Dr. Rakesh   Tripathi

Department Information Technology
Designation Associate Professor
Educational Qualification Ph.D
E-Mail rtripathi.it@nitrr.ac.in
Contact Number 9340105510
Areas of Interest

Performance analysis of Communication Networks, Data Center Networks, Game Theory and Optimization, Distributed Algorithms, Named Data Networking (NDN),  Internet of Things (IoT), Blockchain.

Publications

Journals:

 

  1. Tripathi, Rakesh, Vignesh Sivaraman, and Venkatesh Tamarapalli. "Distributed Cost-Aware Fault-Tolerant Load Balancing in Geo-Distributed Data Centers." IEEE Transactions on Green Communications and Networking 6.1 (2021): 472-483.
  2. Kumar, Prabhat, Randhir Kumar, Govind P. Gupta, Rakesh Tripathi, and Gautam Srivastava, “P2TIF: A Blockchain and Deep Learning Framework for Privacy-preserved Threat Intelligence in Industrial IoT,” IEEE Transactions on Industrial Informatics (2022).
  3. Kumar, Prabhat, Govind P. Gupta, Rakesh Tripathi, Sahil Garg, and Mohammad Mehedi Hassan, “DLTIF: Deep Learning-Driven Cyber Threat Intelligence Modeling and Identification Framework in IoT-Enabled Maritime Transportation Systems,” IEEE Transactions on Intelligent Transportation Systems (2021).
  4. Kumar, Randhir, Prabhat Kumar, Rakesh Tripathi, Govind P. Gupta, Sahil Garg, and Mohammad Mehedi Hassan, “BDTwin: An Integrated Framework for Enhancing Security and Privacy in Cybertwin-driven Automotive Industrial Internet of Things,” IEEE Internet of Things Journal (2021).
  5. Kumar, Prabhat, Govind P. Gupta, and Rakesh Tripathi, “A distributed ensemble design-based intrusion detection system using fog computing to protect the internet of things networks,” Journal of Ambient Intelligence and Humanized Computing 12, no. 10 (2021): 9555-9572.
  6. Kumar, Prabhat, Govind P. Gupta, and Rakesh Tripathi, “PEFL: Deep Privacy-Encoding based Federated Learning Framework for Smart Agriculture,” IEEE Micro (2021).
  7. Kumar, Randhir, Prabhat Kumar, Rakesh Tripathi, Govind P. Gupta, and Neeraj Kumar, “P2SF-IoV: A privacy-preservation-based secured framework for Internet of Vehicles,” IEEE Transactions on Intelligent Transportation Systems (2021).
  8. Kumar, Randhir, Prabhat Kumar, Rakesh Tripathi, Govind P. Gupta, Neeraj Kumar, and Mohammad Mehedi Hassan, “A privacy-preserving-based secure framework using blockchain-enabled deep-learning in cooperative intelligent transport system,” IEEE Transactions on Intelligent Transportation Systems (2021).
  9. Kumar, Prabhat, Randhir Kumar, Gautam Srivastava, Govind P. Gupta, Rakesh Tripathi, Thippa Reddy Gadekallu, and Neal N. Xiong, “PPSF: a privacy-preserving and secure framework using blockchain-based machine-learning for IoT-driven smart cities,” IEEE Transactions on Network Science and Engineering 8, no. 3 (2021): 2326-2341.
  10. Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi, “An ensemble learning and fog-cloud architecture-driven cyber-attack detection framework for IoMT networks,” Elsevier Computer Communications, Volume 166,2021, Pages 110-124, ISSN 0140-3664, https://doi.org/10.1016/j.comcom.2020.12.003.
  11. Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi,”TP2SF: A Trustworthy Privacy-Preserving Secured Framework for sustainable smart cities by leveraging blockchain and machine learning,” Elsevier Journal of Systems Architecture, 2020, 101954, ISSN 1383-7621, https://doi.org/10.1016/j.sysarc.2020.101954.
  12. Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi, “Toward Design of an Intelligent Cyber Attack Detection System using Hybrid Feature Reduced Approach for IoT Networks” Springer Arab J Sci Eng (2021). https://doi.org/10.1007/s13369-020-05181-3
  13. Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi,” A distributed ensemble design-based intrusion detection system using fog computing to protect the internet of things networks,” Journal of Ambient Intelligence and Humanized Computing (2020). https://doi.org/10.1007/s12652-020-02696-3
  14. Prabhat Kumar, Randhir Kumar, Govind P. Gupta, Rakesh Tripathi,” A Distributed framework for detecting DDoS attacks in smart contract‐based Blockchain‐IoT Systems by leveraging Fog computing,” Trans Emerging Tel Tech. 2020; e4112. https://doi.org/10.1002/ett.4112
  15. Tripathi, Rakesh, S. Vignesh, and Venkatesh Tamarapalli. "Optimizing green energy, cost, and availability in distributed data centers." IEEE Communications Letters 21.3 (2016): 500-503.
  16. Tripathi, Rakesh, et al. "Non-cooperative power and latency aware load balancing in distributed data centers." Journal of Parallel and Distributed Computing 107 (2017): 76-86.
  17. Tripathi, Rakesh, et al. "Cost efficient design of fault tolerant geo-distributed data centers." IEEE Transactions on Network and Service Management 14.2 (2017): 289-301.
  18. Kumar, Randhir, and Rakesh Tripathi. "DBTP2SF: a deep blockchain‐based trustworthy privacy‐preserving secured framework in industrial internet of things systems." Transactions on Emerging Telecommunications Technologies 32.4 (2021): e4222.
  19. Kumar, Randhir, and Rakesh Tripathi. "Data provenance and access control rules for ownership transfer using blockchain." International Journal of Information Security and Privacy (IJISP) 15.2 (2021): 87-112.
  20. Kumar, Randhir, and Rakesh Tripathi. "Scalable and secure access control policy for healthcare system using blockchain and enhanced Bell–LaPadula model." Journal of Ambient Intelligence and Humanized Computing 12 (2021): 2321-2338.
  21. Najm, Moustafa, Rakesh Tripathi, Mohammad Shadi Alhakeem, and Venkatesh Tamarapalli. "A cost-aware management framework for placement of data-intensive applications on federated cloud." Journal of Network and Systems Management 29 (2021): 1-33.
  22. Kumar, Randhir, Rakesh Tripathi, Ningrinla Marchang, Gautam Srivastava, Thippa Reddy Gadekallu, and Neal N. Xiong. "A secured distributed detection system based on IPFS and blockchain for industrial image and video data security." Journal of Parallel and Distributed Computing 152 (2021): 128-143.
  23. Kumar, Randhir, and Rakesh Tripathi. "Towards design and implementation of security and privacy framework for internet of medical things (iomt) by leveraging blockchain and ipfs technology." the Journal of Supercomputing (2021): 1-40.
  24. Kumar, Randhir, Prabhat Kumar, Rakesh Tripathi, Govind P. Gupta, Thippa Reddy Gadekallu, and Gautam Srivastava. "SP2F: A secured privacy-preserving framework for smart agricultural Unmanned Aerial Vehicles." Computer Networks 187 (2021): 107819.

Conferences:

  1. Prabhat Kumar, Govind P. Gupta, Rakesh Tripathi “P2IDF: A Privacy-Preserving based Intrusion Detection Framework for Software Defined Internet of Things-Fog (SDIoT-Fog)”, 22nd International Conference on Distributed Computing and Networking (ICDCN-21), January 2021 Pages 37–42. https://doi.org/10.1145/3427477.3429989
  2. Kumar, Randhir, Ningrinla Marchang, and Rakesh Tripathi. "Distributed off-chain storage of patient diagnostic reports in healthcare system using IPFS and blockchain." 2020 International conference on communication systems & networks (COMSNETS). IEEE, 2020.
  3. Kumar, Randhir, and Rakesh Tripathi. "A Secure and Distributed Framework for sharing COVID-19 patient Reports using Consortium Blockchain and IPFS." 2020 Sixth International Conference on Parallel, Distributed and Grid Computing (PDGC). IEEE, 2020.
  4. Kumar, Randhir, and Rakesh Tripathi. "Traceability of counterfeit medicine supply chain through Blockchain." 2019 11th international conference on communication systems & networks (COMSNETS). IEEE, 2019.
  5. Kumar, Randhir, and Rakesh Tripathi. "Implementation of distributed file storage and access framework using IPFS and blockchain." 2019 Fifth International Conference on Image Information Processing (ICIIP). IEEE, 2019.
  6. Tripathi, Rakesh, S. Vignesh, and Venkatesh Tamarapalli. "Towards cost-effective capacity provisioning for fault-tolerant green distributed data centers." 2016 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS). IEEE, 2016.
  7. Vignesh, S., Rakesh Tripathi, and Venkatesh Tamarapalli. "Minimizing the cost of designing fault-tolerant CDN data centers." 2016 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS). IEEE, 2016.
  8. Tripathi, Rakesh, S. Vignesh, and Venkatesh Tamarapalli. "Cost-aware capacity provisioning for fault-tolerant geo-distributed data centers." 2016 8th International Conference on Communication Systems and Networks (COMSNETS). IEEE, 2016.
  9. Tripathi, Rakesh, S. Vignesh, and Venkatesh Tamarapalli. "Minimizing cost of provisioning in fault-tolerant distributed data centers with durability constraints." 2016 IEEE International Conference on Communications (ICC). IEEE, 2016.

Book Chapters:

  1. Kumar, Randhir, and Rakesh Tripathi. "Secure healthcare framework using blockchain and public key cryptography." Blockchain Cybersecurity, Trust and Privacy (2020): 185-202.
  2. Kumar, Randhir, and Rakesh Tripathi. "Blockchain-based framework for data storage in peer-to-peer scheme using interplanetary file system." Handbook of research on blockchain technology. Academic Press, 2020. 35-59.
  3. Kumar, Prabhat, Govind P. Gupta, and Rakesh Tripathi. "A Review on Intrusion Detection System and Cyber Threat Intelligence for Secure IoT-enabled Networks: Towards a privacy and security perspective (2023):51.
  4. Kumar, R., & Tripathi, R. Large-Scale Data Storage Scheme in Blockchain Ledger Using IPFS and NoSQL. In Large-Scale Data Streaming, Processing, and Blockchain Security (pp. 91-116). IGI Global.

  5. Kumar, R., & Tripathi, R. Content-Based Transaction Access From Distributed Ledger of Blockchain Using Average Hash Technique. In Opportunities and Challenges for Blockchain Technology in Autonomous Vehicles (pp. 34-50). IGI Global.

  6. Kumar, R., & Tripathi, R. Building an IPFS and Blockchain-Based Decentralized Storage Model for Medical Imaging. In Advancements in Security and Privacy Initiatives for Multimedia Images (pp. 19-40). IGI Global.

1.       Kumar, Prabhat, Govind P. Gupta, and Rakesh Tripathi. "A Review on Intrusion Detection System and Cyber Threat Intelligence for Secure IoT-enabled Network: Challenges and Directions." Big Data Analytics in Fog-Enabled IoT Networks: Towards a Privacy and Security Perspective (2023): 51. 

Other Info.