Z.J. Wang scite author profile

Abstract-Digital fingerprinting is a method for protecting digital data in which fingerprints that are embedded in multimedia are capable of identifying unauthorized use of digital content. A powerful attack that can be employed to reduce this tracing capability is collusion, where several users combine their copies of the same content to attenuate/remove the original fingerprints. In this paper, we study the collusion resistance of a fingerprinting system employing Gaussian distributed fingerprints and orthogonal modulation. We introduce the maximum detector and the thresholding detector for colluder identification. We then analyze the collusion resistance of a system to the averaging collusion attack for the performance criteria represented by the probability of a false negative and the probability of a false positive. Lower and upper bounds for the maximum number of colluders max are derived. We then show that the detectors are robust to different collusion attacks. We further study different sets of performance criteria, and our results indicate that attacks based on a few dozen independent copies can confound such a fingerprinting system. We also propose a likelihood-based approach to estimate the number of colluders. Finally, we demonstrate the performance for detecting colluders through experiments using real images.

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Forensic analysis of nonlinear collusion attacks for multimedia fingerprinting

Zhao

Wang

et al. 2005

IEEE Trans. on Image Process.

132

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Digital fingerprinting is a technology for tracing the distribution of multimedia content and protecting them from unauthorized redistribution. Unique identification information is embedded into each distributed copy of multimedia signal and serves as a digital fingerprint. Collusion attack is a cost-effective attack against digital fingerprinting, where colluders combine several copies with the same content but different fingerprints to remove or attenuate the original fingerprints. In this paper, we investigate the average collusion attack and several basic nonlinear collusions on independent Gaussian fingerprints, and study their effectiveness and the impact on the perceptual quality. With unbounded Gaussian fingerprints, perceivable distortion may exist in the fingerprinted copies as well as the copies after the collusion attacks. In order to remove this perceptual distortion, we introduce bounded Gaussian-like fingerprints and study their performance under collusion attacks. We also study several commonly used detection statistics and analyze their performance under collusion attacks. We further propose a preprocessing technique of the extracted fingerprints specifically for collusion scenarios to improve the detection performance.

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Joint amplitude and connectivity compensatory mechanisms in Parkinson's disease

Palmer

Wang

et al. 2010

Neuroscience

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A MIMO-OFDM channel estimation approach using time of arrivals

Wang

Han

Liu

2005

IEEE Trans. Wireless Commun.

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A Hidden Markov, Multivariate Autoregressive (HMM-mAR) Network Framework for Analysis of Surface EMG (sEMG) Data

Chiang

Wang

McKeown

2008

IEEE Trans. Signal Process.

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As the primary noninvasive means to assess muscle activation, the surface electromyogram (sEMG) is of central importance for the study of motor behavior in both clinical and biomedical applications. However, multivariate sEMG analysis is complicated by the fact that data recorded during dynamic contractions are inherently nonstationary. To model this nonstationarity and to determine the dynamic muscle activity patterns during reaching movements, we propose combining hidden Markov models (HMMs) and multivariate autoregressive (mAR) models into a joint HMM-mAR framework. We further propose constructing muscle networks statistically by performing a second level, group analysis on the subject-specific models. Network structural features are subsequently investigated as input features for the purpose of classification. The proposed approach was applied to real sEMG recordings collected from healthy and stroke subjects during reaching movements. When examining group muscle networks, we note that specific muscle connection patterns were selectively recruited during reaching movements and were differentially recruited after stroke compared to healthy subjects. As the analysis was performed on the raw data, the amplitude and the underlying "carrier data" of sEMG signals, we notice that the HMM-mAR model fits the amplitude data well, but not the raw or carrier data. The proposed sEMG analysis framework represents a fundamental departure from existing methods where only the amplitude is typically analyzed or the mAR coefficients are directly used for classification. As the method may provide additional insights into motor control, it appears a promising approach warranting further study.Index Terms-Classification tree, expectation maximization (EM) algorithm, hidden Markov model (HMM), multivariate autoregressive (mAR) model, stroke, surface electromyography (sEMG).

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Probabilistic Boolean Network Analysis of Brain Connectivity in Parkinson's Disease

Wang

McKeown

2008

IEEE J. Sel. Top. Signal Process.

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A variable threshold page procedure for detection of transient signals

Wang

Willett

2005

IEEE Trans. Signal Process.

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Abstract-When employed to detect a transient change between known independent identically distributed populations, Page's test is easy to implement and provides reliable performance. However, its application to unknown transient changes is less clear. A Page test can be thought of as a repeated sequential test, and here we propose that each sequential test use a time-varying threshold. The idea is that short signals are detected quickly before post-termination data has a chance to refute them; and that evidence for a long signal is allowed to build, rather than being summarily discarded too early. Simulations results show that the performance of the proposed scheme comes close to tracing the "envelope" of fixed-style Page tests.

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A Multi-Subject, Dynamic Bayesian Networks (DBNS) Framework for Brain Effective Connectivity

Wang

McKeown

2007

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As dynamic connectivity is shown essential for normal brain function and is disrupted in disease, it is critical to develop models for inferring brain effective connectivity from non-invasive (e.g., fMRI) data. Increasingly, (dynamic) Bayesian network (BNs) have been suggested for this purpose due to their exibility and suitability. However, ultimately extrapolating BN results from one subject to an entire population rst requires methods meaningfully addressing inter-subject, within-group variability. Here we explore two group analysis approaches in fMRI using DBNs: one is to construct a group network based on a common structure assumption across individuals, and the other is to identify signi cant structure features by examining DBNs individually-trained. By investigating real fMRI data from Parkinsons Disease (PD) and normal subjects performing a motor task at three progressive levels of dif culty, we noted that both methods detected statistically signi cant, biologically plausible connectivity between task-related region-of-interest (ROIs) that differed between the PD and normal subjects. However, the second approach was more sensitive, nding more features that were also consistent with prior neuroscience knowledge. Determining highly reproducible DBN nodes/edges across subjects seems promising for inferring altered functional connectivity within a group.

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Z.J. Wang

Anti-collusion forensics of multimedia fingerprinting using orthogonal modulation

Forensic analysis of nonlinear collusion attacks for multimedia fingerprinting

Joint amplitude and connectivity compensatory mechanisms in Parkinson's disease

A MIMO-OFDM channel estimation approach using time of arrivals

A Hidden Markov, Multivariate Autoregressive (HMM-mAR) Network Framework for Analysis of Surface EMG (sEMG) Data

Probabilistic Boolean Network Analysis of Brain Connectivity in Parkinson's Disease

A variable threshold page procedure for detection of transient signals

A Multi-Subject, Dynamic Bayesian Networks (DBNS) Framework for Brain Effective Connectivity

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