6,305 research outputs found
Unsupervised Anomaly-based Malware Detection using Hardware Features
Recent works have shown promise in using microarchitectural execution
patterns to detect malware programs. These detectors belong to a class of
detectors known as signature-based detectors as they catch malware by comparing
a program's execution pattern (signature) to execution patterns of known
malware programs. In this work, we propose a new class of detectors -
anomaly-based hardware malware detectors - that do not require signatures for
malware detection, and thus can catch a wider range of malware including
potentially novel ones. We use unsupervised machine learning to build profiles
of normal program execution based on data from performance counters, and use
these profiles to detect significant deviations in program behavior that occur
as a result of malware exploitation. We show that real-world exploitation of
popular programs such as IE and Adobe PDF Reader on a Windows/x86 platform can
be detected with nearly perfect certainty. We also examine the limits and
challenges in implementing this approach in face of a sophisticated adversary
attempting to evade anomaly-based detection. The proposed detector is
complementary to previously proposed signature-based detectors and can be used
together to improve security.Comment: 1 page, Latex; added description for feature selection in Section 4,
results unchange
Machine Learning Models for Network Intrusion Detection and Authentication of Smart Phone Users
A thesis presented to the faculty of the Elmer R. Smith College of Business and Technology at Morehead State University in partial fulfillment of the requirements for the Degree of Master of Science by S. Sareh Ahmadi on November 18, 2019
Know Your Enemy: Stealth Configuration-Information Gathering in SDN
Software Defined Networking (SDN) is a network architecture that aims at
providing high flexibility through the separation of the network logic from the
forwarding functions. The industry has already widely adopted SDN and
researchers thoroughly analyzed its vulnerabilities, proposing solutions to
improve its security. However, we believe important security aspects of SDN are
still left uninvestigated. In this paper, we raise the concern of the
possibility for an attacker to obtain knowledge about an SDN network. In
particular, we introduce a novel attack, named Know Your Enemy (KYE), by means
of which an attacker can gather vital information about the configuration of
the network. This information ranges from the configuration of security tools,
such as attack detection thresholds for network scanning, to general network
policies like QoS and network virtualization. Additionally, we show that an
attacker can perform a KYE attack in a stealthy fashion, i.e., without the risk
of being detected. We underline that the vulnerability exploited by the KYE
attack is proper of SDN and is not present in legacy networks. To address the
KYE attack, we also propose an active defense countermeasure based on network
flows obfuscation, which considerably increases the complexity for a successful
attack. Our solution offers provable security guarantees that can be tailored
to the needs of the specific network under consideratio
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