| Autor: |
C.K. Subbaraya, H. R. Roopashree, N. L. Taranath, A. C. Yogeesh, L. M. Darshan |
| Rok vydání: |
2021 |
| Předmět: |
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| Zdroj: |
Lecture Notes on Data Engineering and Communications Technologies ISBN: 9789811634505 |
| DOI: |
10.1007/978-981-16-3448-2_12 |
| Popis: |
The prime research goal of the study is to address the security problems in WSN communication in order to safeguard information exchange over various potential critical applications integrated with different radio-frequency (RF) channels. It has also evaluated the background of security limitations in WSN by investigating significant scientific literatures and its impact on other performance aspects from energy viewpoint. The design limitations associated with the existing secure routing approaches shows that most of the working principles of routing only limited toward privacy protection of data and the importance of energy consumption minimization are to some extent ignored and overlooked. Thereby, the research goal defined in this study is to minimize the security loopholes in WSN with higher degree of intrusion detection and prevention. Thereby, the study formulates a novel tree-based strategy which is exclusively meant for secure and energy-efficient hierarchical routing in WSN. The system modeling of the formulated approach consists of three different solution spaces such as (i) a framework for energy-efficient secure routing (FEESR), which incorporates a novel tree-based approach is introduced in this study, followed by two more approaches such as (ii) delay sensitive protocol for intelligent routing (DSP-IR) and an optimized and roust sandboxing approach (ORSA). All the solution approaches are designed in a way where these all jointly addresses the security problems of WSN without compromising the energy aspects. The study introduces a novel optimization policy to balance the trade-off between energy and security aspects. The experimental simulation of the proposed analytical modelings is carried out in a numerical computing platform with respect to mathematical computation principle. The performance validation of the models FEESR, DSP-IR, and ORSA are done with respect to different significant parameters where the comparison has been done with the most significant energy-efficient and secure routing baselines. The Simulation outcome obtained for all the analytical models shows that the study outperforms the conventional baselines from both energy and security viewpoint. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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