RAMP-IoD: A Robust Authenticated Key Management Protocol for the Internet of Drones

Internet of Drones (IoD) is the interconnection of unmanned aerial vehicles or drones deployed for collecting sensitive data to be used in critical applications. The drones transmit the collected data to the control room (CR) for analysis, while CR sends control commands to the drone to monitor their operations. This exchange of information between the drones and CR takes place through a wireless communication channel, which is susceptible to various security risks. Therefore, it is vital to ensure the confidentiality and integrity of such information in the IoD environment. To this end, authenticated key management (AKM) protocols can be leveraged to provide reliable and secure communication. However, due to the peculiarities associated with IoD environments, it is challenging to devise a robust and resource-efficient AKM protocol. To tackle this challenge, in this article, we propose a robust AKM protocol for IoD (RAMP-IoD). RAMP-IoD uses lightweight cryptography-based authenticated encryption primitive and elliptic-curve cryptography along with a hash function to perform the AKM process. Moreover, RAMP-IoD verifies the user's authenticity and then sets up a session key (SK) between the user and a specific drone for indecipherable communications. We verify the security of SK using the random oracle model. Scyther-based validation demonstrates that RAMP-IoD is protected against replay and man-in-the-middle attacks. Moreover, the informal analysis illustrates that RAMP-IoD is secure against various covert security attacks. Through a comparative study, we also demonstrate that RAMP-IoD provides enhanced security with low storage, communication, and computational overheads as compared to related AKM protocols.

Automated summary

This article proposes a robust authenticated key management (AKM) protocol for Internet of Drones (IoD) environment, called RAMP-IoD. RAMP-IoD utilizes lightweight cryptography-based authenticated encryption, elliptic-curve cryptography, and hash function to ensure reliable and secure communication. It verifies user authenticity and establishes an indecipherable session key (SK) for communication. Security analysis shows that RAMP-IoD is protected against replay and man-in-the-middle attacks, and is secure against various covert security attacks. Comparative study demonstrates that RAMP-IoD provides enhanced security with low storage, communication, and computational overheads compared to related AKM protocols.