ARCHIVES
Research Article
Enhancing Secure Communication in VANETs with Blockchain and Privacy Using PSOACO Algorithm with ETC & RF Classifiers
J. Chandra Sekhar1
Dr.K.Logesh2
1PG Scholar, Department of Computer Science and Engineering, Kuppam Engineering College, KES Nagar, Kuppam, Andhra Pradesh, India. 2Associate Professor, Department of Computer Science and Engineering, Kuppam Engineering College, KES Nagar, Kuppam, Andhra Pradesh, India.
Published Online: July-August 2024
Pages: 27-32
Cite this article
↗ https://www.doi.org/10.59256/ijire.20240504006
References
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https://doi.org/10.1007/s42979-023-02122-3
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Communications and Networks,2023, https://doi.org/ 10.1016/ j. dcan. 2023.01. 021.
[3]. S D, V. S., & C J, P. (2023). A Consider on Vision Based Path Discovery Strategies for Progressed Driver Help Frameworks.
Universal Diary of Computer Building in Inquire about Patterns, 10(8), 1–10.
[4]. M, P., & K, D. S. D. (2023). ICN Plot and Intermediary re-encryption for Security Information Sharing on the Square Chain.
Worldwide Diary of Computer Designing in Investigate Patterns, 10(4), 172–176.
[5]. S. K. Dwivedi, R. Amin, A. K. Das, M. T. Leung, K.-K. R. Choo, and S. Vollala, “Blockchain-based vehicular ad-hoc systems: A
comprehensive survey,” Advertisement Hoc Netw., vol. 137, no. 102980, p. 102980, 2022.
[6]. R. Shrestha, R. Bajracharya, A. P. Shrestha, and S. Y. Nam, “A unused sort of blockchain for secure message trade in VANET,”
Digit. Commun. Netw., vol. 6, no. 2, pp. 177–186, 2020.
[7]. M. Saad, M. K. Khan, and M. B. Ahmad, “Blockchain-enabled vehicular advertisement hoc systems: A orderly writing review,”
Maintainability, vol. 14, no. 7, p. 3919, 2022.
[8]. M. Arif, W. Balzano, A. Fontanella, S. Stranieri, G. Wang, and X. Xing, “Integration of 5G, VANETs and Blockchain Technology,”
in 2020 IEEE 19th Worldwide Conference on Believe, Security and Security in Computing and Communications (TrustCom), 2020,
pp. 2007–2013.
[9]. M Bhavsingh, B.Pannalal, & K Samunnisa. (2022). Audit: Person on foot Behavior Examination and Direction Expectation with
Profound Learning. Worldwide Diary of Computer Designing in Investigate Patterns, 9(12), 263–268.
[10]. Ravikumar, G. ., Begum, Z. ., Kumar, A. S. ., Kiranmai, V., Bhavsingh, M., & Kumar, O. K. . (2022). Cloud Have Determination
utilizing Iterative Particle-Swarm Optimization for Energetic Holder Union. Worldwide Diary on Later and Development Patterns
in Computing and Communication, 10(1s), 247–253. https://doi.org/10.17762/ijritcc.v10i1s.5846.
[11]. Peng, C. Wu, L. Gao, J. Zhang, K.-L. Alvin Yau, and Y. Ji, “Blockchain for vehicular Web of Things: Later propels and open
issues,” Sensors (Basel), vol. 20, no. 18, p. 5079, 2020.
[12]. K. Kaltakis, P. Polyzi, G. Drosatos, and K. Rantos, “Privacy-preserving arrangements in blockchain-enabled Web of vehicles,”
Appl. Sci. (Basel), vol. 11, no. 21, p. 9792, 2021.
[13]. M. R. Arun, Prof. M. R. Sheeba, & Prof. F. Shabina Fred Rishma. (2020). Comparing BlockChain with other Cryptographic
Innovations (DAG, Hashgraph, Holochain). Universal Diary of Computer Building in Investigate Patterns, 7(4), 13–19.
[14]. N. Parikh and M. L. Das, “Privacy-preserving administrations in VANET with misbehavior detection,” in 2017 IEEE Universal
Conference on Progressed Systems and Broadcast communications Frameworks (ANTS), 2017, pp. 1–6.
[15]. S. K. A. Theodore, K. R. Gandhi, and V. Palanisamy, “A novel lightweight confirmation and privacy-preserving convention for
vehicular advertisement hoc networks,” Complex Intell. Syst., vol. 9, no. 3, pp. 2981–2991, 2023.
[16]. W. Ahmed, W. Di, and D. Mukathe, “Privacy protecting blockchain‐based confirmation and believe administration in VANETs,”
IET Netw., vol. 11, no. 3–4, pp. 89–111, 2022.
[17]. S D, V. S., & C J, P. (2023). A Consider on Vision Based Path Discovery Strategies for Progressed Driver Help Frameworks.
Universal Diary of Computer Building in Inquire about Patterns, 10(8), 1–10.
[18]. M, P., & K, D. S. D. (2023). ICN Conspire and Intermediary re-encryption for Security Information Sharing on the Piece Chain.
Universal Diary of Computer Designing in Investigate Patterns, 10(4), 172–176.
[19]. S. K. Dwivedi, R. Amin, A. K. Das, M. T. Leung, K.-K. R. Choo, and S. Vollala, “Blockchain-based vehicular ad-hoc systems: A
comprehensive survey,” Advertisement Hoc Netw., vol. 137, no. 102980, p. 102980, 2022.
[20]. R. Shrestha, R. Bajracharya, A. P. Shrestha, and S. Y. Nam, “A unused sort of blockchain for secure message trade in VANET,”
Digit. Commun. Netw., vol. 6, no. 2, pp. 177–186, 2020.
[21]. M. Saad, M. K. Khan, and M. B. Ahmad, “Blockchain-enabled vehicular advertisement hoc systems: A precise writing review,”
Maintainability, vol. 14, no. 7, p. 3919, 2022.
[22]. M. Arif, W. Balzano, A. Fontanella, S. Stranieri, G. Wang, and X. Xing, “Integration of 5G, VANETs and Blockchain Technology,”
in 2020 IEEE 19th Universal Conference on Believe, Security and Security in Computing and Communications (TrustCom), 2020,
pp. 2007–2013.
[23]. M Bhavsingh, B.Pannalal, & K Samunnisa. (2022). Survey: Person on foot Behavior Investigation and Direction Expectation with
Profound Learning. Universal Diary of Computer Designing in Investigate Patterns, 9(12), 263–268.
[24]. Ravikumar, G. ., Begum, Z. ., Kumar, A. S. ., Kiranmai, V., Bhavsingh, M., & Kumar, O. K. . (2022). Cloud Have Choice utilizing
Iterative Particle-Swarm Optimization for Energetic Holder Union. Universal Diary on Later and Advancement Patterns in
Computing and Communication, 10(1s), 247–253. https://doi.org/10.17762/ijritcc.v10i1s.5846.
[25]. Peng, C. Wu, L. Gao, J. Zhang, K.-L. Alvin Yau, and Y. Ji, “Blockchain for vehicular Web of Things: Later propels and open
issues,” Sensors (Basel), vol. 20, no. 18, p. 5079, 2020.
[26]. K. Kaltakis, P. Polyzi, G. Drosatos, and K. Rantos, “Privacy-preserving arrangements in blockchain-enabled Web of vehicles,”
Appl. Sci. (Basel), vol. 11, no. 21, p. 9792, 2021.
[27]. M. R. Arun, Prof. M. R. Sheeba, & Prof. F. Shabina Fred Rishma. (2020). Comparing BlockChain with other Cryptographic
Advances (DAG, Hashgraph, Holochain). Universal Diary of Computer Building in Inquire about Patterns, 7(4), 13–19.
[28]. N. Parikh and M. L. Das, “Privacy-preserving administrations in VANET with misbehavior detection,” in 2017 IEEE Worldwide
Conference on Progressed Systems and Broadcast communications Frameworks (ANTS), 2017, pp. 1–6.
[29]. S. K. A. Theodore, K. R. Gandhi, and V. Palanisamy, “A novel lightweight verification and privacy-preserving convention for
vehicular advertisement hoc networks,” Complex Intell. Syst., vol. 9, no. 3, pp. 2981–2991, 2023.
[30]. W. Ahmed, W. Di, and D. Mukathe, “Privacy protecting blockchain‐based confirmation and believe administration in VANETs,”
IET Netw., vol. 11, no. 3–4, pp. 89–111, 2022
https://doi.org/10.1007/s42979-023-02122-3
[2]. Fei Tang, Chunliang Ma, Kefei Cheng, Privacy-preserving verification plot based on zero believe design, Advanced
Communications and Networks,2023, https://doi.org/ 10.1016/ j. dcan. 2023.01. 021.
[3]. S D, V. S., & C J, P. (2023). A Consider on Vision Based Path Discovery Strategies for Progressed Driver Help Frameworks.
Universal Diary of Computer Building in Inquire about Patterns, 10(8), 1–10.
[4]. M, P., & K, D. S. D. (2023). ICN Plot and Intermediary re-encryption for Security Information Sharing on the Square Chain.
Worldwide Diary of Computer Designing in Investigate Patterns, 10(4), 172–176.
[5]. S. K. Dwivedi, R. Amin, A. K. Das, M. T. Leung, K.-K. R. Choo, and S. Vollala, “Blockchain-based vehicular ad-hoc systems: A
comprehensive survey,” Advertisement Hoc Netw., vol. 137, no. 102980, p. 102980, 2022.
[6]. R. Shrestha, R. Bajracharya, A. P. Shrestha, and S. Y. Nam, “A unused sort of blockchain for secure message trade in VANET,”
Digit. Commun. Netw., vol. 6, no. 2, pp. 177–186, 2020.
[7]. M. Saad, M. K. Khan, and M. B. Ahmad, “Blockchain-enabled vehicular advertisement hoc systems: A orderly writing review,”
Maintainability, vol. 14, no. 7, p. 3919, 2022.
[8]. M. Arif, W. Balzano, A. Fontanella, S. Stranieri, G. Wang, and X. Xing, “Integration of 5G, VANETs and Blockchain Technology,”
in 2020 IEEE 19th Worldwide Conference on Believe, Security and Security in Computing and Communications (TrustCom), 2020,
pp. 2007–2013.
[9]. M Bhavsingh, B.Pannalal, & K Samunnisa. (2022). Audit: Person on foot Behavior Examination and Direction Expectation with
Profound Learning. Worldwide Diary of Computer Designing in Investigate Patterns, 9(12), 263–268.
[10]. Ravikumar, G. ., Begum, Z. ., Kumar, A. S. ., Kiranmai, V., Bhavsingh, M., & Kumar, O. K. . (2022). Cloud Have Determination
utilizing Iterative Particle-Swarm Optimization for Energetic Holder Union. Worldwide Diary on Later and Development Patterns
in Computing and Communication, 10(1s), 247–253. https://doi.org/10.17762/ijritcc.v10i1s.5846.
[11]. Peng, C. Wu, L. Gao, J. Zhang, K.-L. Alvin Yau, and Y. Ji, “Blockchain for vehicular Web of Things: Later propels and open
issues,” Sensors (Basel), vol. 20, no. 18, p. 5079, 2020.
[12]. K. Kaltakis, P. Polyzi, G. Drosatos, and K. Rantos, “Privacy-preserving arrangements in blockchain-enabled Web of vehicles,”
Appl. Sci. (Basel), vol. 11, no. 21, p. 9792, 2021.
[13]. M. R. Arun, Prof. M. R. Sheeba, & Prof. F. Shabina Fred Rishma. (2020). Comparing BlockChain with other Cryptographic
Innovations (DAG, Hashgraph, Holochain). Universal Diary of Computer Building in Investigate Patterns, 7(4), 13–19.
[14]. N. Parikh and M. L. Das, “Privacy-preserving administrations in VANET with misbehavior detection,” in 2017 IEEE Universal
Conference on Progressed Systems and Broadcast communications Frameworks (ANTS), 2017, pp. 1–6.
[15]. S. K. A. Theodore, K. R. Gandhi, and V. Palanisamy, “A novel lightweight confirmation and privacy-preserving convention for
vehicular advertisement hoc networks,” Complex Intell. Syst., vol. 9, no. 3, pp. 2981–2991, 2023.
[16]. W. Ahmed, W. Di, and D. Mukathe, “Privacy protecting blockchain‐based confirmation and believe administration in VANETs,”
IET Netw., vol. 11, no. 3–4, pp. 89–111, 2022.
[17]. S D, V. S., & C J, P. (2023). A Consider on Vision Based Path Discovery Strategies for Progressed Driver Help Frameworks.
Universal Diary of Computer Building in Inquire about Patterns, 10(8), 1–10.
[18]. M, P., & K, D. S. D. (2023). ICN Conspire and Intermediary re-encryption for Security Information Sharing on the Piece Chain.
Universal Diary of Computer Designing in Investigate Patterns, 10(4), 172–176.
[19]. S. K. Dwivedi, R. Amin, A. K. Das, M. T. Leung, K.-K. R. Choo, and S. Vollala, “Blockchain-based vehicular ad-hoc systems: A
comprehensive survey,” Advertisement Hoc Netw., vol. 137, no. 102980, p. 102980, 2022.
[20]. R. Shrestha, R. Bajracharya, A. P. Shrestha, and S. Y. Nam, “A unused sort of blockchain for secure message trade in VANET,”
Digit. Commun. Netw., vol. 6, no. 2, pp. 177–186, 2020.
[21]. M. Saad, M. K. Khan, and M. B. Ahmad, “Blockchain-enabled vehicular advertisement hoc systems: A precise writing review,”
Maintainability, vol. 14, no. 7, p. 3919, 2022.
[22]. M. Arif, W. Balzano, A. Fontanella, S. Stranieri, G. Wang, and X. Xing, “Integration of 5G, VANETs and Blockchain Technology,”
in 2020 IEEE 19th Universal Conference on Believe, Security and Security in Computing and Communications (TrustCom), 2020,
pp. 2007–2013.
[23]. M Bhavsingh, B.Pannalal, & K Samunnisa. (2022). Survey: Person on foot Behavior Investigation and Direction Expectation with
Profound Learning. Universal Diary of Computer Designing in Investigate Patterns, 9(12), 263–268.
[24]. Ravikumar, G. ., Begum, Z. ., Kumar, A. S. ., Kiranmai, V., Bhavsingh, M., & Kumar, O. K. . (2022). Cloud Have Choice utilizing
Iterative Particle-Swarm Optimization for Energetic Holder Union. Universal Diary on Later and Advancement Patterns in
Computing and Communication, 10(1s), 247–253. https://doi.org/10.17762/ijritcc.v10i1s.5846.
[25]. Peng, C. Wu, L. Gao, J. Zhang, K.-L. Alvin Yau, and Y. Ji, “Blockchain for vehicular Web of Things: Later propels and open
issues,” Sensors (Basel), vol. 20, no. 18, p. 5079, 2020.
[26]. K. Kaltakis, P. Polyzi, G. Drosatos, and K. Rantos, “Privacy-preserving arrangements in blockchain-enabled Web of vehicles,”
Appl. Sci. (Basel), vol. 11, no. 21, p. 9792, 2021.
[27]. M. R. Arun, Prof. M. R. Sheeba, & Prof. F. Shabina Fred Rishma. (2020). Comparing BlockChain with other Cryptographic
Advances (DAG, Hashgraph, Holochain). Universal Diary of Computer Building in Inquire about Patterns, 7(4), 13–19.
[28]. N. Parikh and M. L. Das, “Privacy-preserving administrations in VANET with misbehavior detection,” in 2017 IEEE Worldwide
Conference on Progressed Systems and Broadcast communications Frameworks (ANTS), 2017, pp. 1–6.
[29]. S. K. A. Theodore, K. R. Gandhi, and V. Palanisamy, “A novel lightweight verification and privacy-preserving convention for
vehicular advertisement hoc networks,” Complex Intell. Syst., vol. 9, no. 3, pp. 2981–2991, 2023.
[30]. W. Ahmed, W. Di, and D. Mukathe, “Privacy protecting blockchain‐based confirmation and believe administration in VANETs,”
IET Netw., vol. 11, no. 3–4, pp. 89–111, 2022
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