et al. 2024

Transactions of the Institute of Measurement and Control

View full text Add to dashboard Cite

To send and receive data simultaneously, reduce network interference, and effectively improve energy efficiency, this paper analyzes the network characteristics of Multi-Radio Multi-Channel Wireless Sensor Network and optimizes the power and channel of each radio frequency interface. Based on the novel energy efficiency model and energy consumption efficiency model, this paper establishes a distributed optimization game model using Game Theory to maximize network energy efficiency, minimize energy consumption, and ensure network connectivity. Based on the game model, an efficient distributed resource allocation game algorithm is designed, in which a joint power control and channel allocation can quickly converge to Nash Equilibrium with low complexity. At the same time, the simulation results show that the distributed resource allocation game algorithm can effectively improve the energy efficiency, reduce network interference and bit error rate to ensure the successful data transmission.

show abstract

“…For example, ISFC‐BLS 27 deploys rechargeable sensors and dynamically balances load through the maximum capacity path or MCP technique. A fuzzy genetic‐based dynamic spectrum allocation system for deciding spectrum allocation is proposed in References 28‐30 where parameters like bit error rate, signal interference noise ratio, available channel bandwidth, and sender unit (SU) transmission power are monitored continuously so that performance of the system can be optimized by reducing cost. Hybrid Energy‐Efficient Distributed clustering 31 periodically selects cluster heads depending on two parameters—residual energy and node degree.…”

Section: Introductionmentioning

confidence: 99%

Minimum energy transmission forest‐based geocast insoftware‐definedwireless sensor networks

Banerjee

Sufian

Sadiq

et al. 2021

Trans Emerging Tel Tech

View full text Add to dashboard Cite

Wireless Sensor Networks (WSNs)‐based geographic addressing and routing have many potential applications. Geocast protocols should be made energy efficient to increase the lifetime of nodes and packet delivery ratio. This technique will increase the number of live nodes, reduce message costs, and enhance network throughput. All geocast protocols in the literature of WSN apply mostly restricted flooding and perimeter flooding, which is why still the redundancy they produce significantly high message transmission costs and unnecessarily eats up immense energy of the nodes. Moreover, perimeter flooding cannot succeed in the presence of holes. The present article models WSN with software‐defined (SD) constructs where the network area is divided into some zones. Energy‐efficient transmission tree(s) are constructed in the geocast area to organize the flow of data packets and their links. Therefore, redundancy in the transmission is eliminated while maintaining network throughput as good as regular flooding. Besides, this study introduces a fuzzy controllers named SELECT‐STARTER and GEOCAST‐PROPAGATOR for intellgent energy tansmission control‐making. The proposed technique significantly reduces energy cost and improves nodes' lifetime to function for higher time duration and produce a higher data packet delivery ratio. To the best of the author's knowledge, this is the first work on geocast in SD‐WSNs.

show abstract

Fuzzy genetic based dynamic spectrum allocation approach for cognitive radio sensor networks

Cited by 20 publications

References 28 publications

Adaptive-Sunflower-Based Grey Wolf Algorithm for Multipath Routing in IoT Networks

Adaptive-Sunflower-Based Grey Wolf Algorithm for Multipath Routing in IoT Networks

Distributed optimization game algorithm to improve energy efficiency for multi-radio multi-channel wireless sensor network

Minimum energy transmission forest‐based geocast insoftware‐definedwireless sensor networks

Contact Info

Product

Resources

About