ICTACT Journal on Communication Technology

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Securing and Advancing Road Safety in Intelligent Vehicular Networks for Seamless and Secure Communication


Affiliations
1 Department of Computer Science with Data Analytics, PSG College of Arts and Science, India
2 Department of Information Technology, St. Joseph's College of Engineering, India
3 Department of Electronics and Communication Engineering, Manav Rachna University, India
4 Department of Computer Science and Engineering, Maulana Azad National Urdu University, India
     

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Intelligent vehicular networks leverage communication technologies to enable vehicles to interact with each other and with infrastructure elements, such as roadside units and traffic signals, to enhance road safety and efficiency. However, the open nature of these networks exposes them to various security threats, including data interception, tampering, and unauthorized access. Traditional encryption methods may not suffice to address these challenges, necessitating the adoption of advanced cryptographic techniques like ECC and RSA. Prior research in the field has primarily focused on either enhancing communication protocols or improving security measures independently. However, there is a notable gap in research that comprehensively addresses both aspects simultaneously. This study aims to fill this void by proposing an integrated approach that ensures both seamless communication and robust security in intelligent vehicular networks. The proposed methodology involves the design and implementation of a hybrid cryptographic scheme combining ECC and RSA algorithms. This scheme will be integrated into the existing communication infrastructure of intelligent vehicular networks. The performance of the system will be evaluated through simulations and real-world experiments to assess its effectiveness in securing communication channels while minimizing overhead. The results show the effectiveness of the proposed ECC-RSA hybrid encryption scheme in securing communication channels within intelligent vehicular networks. The integration of ECC and RSA protocols not only enhances the security of data transmission but also ensures seamless communication, thereby advancing road safety in intelligent vehicular environments.

Keywords

Intelligent Vehicular Networks, Road Safety, Elliptic Curve Cryptography, RSA Communication, Secure Communication.
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  • Securing and Advancing Road Safety in Intelligent Vehicular Networks for Seamless and Secure Communication

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Authors

R. Saranya
Department of Computer Science with Data Analytics, PSG College of Arts and Science, India
A. Tamizhselvi
Department of Information Technology, St. Joseph's College of Engineering, India
Piyush Charan
Department of Electronics and Communication Engineering, Manav Rachna University, India
Syed Arfath Ahmed
Department of Computer Science and Engineering, Maulana Azad National Urdu University, India

Abstract


Intelligent vehicular networks leverage communication technologies to enable vehicles to interact with each other and with infrastructure elements, such as roadside units and traffic signals, to enhance road safety and efficiency. However, the open nature of these networks exposes them to various security threats, including data interception, tampering, and unauthorized access. Traditional encryption methods may not suffice to address these challenges, necessitating the adoption of advanced cryptographic techniques like ECC and RSA. Prior research in the field has primarily focused on either enhancing communication protocols or improving security measures independently. However, there is a notable gap in research that comprehensively addresses both aspects simultaneously. This study aims to fill this void by proposing an integrated approach that ensures both seamless communication and robust security in intelligent vehicular networks. The proposed methodology involves the design and implementation of a hybrid cryptographic scheme combining ECC and RSA algorithms. This scheme will be integrated into the existing communication infrastructure of intelligent vehicular networks. The performance of the system will be evaluated through simulations and real-world experiments to assess its effectiveness in securing communication channels while minimizing overhead. The results show the effectiveness of the proposed ECC-RSA hybrid encryption scheme in securing communication channels within intelligent vehicular networks. The integration of ECC and RSA protocols not only enhances the security of data transmission but also ensures seamless communication, thereby advancing road safety in intelligent vehicular environments.

Keywords


Intelligent Vehicular Networks, Road Safety, Elliptic Curve Cryptography, RSA Communication, Secure Communication.

References