Şahin Albayrak scite author profile

We study the application of spectral clustering, prediction and visualization methods to graphs with negatively weighted edges. We show that several characteristic matrices of graphs can be extended to graphs with positively and negatively weighted edges, giving signed spectral clustering methods, signed graph kernels and network visualization methods that apply to signed graphs. In particular, we review a signed variant of the graph Laplacian. We derive our results by considering random walks, graph clustering, graph drawing and electrical networks, showing that they all result in the same formalism for handling negatively weighted edges. We illustrate our methods using examples from social networks with negative edges and bipartite rating graphs.

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An Android Application Sandbox system for suspicious software detection

Bläsing

et al. 2010

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Static Analysis of Executables for Collaborative Malware Detection on Android

et al. 2009

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Abstract-Smartphones are getting increasingly popular and several malwares appeared targeting these devices. General countermeasures to smartphone malwares are currently limited to signature-based antivirus scanners which efficiently detect known malwares, but they have serious shortcomings with new and unknown malwares creating a window of opportunity for attackers. As smartphones become host for sensitive data and applications, extended malware detection mechanisms are necessary complying with the resource constraints.The contribution of this paper is twofold. First, we perform static analysis on the executables to extract their function calls in Android environment using the command readelf. Function call lists are compared with malware executables for classifying them with PART, Prism and Nearest Neighbor Algorithms. Second, we present a collaborative malware detection approach to extend these results. Corresponding simulation results are presented.

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Using static analysis for automatic assessment and mitigation of unwanted and malicious activities within Android applications

et al. 2011

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In the last decade, smartphones have gained widespread usage. Since the advent of online application stores, hundreds of thousands of applications have become instantly available to millions of smartphone users. Within the Android ecosystem, application security is governed by digital signatures and a list of coarse-grained permissions. However, this mechanism is not fine-grained enough to provide the user with a sufficient means of control of the applications' activities. Abuse of highly sensible private information such as phone numbers without users' notice is the result. We show that there is a high frequency of privacy leaks even among widely popular applications. Together with the fact that the majority of the users are not proficient in computer security, this presents a challenge to the engineers developing security solutions for the platform. Our contribution is twofold: first, we propose a service which is able to assess Android Market applications via static analysis and provide detailed, but readable reports to the user. Second, we describe a means to mitigate security and privacy threats by automated reverse-engineering and refactoring binary application packages according to the users' security preferences.

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Vehicles of the Future: A Survey of Research on Safety Issues

Bila

Sivrikaya

Khan

et al. 2017

IEEE Trans. Intell. Transport. Syst.

122

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Şahin Albayrak

Spectral Analysis of Signed Graphs for Clustering, Prediction and Visualization

An Android Application Sandbox system for suspicious software detection

Static Analysis of Executables for Collaborative Malware Detection on Android

Using static analysis for automatic assessment and mitigation of unwanted and malicious activities within Android applications

Vehicles of the Future: A Survey of Research on Safety Issues

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