1 research outputs found
Sensor Defense In-Software (SDI):Practical Software Based Detection of Spoofing Attacks on Position Sensor
Position sensors, such as the gyroscope, the magnetometer and the
accelerometer, are found in a staggering variety of devices, from smartphones
and UAVs to autonomous robots. Several works have shown how adversaries can
mount spoofing attacks to remotely corrupt or even completely control the
outputs of these sensors. With more and more critical applications relying on
sensor readings to make important decisions, defending sensors from these
attacks is of prime importance.
In this work we present practical software based defenses against attacks on
two common types of position sensors, specifically the gyroscope and the
magnetometer. We first characterize the sensitivity of these sensors to
acoustic and magnetic adversaries. Next, we present two software-only defenses:
a machine learning based single sensor defense, and a sensor fusion defense
which makes use of the mathematical relationship between the two sensors. We
performed a detailed theoretical analysis of our defenses, and implemented them
on a variety of smartphones, as well as on a resource-constrained IoT sensor
node. Our defenses do not require any hardware or OS-level modifications,
making it possible to use them with existing hardware. Moreover, they provide a
high detection accuracy, a short detection time and a reasonable power
consumption