Providing a hybrid cryptography algorithm for lightweight authentication protocol in RFID with urban traffic usage case
This addresses security and privacy issues for IoT-based urban traffic systems, but it is incremental as it builds on existing RFID authentication methods.
The paper tackles security in urban traffic management using RFID by proposing a hybrid cryptography algorithm for a lightweight mutual authentication protocol, which reduces computational complexity and resists attacks like spoofing and replay.
Today, the Internet of Things (IoT) is one of the emerging technologies that enable the connection and transfer of information through communication networks. The main idea of the IoT is the widespread presence of objects such as mobile devices, sensors, and RFID. With the increase in traffic volume in urban areas, the existing intelligent urban traffic management system based on IoT can be vital. Therefore, this paper focused on security in urban traffic based on using RFID. In our scheme, RFID tags chose as the purpose of this article. We, in this paper, present a mutual authentication protocol that leads to privacy based on hybrid cryptography. Also, an authentication process with RFID tags is proposed that can be read at high speed. The protocol has attempted to reduce the complexity of computing. At the same time, the proposed method can withstand attacks such as spoofing of tag and reader, tag tracking, and replay attack.