TY  - CHAP
U1  - Konferenzveröffentlichung
A1  - Zimmermann, Lukas
A1  - Scholz, Alexander
A1  - Tahoori, Mehdi Baradaran
A1  - Sikora, Axel
A1  - Aghassi-Hagmann, Jasmin
T1  - Hardware-Intrinsic Security with Printed Electronics for Identification of IoE Devices
T2  - 24th IEEE European Conference on Circuit Theory and Design
N2  - Novel manufacturing technologies, such as printed electronics, may enable future applications for the Internet of Everything like large-area sensor devices, disposable security, and identification tags. Printed physically unclonable functions (PUFs) are promising candidates to be embedded as hardware security keys into lightweight identification devices. We investigate hybrid PUFs based on a printed PUF core. The statistics on the intra- and inter-hamming distance distributions indicate a performance suitable for identification purposes. Our evaluations are based on statistical simulations of the PUF core circuit and the thereof generated challenge-response pairs. The analysis shows that hardware-intrinsic security features can be realized with printed lightweight devices.
Y1  - 2020
SN  - 2474-9672 (Online)
SS  - 2474-9672 (Online)
SN  - 2472-467X (Print on Demand)
SS  - 2472-467X (Print on Demand)
SN  - 978-1-7281-7183-8 (eBook)
SB  - 978-1-7281-7183-8 (eBook)
SN  - 978-1-7281-7182-1 (USB)
SB  - 978-1-7281-7182-1 (USB)
SN  - 978-1-7281-7184-5 (Print on Demand)
SB  - 978-1-7281-7184-5 (Print on Demand)
U6  - https://doi.org/10.1109/ECCTD49232.2020.9218277
DO  - https://doi.org/10.1109/ECCTD49232.2020.9218277
SP  - 4
S1  - 4
PB  - IEEE
ER  -