Security for IoT and Autonomous Systems

Group Leader: Dr.-Ing. Mohammad Hamad

Researchers:

Research Directions

The Internet of Things (IoT) has changed how we live, becoming a key part of our daily routines. IoT technology enables devices, appliances, and machines to communicate and work together smoothly, offering greater convenience and efficiency. One major application of IoT is autonomous systems. These systems use advanced sensors, communication tools, and artificial intelligence to operate without human control. For example, autonomous vehicles can interact with other vehicles, road infrastructure, and pedestrians. Autonomous systems in various sectors aim to improve safety, reduce pollution, and make processes more efficient and eco-friendly.

However, most of the IoT systems are vulnerable to many cyber attacks, making it essential to ensure their security, particularly for safety-critical systems (such as smart vehicles) that could result in severe consequences if attacked. To address this issue, our research group focuses on innovating and developing solutions that provide intrusion prevention, detection, and response capabilities for these systems. The solutions are designed to consider the unique resources and real-time constraints, as well as the distributed and autonomous nature of these systems.

Projects

Ongoing

CyberSecDome, EU [2023 - 2026]
CyberCTF, Funded by the German French Academy (GFA) [2023-2024]
PANDORA, EU [2024 - 2027]
DTACK, GFA [2024, 2025]
SecDataGen, GFA [2024, 2025]

Completed

nIoVe, EU H2020 [2019- 2022]

Tools

Simutack: An Attack Simulation Framework for Connected and Autonomous Vehicles

Related Publications

2024

Mohammad Hamad, Andreas Finkenzeller, Michael Kühr, Andrew Roberts, Olaf Maennel, Vassilis Prevelakis, Sebastian Steinhorst. "REACT: Autonomous intrusion response system for intelligent vehicles". In: Computers & Security, 145( ), pp. . DOI: https://doi.org/10.1016/j.cose.2024.104008
Sherin Kalli Valappil, Lars Vogela, Mohammad Hamad, Sebastian Steinhorst. "Advanced IDPS Architecture for Connected and Autonomous Vehicles". In: Proceedings of the 35th IEEE Intelligent Vehicles Symposium (IEEE IV 2024). Korea.
Zain A. H. Hammadehand, Monowar Hasan, Mohammad Hamad. "Securing Real-Time Systems using Schedule Reconfiguration". In: International Symposium on Real Time Distributed Computing (ISORC 2024).
Andreas Finkenzeller, Oliver Butowski, Emanuel Regnath, Mohammad Hamad, and Sebastian Steinhorst, "PTPsec: Securing the Precision Time Protocol Against Time Delay Attacks Using Cyclic Path Asymmetry Analysis", IEEE International Conference on Computer Communications (IEEE INFOCOM)
Andrew Roberts, Mohammad Reza Heidari Iman, Mauro Bellone, Tara Ghasempouri, Olaf Maennel, Jaan Raik, Mohammad Hamad, and Sebastian Steinhorst, "ADAssure: Debugging Methodology for Autonomous Driving Control Algorithms", Design, Automation, and Test in Europe (DATE 2024)

2023

Firas Hamila, Mohammad Hamad, Daniel Costa Salgado and Sebastian Steinhorst, "Enhancing security in Fiat-Shamir transformation-based non-interactive zero-knowledge protocols for IoT authentication", International Journal of Information Security, 2023.
Mohammad Hamad, and Sebastian Steinhorst, "Security Challenges in Autonomous Systems Design", International Conference on Computational Technologies and Electronics (ICCTE 2023).
Andreas Finkenzeller, Anshu Mathur, Jan Lauinger, Mohammad Hamad, and Sebastian Steinhorst. “Simutack - An Attack Simulation Framework for Connected and Autonomous Vehicles”. In: The 2023 IEEE 97th Vehicular Technology Conference: VTC2023-Spring. Accepted. Florence, Italy, 2023.
Borna Blazevic, Michael Peter, Mohammad Hamad, and Sebastian Steinhorst, "TEEVseL4: Trusted Execution Environment for Virtualized seL4-based Systems". In: IEEE International Conference on Embedded and Real-Time Computing Systems and Applications (RTCSA 2023). Niigata, Japan, pp. 10

2022

Mohammad Hamad, Andreas Finkenzeller, Hangmao Liu, Jan Lauinger, Vassilis Prevelakis, Sebastian Steinhorst. "SEEMQTT: Secure End-to-End MQTT-Based Communication for Mobile IoT Systems Using Secret Sharing and Trust Delegation". In: IEEE Internet of Things Journal, , pp. 1-1. DOI: 10.1109/JIOT.2022.3221857
Jan Lauinger, Mohammad Hamad, Sebastian Steinhorst. "Toward a Multi-Layer Intrusion Response System for Connected Vehicles". In: The 2022 IEEE 96th Vehicular Technology Conference: VTC2022-Fall (VTC2022-Fall). London, UK, pp. 2. DOI: 10.1109/VTC2022-Fall57202.2022.10012711
Andreas Finkenzeller, Thomas Wakim, Mohammad Hamad, Sebastian Steinhorst. "Feasible Time Delay Attacks Against the Precision Time Protocol". In: IEEE Global Communications Conference (GLOBECOM 2022) . Rio de Janeiro, Brazil , pp. 6. DOI: 10.1109/GLOBECOM48099.2022.10001666M
Jan Lauinger, Andreas Finkenzeller, Henrik Lautebach, Mohammad Hamad, Sebastian Steinhorst. "Attack Data Generation Framework for Autonomous Vehicle Sensors". In: Proceedings of the Conference on Design, Automation and Test in Europe (DATE 2022) . Antwerp, Belgium, pp. 4. DOI: 10.23919/DATE54114.2022.9774542

2021

Lea Schönberger, Mohammad Hamad, Javier Velasquez Gomez, Sebastian Steinhorst, Selma Saidi. "Towards an Increased Detection Sensitivity of Time-Delay Attacks on Precision Time Protocol". In: IEEE Access, , pp. 1-1. DOI: 10.1109/ACCESS.2021.3127852
Mohammad Hamad, Emanuel Regnath, Jan Lauinger, Vassilis Prevelakis, Sebastian Steinhorst. "SPPS: Secure Policy-based Publish/Subscribe System for V2C Communication". In: Proceedings of the Conference on Design, Automation and Test in Europe (DATE 2021). Grenoble, France.