Panos Chatziadam scite author profile

2014

Abstract. Wireless network technologies offer ubiquitous broadband access to millions of users at an affordable cost. However, the broadband nature of the wireless medium make these networks vulnerable to a number of attacks. Malicious interference at the physical layer, and extended packet collisions at the medium access layer can cause significant DoS attacks. In this work, we show how off-the-shelf hardware can be used to create devastating DoS attacks in a IEEE 802.11 network. Moreover, we present two algorithms for attack detection that are based on the cumulative sum algorithm.

A Network Telescope for Early Warning Intrusion Detection

Askoxylakis

Fragkiadakis

2014

Proactive cyber-security tools provide basic protection as today's cyber-criminals utilize legitimate traffic to perform attacks and remain concealed quite often until it is too late. As critical resources, hidden behind layers of cyber-defenses, can still become compromised with potentially catastrophic consequences, it is of paramount significance to be able to identify cyber-attacks and prepare a proper defense as early as possible. In this paper we will go over the architecture, deployment and usefulness of a distributed network of honeypots that relies on darknets to obtain its data. As we have envisioned that such a system has the potential to detect large scale events as early as possible we have adopted the name Early Warning Intrusion System (EWIS).

Early Warning Intrusion Detection System

Askoxylakis

Petroulakis

et al. 2014

NextGEM: Next-Generation Integrated Sensing and Analytical System for Monitoring and Assessing Radiofrequency Electromagnetic Field Exposure and Health

Petroulakis

Mattsson²,

et al. 2023

IJERPH

The evolution of emerging technologies that use Radio Frequency Electromagnetic Field (RF-EMF) has increased the interest of the scientific community and society regarding the possible adverse effects on human health and the environment. This article provides NextGEM’s vision to assure safety for EU citizens when employing existing and future EMF-based telecommunication technologies. This is accomplished by generating relevant knowledge that ascertains appropriate prevention and control/actuation actions regarding RF-EMF exposure in residential, public, and occupational settings. Fulfilling this vision, NextGEM commits to the need for a healthy living and working environment under safe RF-EMF exposure conditions that can be trusted by people and be in line with the regulations and laws developed by public authorities. NextGEM provides a framework for generating health-relevant scientific knowledge and data on new scenarios of exposure to RF-EMF in multiple frequency bands and developing and validating tools for evidence-based risk assessment. Finally, NextGEM’s Innovation and Knowledge Hub (NIKH) will offer a standardized way for European regulatory authorities and the scientific community to store and assess project outcomes and provide access to findable, accessible, interoperable, and reusable (FAIR) data.

WARDOG: Awareness Detection Watchdog for Botnet Infection on the Host Device

Hatzivasilis

Soultatos

IEEE Trans. Sustain. Comput.

et al. 2021

Botnets constitute nowadays one of the most dangerous security threats worldwide. High volumes of infected machines are controlled by a malicious entity and perform coordinated cyber-attacks. The problem will become even worse in the era of the Internet of Things (IoT) as the number of insecure devices is going to be exponentially increased. This paper presents WARDOG-an awareness and digital forensic system that informs the end-user of the botnet's infection, exposes the botnet infrastructure, and captures verifiable data that can be utilized in a court of law. The responsible authority gathers all information and automatically generates a unitary documentation for the case. The document contains undisputed forensic information, tracking all involved parties and their role in the attack. The deployed security mechanisms and the overall administration setting ensures non-repudiation of performed actions and enforces accountability. The provided properties are verified through theoretic analysis. In simulated environment, the effectiveness of the proposed solution, in mitigating the botnet operations, is also tested against real attack strategies that have been captured by the FORTHcert honeypots, overcoming state-of-the-art solutions. Moreover, a preliminary version is implemented in real computers and IoT devices, highlighting the low computational/communicational overheads of WARDOG in the field.