Secured Data Retrieval Disruption Tolerant Network

Authors

  • Deshkar P M.Tech, Department of Computer Science & Engineering, Jhulelal Institute of Technology, Nagpur, India
  • Pampatwar A M.Tech, Department of Computer Science & Engineering, Jhulelal Institute of Technology, Nagpur, India
  • Syeda R M.Tech, Department of Computer Science & Engineering, Jhulelal Institute of Technology, Nagpur, India

Keywords:

Internet of Things, machine learning, cloud data, forecasting,, load

Abstract

Disruption-tolerant network (DTN) technologies are becoming successful solutions that allow wireless devices carried by soldiers to communicate with each other and access the confidential information or command reliably by exploiting external storage nodes. Some of the most challenging issues in this scenario are the enforcement of authorization policies and the policies update for secure data retrieval. However, the problem of applying CP-ABE in decentralized DTNs introduces several security and privacy challenges with regard to the attribute revocation, key escrow, and coordination of attributes issued from different authorities. We demonstrate how to apply the proposed mechanism to securely and efficiently manage the confidential data distributed in the disruption-tolerant military network.

References

[1] J. Burgess, B. Gallagher, D. Jensen, and B. N. Levine, “Maxprop:Routing for vehicle-based disruption tolerant networks,” in Proc.IEEE INFOCOM, 2006, pp. 1–11.

[2] M. Chuah and P. Yang, “Node density-based adaptive routing scheme for disruption tolerant networks,” in Proc. IEEE MILCOM, 2006, pp.

[3] M. M. B. Tariq, M. Ammar, and E. Zequra, “Mesage ferry route design for sparse ad hoc networks with mobile nodes,” in Proc. ACM

[4] S. Roy andM. Chuah, “Secure data retrieval based on ciphertext policy attribute-based encryption (CP-ABE) system for the DTNs,” Lehigh CSE Tech. Rep., 2009.

[5] M. Chuah and P. Yang, “Performance evaluation of content-based information retrieval schemes for DTNs,” in Proc. IEEE MILCOM,

[6] M. Kallahalla, E. Riedel, R. Swaminathan, Q. Wang, and K. Fu, “Plutus: Scalable secure file sharing on untrusted storage,” in Proc. Conf. File Storage Technol., 2003, pp. 29–42.

[7] Wang, L.M.; Shi, Y. Patrol detection for replica attacks on wireless sensor networks. Sensors 2011, 11, 2496–2504.

[8] Zhu, S.; Setia, S.; Jajodia, S.; Ning, P.Interleaved hop-by-hop authentication against false data injection attacks in sensor networks. ACM Trans. Sensor Netw. 2007.

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Published

2025-11-25

How to Cite

[1]
P. Deshkar, A. Pampatwar, and R. Syeda, “Secured Data Retrieval Disruption Tolerant Network”, Int. J. Comp. Sci. Eng., vol. 7, no. 12, pp. 101–104, Nov. 2025.

Issue

Vol. 7 No. 12 (2019): IJCSE Special Issue May Edition

Section

Research Article

License

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