George Amponis scite author profile

Sarigiannidis

et al. 2020

Drones

With the development of more advanced and efficient control algorithms and communication architectures, UAVs and networks thereof (swarms) now find applications in nearly all possible environments and scenarios. There exist numerous schemes which accommodate routing for such networks, many of which are specifically designed for distinct use-cases. Validation and evaluation of routing schemes is implemented for the most part using simulation software. This approach is however incapable of considering real-life noise, radio propagation models, channel bit error rate and signal-to-noise ratio. Most importantly, existing frameworks or simulation software cannot sense physical-layer related information regarding power consumption which an increasing number of routing protocols utilize as a metric. The work presented in this paper contributes to the analysis of already existing routing scheme evaluation frameworks and testbeds and proposes an efficient, universal and standardized hardware testbed. Additionally, three interface modes aimed at evaluation under different scenarios are provided.

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Threatening the 5G core via PFCP DoS attacks: the case of blocking UAV communications

Radoglou-Grammatikis

et al. 2022

J Wireless Com Network

The modern communications landscape requires reliable, high-speed, high-throughput and secure links and sessions between user equipment instances and the data network. The 5G core implements the newly defined 3GPP network architecture enabling faster connectivity, low latency, higher bit rates and network reliability. The full potential of this set of networks will support a set of critical Internet of things (IoT) and industrial use cases. Nevertheless, several components and interfaces of the next-generation radio access network (NG-RAN) have proven to be vulnerable to attacks that can potentially obstruct the network’s capability to provide reliable end-to-end communication services. Various inherent security flaws and protocol-specific weaknesses have also been identified within the 5G core itself. However, little to no research has gone into testing and exposing said core-related weaknesses, contrary to those concerning the NG-RAN. In this paper, we investigate, describe, develop, implement and finally test a set of attacks on the Packet Forwarding Control Protocol (PFCP) inside the 5G core. We find that, by transmitting unauthorised session control packets, we were able to disrupt established 5G tunnels without disrupting subscribers’ connectivity to the NG-RAN, thus hindering the detection of said attacks. We evaluate the identified PFCP attacks in a drone-based scenario involving 5G tunnelling between two swarms.

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Introducing a New TCP Variant for UAV networks following comparative simulations

Simulation Modelling Practice and Theory

Τσίκνας

et al. 2023

A survey on FANET routing from a cross-layer design perspective

Journal of Systems Architecture

Sarigiannidis

et al. 2021