Bo Guan scite author profile

Passive video forensics has drawn much attention in recent years. However, research on detection of object-based forgery, especially for forged video encoded with advanced codec frameworks, is still a great challenge. In this paper, we propose a deep learning-based approach to detect object-based forgery in the advanced video. The presented deep learning approach utilizes a convolutional neural network (CNN) to automatically extract high-dimension features from the input image patches. Different from the traditional CNN models used in computer vision domain, we let video frames go through three preprocessing layers before being fed into our CNN model. They include a frame absolute difference layer to cut down temporal redundancy between video frames, a max pooling layer to reduce computational complexity of image convolution, and a high-pass filter layer to enhance the residual signal left by video forgery. In addition, an asymmetric data augmentation strategy has been established to get a similar number of positive and negative image patches before the training. The experiments have demonstrated that the proposed CNN-based model with the preprocessing layers has achieved excellent results.

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An Efficient Commutative Encryption and Data Hiding Scheme for HEVC Video

Guan

2020

IEEE Access

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In this paper, an improved commutative encryption and data hiding scheme for bit rate preservation of High Efficiency Video Coding (HEVC) is proposed. To achieve commutative property, one set of syntax elements within the HEVC standard is utilized for data hiding, while another set is exploited for encryption. Specifically, the syntax elements including the sign of quantized transform coefficient (QTC), the sign of motion vector difference (MVD), and the magnitude of MVD are encrypted to perceptually distort the video. On the other hand, an improved QTC modification method is employed for data hiding to increase the embedding capacity. The proposed framework produces the format compliant bitstream and allows the hidden information to be extracted regardless of the video being in the encrypted or decrypted from. Experimental results demonstrate that the proposed scheme keeps the bit rate unchanged while increasing the embedding capacity. INDEX TERMS Video encryption, video data hiding, commutative encryption and data hiding, high efficiency video coding (HEVC).

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Measuring Complexity and Predictability of Time Series with Flexible Multiscale Entropy for Sensor Networks

Zhou

Chen

Wan

et al. 2017

Sensors

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Measurement of time series complexity and predictability is sometimes the cornerstone for proposing solutions to topology and congestion control problems in sensor networks. As a method of measuring time series complexity and predictability, multiscale entropy (MSE) has been widely applied in many fields. However, sample entropy, which is the fundamental component of MSE, measures the similarity of two subsequences of a time series with either zero or one, but without in-between values, which causes sudden changes of entropy values even if the time series embraces small changes. This problem becomes especially severe when the length of time series is getting short. For solving such the problem, we propose flexible multiscale entropy (FMSE), which introduces a novel similarity function measuring the similarity of two subsequences with full-range values from zero to one, and thus increases the reliability and stability of measuring time series complexity. The proposed method is evaluated on both synthetic and real time series, including white noise, 1/f noise and real vibration signals. The evaluation results demonstrate that FMSE has a significant improvement in reliability and stability of measuring complexity of time series, especially when the length of time series is short, compared to MSE and composite multiscale entropy (CMSE). The proposed method FMSE is capable of improving the performance of time series analysis based topology and traffic congestion control techniques.

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Using Relative Distance and Hausdorff Distance to Mine Trajectory Clusters

Guan¹,

Liu²,

Chen³

2013

TELKOMNIKA

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An efficient high-capacity reversible data hiding scheme for encrypted images

Guan

2020

Journal of Visual Communication and Image Representation

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Bo Guan

Deep Learning for Detection of Object-Based Forgery in Advanced Video

An Efficient Commutative Encryption and Data Hiding Scheme for HEVC Video

Measuring Complexity and Predictability of Time Series with Flexible Multiscale Entropy for Sensor Networks

Using Relative Distance and Hausdorff Distance to Mine Trajectory Clusters

An efficient high-capacity reversible data hiding scheme for encrypted images

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