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Model-Based Evaluation of GPS Spoofing AttacksIlge Akkaya, Patricia Derler, Edward A. Lee
Citation
Ilge Akkaya, Patricia Derler, Edward A. Lee. "Model-Based Evaluation of GPS Spoofing Attacks". To appear in Proceedings of the IEEE Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES), 20, May, 2013.
Abstract
Emerging cyber-physical system (CPS) applications
require reliable time synchronization to enable
distributed control and sensing applications.
However, time reference signals are vulnerable to
attacks that could remain undetected for a long
time. Sensor-rich distributed CPS such as the
"smart grid" highly rely on GPS and similar time
references for sub-station clock synchronization.
The vulnerability of time synchronization
protocols to spoofing attacks is a potential risk
factor that may lead to falsified sensor readings
and, at a larger scale, may become hazardous for
system safety. This paper describes a
simulation-based assessment of the effect of time
accuracy on time-centric power system
applications. In particular, the vulnerability of
power grid sensors to erroneous time references
and the potential risks of time spoofing on power
grid health are studied, using the Ptolemy
modeling and simulation tool. Two GPS spoofing
scenarios are considered, which may either trigger
false generator trips or conceal existing phase
angle deviations in the power grid to cause
potential grid instability. Electronic downloads
- HTML
Ilge Akkaya, Patricia Derler, Edward A. Lee. <a
href="http://chess.eecs.berkeley.edu/pubs/1016.html"
>Model-Based Evaluation of GPS Spoofing
Attacks</a>, To appear in Proceedings of the IEEE
Workshop on Modeling and Simulation of Cyber-Physical Energy
Systems (MSCPES), 20, May, 2013.
- Plain text
Ilge Akkaya, Patricia Derler, Edward A. Lee.
"Model-Based Evaluation of GPS Spoofing Attacks".
To appear in Proceedings of the IEEE Workshop on Modeling
and Simulation of Cyber-Physical Energy Systems (MSCPES),
20, May, 2013.
- BibTeX
@inproceedings{AkkayaDerlerLee13_ModelBasedEvaluationOfGPSSpoofingAttacks,
author = {Ilge Akkaya and Patricia Derler and Edward A. Lee},
title = {Model-Based Evaluation of GPS Spoofing Attacks},
booktitle = {To appear in Proceedings of the IEEE Workshop on
Modeling and Simulation of Cyber-Physical Energy
Systems (MSCPES)},
day = {20},
month = {May},
year = {2013},
abstract = {Emerging cyber-physical system (CPS) applications
require reliable time synchronization to enable
distributed control and sensing applications.
However, time reference signals are vulnerable to
attacks that could remain undetected for a long
time. Sensor-rich distributed CPS such as the
"smart grid" highly rely on GPS and similar time
references for sub-station clock synchronization.
The vulnerability of time synchronization
protocols to spoofing attacks is a potential risk
factor that may lead to falsified sensor readings
and, at a larger scale, may become hazardous for
system safety. This paper describes a
simulation-based assessment of the effect of time
accuracy on time-centric power system
applications. In particular, the vulnerability of
power grid sensors to erroneous time references
and the potential risks of time spoofing on power
grid health are studied, using the Ptolemy
modeling and simulation tool. Two GPS spoofing
scenarios are considered, which may either trigger
false generator trips or conceal existing phase
angle deviations in the power grid to cause
potential grid instability.},
URL = {http://chess.eecs.berkeley.edu/pubs/1016.html}
}
Posted by Ilge Akkaya on 12 Sep 2013.
Groups: ptolemy
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