Deguang Kong scite author profile

The voluminous malware variants that appear in the Internet have posed severe threats to its security. In this work, we explore techniques that can automatically classify malware variants into their corresponding families. We present a generic framework that extracts structural information from malware programs as attributed function call graphs, in which rich malware features are encoded as attributes at the function level. Our framework further learns discriminant malware distance metrics that evaluate the similarity between the attributed function call graphs of two malware programs. To combine various types of malware attributes, our method adaptively learns the confidence level associated with the classification capability of each attribute type and then adopts an ensemble of classifiers for automated malware classification. We evaluate our approach with a number of Windows-based malware instances belonging to 11 families, and experimental results show that our automated malware classification method is able to achieve high classification accuracy.

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Exploring Discriminatory Features for Automated Malware Classification

Yan

Brown

Kong

2013

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PUPPIES: Transformation-Supported Personalized Privacy Preserving Partial Image Sharing

Liu

Kong

et al. 2016

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Privacy-CNH: A Framework to Detect Photo Privacy with Convolutional Neural Network using Hierarchical Features

Tran

Kong

Jin

et al. 2016

AAAI

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Photo privacy is a very important problem in the digital age where photos are commonly shared on social networking sites and mobile devices. The main challenge in photo privacy detection is how to generate discriminant features to accurately detect privacy at risk photos. Existing photo privacy detection works, which rely on low-level vision features, are non-informative to the users regarding what privacy information is leaked from their photos. In this paper, we propose a new framework called Privacy-CNH that utilizes hierarchical features which include both object and convolutional features in a deep learning model to detect privacy at risk photos. The generation of object features enables our model to better inform the users about the reason why a photo has privacy risk. The combination of convolutional and object features provide a richer model to understand photo privacy from different aspects, thus improving photo privacy detection accuracy. Experimental results demonstrate that the proposed model outperforms the state-of-the-art work and the standard convolutional neural network (CNN) with low-level features on photo privacy detection tasks.

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Deguang Kong

Robust nonnegative matrix factorization using L21-norm

Discriminant malware distance learning on structural information for automated malware classification

Exploring Discriminatory Features for Automated Malware Classification

PUPPIES: Transformation-Supported Personalized Privacy Preserving Partial Image Sharing

Privacy-CNH: A Framework to Detect Photo Privacy with Convolutional Neural Network using Hierarchical Features

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