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author | jaseg <git@jaseg.de> | 2021-07-09 17:36:36 +0200 |
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committer | jaseg <git@jaseg.de> | 2021-07-09 17:36:36 +0200 |
commit | 304927c31bb0132f925c9e6df45c475f53326b1e (patch) | |
tree | 74b3d730f562b96ce4ffa0930de18fd963bfd614 /paper | |
parent | a13fd9f969e7adf4b3ab874556f642da2b2972fb (diff) | |
download | ihsm-304927c31bb0132f925c9e6df45c475f53326b1e.tar.gz ihsm-304927c31bb0132f925c9e6df45c475f53326b1e.tar.bz2 ihsm-304927c31bb0132f925c9e6df45c475f53326b1e.zip |
small typo fixes
Diffstat (limited to 'paper')
-rw-r--r-- | paper/ihsm.bib | 2 | ||||
-rw-r--r-- | paper/ihsm_paper.tex | 4 |
2 files changed, 3 insertions, 3 deletions
diff --git a/paper/ihsm.bib b/paper/ihsm.bib index 5c2d2c4..aa8789f 100644 --- a/paper/ihsm.bib +++ b/paper/ihsm.bib @@ -58,7 +58,7 @@ author = {Johannes Tobisch and Christian Zenger and Christof Paar}, date = {2020-03-13}, journaltitle = {TRUDEVICE 2020: 9th Workshop on Trustworthy Manufacturing and Utilization of Secure Devices}, - title = {Electromagnetic Enclosure PUF for Tamper Proofing Commodity Hardware and otherApplications}, + title = {Electromagnetic Enclosure PUF for Tamper Proofing Commodity Hardware and other Applications}, url = {https://www.emsec.ruhr-uni-bochum.de/media/crypto/veroeffentlichungen/2020/05/13/trudevice_submission_enclosure_puf.pdf}, urldate = {2020-09-17} } diff --git a/paper/ihsm_paper.tex b/paper/ihsm_paper.tex index e426306..64e94b3 100644 --- a/paper/ihsm_paper.tex +++ b/paper/ihsm_paper.tex @@ -121,8 +121,8 @@ This paper contains the following contributions: In Section~\ref{sec_related_work}, we will give an overview of the state of the art in HSM physical security. On this basis, in Section~\ref{sec_ihsm_construction} we will elaborate the principles of our Inertial HSM approach. We will analyze its weaknesses in Section~\ref{sec_attacks}. Based on these results we have built a proof of concept hardware -prototype the design of which we will elaborate in Section~\ref{sec_proto}. In Section~\ref{sec_accel_meas} we present -our characterization of an automotive MEMS accelerometer IC as a rotation sensor in this proof of concept prototype. We +prototype, whose design we will elaborate in Section~\ref{sec_proto}. In Section~\ref{sec_accel_meas} we present our +characterization of an automotive MEMS accelerometer IC as a rotation sensor in this proof of concept prototype. We conclude this paper with a general evaluation of our design in Section~\ref{sec_conclusion}. \section{Related work} |