Johannes Götzfried


Lehrstuhl für Informatik 1 (IT-Sicherheitsinfrastrukturen)
Sonderforschungsbereich/Transregio 89 Invasives Rechnen

Project member

(Invasive Computing):
SFB/TRR 89: Security in Invasive Computing Systems
Prof. Dr.-Ing. Felix Freiling
(01/07/2014 - 30/06/2018)

Publications (Download BibTeX)

Go to first page Go to previous page 1 of 3 Go to next page Go to last page

Palutke, R., Neubaum, A., & Götzfried, J. (2019). SEVGuard: Protecting User Mode Applications using Secure Encrypted Virtualization. In SecureComm 2019 Proceedings. Orlando, US: New York City, United States of America: Springer.
Maene, P., Götzfried, J., Müller, T., de Clercq, R., Freiling, F., & Verbauwhede, I. (2018). Atlas: Application Confidentiality in Compromised Embedded Systems. IEEE Transactions on Dependable and Secure Computing.
Götzfried, J. (2018). RAM-Schranke: RAM-Verschlüsselung bei AMD und Intel. Hannover: Heise Medien GmbH & Co. KG.
Übler, D., Götzfried, J., & Müller, T. (2018). Secure Remote Computation using Intel SGX. In Sicherheit 2018 (pp. 195-205). Konstanz: Bonn: Köllen Druck+Verlag GmbH.
Lazard, T., Götzfried, J., Müller, T., Santinelli, G., & Lefebvre, V. (2018). TEEshift: Protecting Code Confidentiality by Selectively Shifting Functions into TEEs. In 3rd Workshop on System Software for Trusted Execution. Toronto, ON, Canada: ACM.
Götzfried, J. (2018). Trusted Systems in Untrusted Environments: Protecting against Strong Attackers (Dissertation).
Lefebvre, V., Santinelli, G., Müller, T., & Götzfried, J. (2018). Universal Trusted Execution Environments for Securing SDN/NFV Operations. In SBA Research (Eds.), ARES 2018: International Conference on Availability, Reliability and Security. Hamburg, Germany: Hamburg: ACM.
Götzfried, J., Eckert, M., Schinzel, S., & Müller, T. (2017). Cache Attacks on Intel SGX. In Proceedings of the Tenth European Workshop on System Security. Belgrade, Serbia.
Maene, P., Götzfried, J., de Clercq, R., Müller, T., Freiling, F., & Verbauwhede, I. (2017). Hardware-Based Trusted Computing Architectures for Isolation and Attestation. IEEE Transactions on Computers, 99.
Noorman, J., Van Bulck, J., Muhlberg, J.T., Piessens, F., Maene, P., Preneel, B.,... Freiling, F. (2017). Sancus 2.0: A Low-Cost Security Architecture for IoT Devices. ACM Transactions on Privacy and Security, 20(3).

Last updated on 2019-01-08 at 23:51