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[Author] Ning AN(51hit)

21-40hit(51hit)

  • Image Encryption Based on a Genetic Algorithm and a Chaotic System

    Xiaoqiang ZHANG  Xuesong WANG  Yuhu CHENG  

     
    PAPER-Fundamental Theories for Communications

      Vol:
    E98-B No:5
      Page(s):
    824-833

    To ensure the security of image transmission, this paper presents a new image encryption algorithm based on a genetic algorithm (GA) and a piecewise linear chaotic map (PWLCM), which adopts the classical diffusion-substitution architecture. The GA is used to identify and output the optimal encrypted image that has the highest entropy value, the lowest correlation coefficient among adjacent pixels and the strongest ability to resist differential attack. The PWLCM is used to scramble pixel positions and change pixel values. Experiments and analyses show that the new algorithm possesses a large key space and resists brute-force, statistical and differential attacks. Meanwhile, the comparative analysis also indicates the superiority of our proposed algorithm over a similar, recently published, algorithm.

  • Mode Normalization Enhanced Recurrent Model for Multi-Modal Semantic Trajectory Prediction

    Shaojie ZHU  Lei ZHANG  Bailong LIU  Shumin CUI  Changxing SHAO  Yun LI  

     
    LETTER-Artificial Intelligence, Data Mining

      Pubricized:
    2019/10/04
      Vol:
    E103-D No:1
      Page(s):
    174-176

    Multi-modal semantic trajectory prediction has become a new challenge due to the rapid growth of multi-modal semantic trajectories with text message. Traditional RNN trajectory prediction methods have the following problems to process multi-modal semantic trajectory. The distribution of multi-modal trajectory samples shifts gradually with training. It leads to difficult convergency and long training time. Moreover, each modal feature shifts in different directions, which produces multiple distributions of dataset. To solve the above problems, MNERM (Mode Normalization Enhanced Recurrent Model) for multi-modal semantic trajectory is proposed. MNERM embeds multiple modal features together and combines the LSTM network to capture long-term dependency of trajectory. In addition, it designs Mode Normalization mechanism to normalize samples with multiple means and variances, and each distribution normalized falls into the action area of the activation function, so as to improve the prediction efficiency while improving greatly the training speed. Experiments on real dataset show that, compared with SERM, MNERM reduces the sensitivity of learning rate, improves the training speed by 9.120 times, increases HR@1 by 0.03, and reduces the ADE by 120 meters.

  • Blind Quality Index for Super Resolution Reconstructed Images Using First- and Second-Order Structural Degradation

    Jiansheng QIAN  Bo HU  Lijuan TANG  Jianying ZHANG  Song LIANG  

     
    PAPER-Image

      Vol:
    E102-A No:11
      Page(s):
    1533-1541

    Super resolution (SR) image reconstruction has attracted increasing attention these years and many SR image reconstruction algorithms have been proposed for restoring a high-resolution image from one or multiple low-resolution images. However, how to objectively evaluate the quality of SR reconstructed images remains an open problem. Although a great number of image quality metrics have been proposed, they are quite limited to evaluate the quality of SR reconstructed images. Inspired by this, this paper presents a blind quality index for SR reconstructed images using first- and second-order structural degradation. First, the SR reconstructed image is decomposed into multi-order derivative magnitude maps, which are effective for first- and second-order structural representation. Then, log-energy based features are extracted on these multi-order derivative magnitude maps in the frequency domain. Finally, support vector regression is used to learn the quality model for SR reconstructed images. The results of extensive experiments that were conducted on one public database demonstrate the superior performance of the proposed method over the existing quality metrics. Moreover, the proposed method is less dependent on the number of training images and has low computational cost.

  • Response of a Superconducting Transition-Edge Sensor Microcalorimeter with a Mushroom-shaped Absorber to L X-rays Emitted by Transuranium Elements Open Access

    Keisuke MAEHATA  Makoto MAEDA  Naoko IYOMOTO  Kenji ISHIBASHI  Keisuke NAKAMURA  Katsunori AOKI  Koji TAKASAKI  Kazuhisa MITSUDA  Keiichi TANAKA  

     
    INVITED PAPER

      Vol:
    E98-C No:3
      Page(s):
    178-185

    A four-pixel-array superconducting transition-edge sensor (TES) microcalorimeter with a mushroom-shaped absorber was fabricated for the energy dispersive spectroscopy performed on a transmission electron microscope. The TES consists of a bilayer of Au/Ti with either a 50-nm or 120-nm thickness. The absorber of 5.0,$mu$m thick is made from a Au layer and its stem is deposited in the center of the TES surface. A Ta$_{2}$O$_{5}$ insulating layer of 100-nm thickness is inserted between the overhang region of the absorber and the TES surface. A selected pixel of the TES microcalorimeter was operated for the detection of Np L X-rays emitted from an $^{241}$Am source. A response of the TES microcalorimeter to L X-rays was obtained by analyzing detection signal pulses with using the optimal filter method. An energy resolution was obtained to be 33,eV of the full width at half maximum value at 17.751,keV of Np L$_{eta 1}$ considering its natural width of 13.4,eV. Response to L X-rays emitted from a mixture source of $^{238}$Pu, $^{239}$Pu and $^{241}$Am was obtained by operating the selected pixel of the TES microcalorimeter. Major L X-ray peaks of progeny elements of $alpha$ decay of Pu and Am isotopes were clearly identified in the obtained energy spectrum. The experimental results demonstrated the separation of $^{241}$Am and plutonium isotopes by L X-ray spectroscopy.

  • Saliency Guided Gradient Similarity for Fast Perceptual Blur Assessment

    Peipei ZHAO  Leida LI  Hao CAI  

     
    LETTER-Image Processing and Video Processing

      Pubricized:
    2015/05/18
      Vol:
    E98-D No:8
      Page(s):
    1613-1616

    Blur is one of the most common distortion type and greatly impacts image quality. Most existing no-reference (NR) image blur metrics produce scores without a fixed range, so it is hard to judge the extent of blur directly. This letter presents a NR perceptual blur metric using Saliency Guided Gradient Similarity (SGGS), which produces blur scores with a fixed range of (0,1). A blurred image is first reblurred using a Gaussian low-pass filter, producing a heavily blurred image. With this reblurred image as reference, a local blur map is generated by computing the gradient similarity. Finally, visual saliency is employed in the pooling to adapt to the characteristics of the human visual system (HVS). The proposed metric features fixed range, fast computation and better consistency with the HVS. Experiments demonstrate its advantages.

  • Gender Attribute Mining with Hand-Dorsa Vein Image Based on Unsupervised Sparse Feature Learning

    Jun WANG  Guoqing WANG  Zaiyu PAN  

     
    LETTER-Artificial Intelligence, Data Mining

      Pubricized:
    2017/10/12
      Vol:
    E101-D No:1
      Page(s):
    257-260

    Gender classification with hand-dorsa vein information, a new soft biometric trait, is solved with the proposed unsupervised sparse feature learning model, state-of-the-art accuracy demonstrates the effectiveness of the proposed model. Besides, we also argue that the proposed data reconstruction model is also applicable to age estimation when comprehensive database differing in age is accessible.

  • Quality Index for Benchmarking Image Inpainting Algorithms with Guided Regional Statistics

    Song LIANG  Leida LI  Bo HU  Jianying ZHANG  

     
    LETTER-Image Processing and Video Processing

      Pubricized:
    2019/04/01
      Vol:
    E102-D No:7
      Page(s):
    1430-1433

    This letter presents an objective quality index for benchmarking image inpainting algorithms. Under the guidance of the masks of damaged areas, the boundary region and the inpainting region are first located. Then, the statistical features are extracted from the boundary and inpainting regions respectively. For the boundary region, we utilize Weibull distribution to fit the gradient magnitude histograms of the exterior and interior regions around the boundary, and the Kullback-Leibler Divergence (KLD) is calculated to measure the boundary distortions caused by imperfect inpainting. Meanwhile, the quality of the inpainting region is measured by comparing the naturalness factors between the inpainted image and the reference image. Experimental results demonstrate that the proposed metric outperforms the relevant state-of-the-art quality metrics.

  • Naturalization of Screen Content Images for Enhanced Quality Evaluation

    Xingge GUO  Liping HUANG  Ke GU  Leida LI  Zhili ZHOU  Lu TANG  

     
    LETTER-Information Network

      Pubricized:
    2016/11/24
      Vol:
    E100-D No:3
      Page(s):
    574-577

    The quality assessment of screen content images (SCIs) has been attractive recently. Different from natural images, SCI is usually a mixture of picture and text. Traditional quality metrics are mainly designed for natural images, which do not fit well into the SCIs. Motivated by this, this letter presents a simple and effective method to naturalize SCIs, so that the traditional quality models can be applied for SCI quality prediction. Specifically, bicubic interpolation-based up-sampling is proposed to achieve this goal. Extensive experiments and comparisons demonstrate the effectiveness of the proposed method.

  • Extreme Maximum Margin Clustering

    Chen ZHANG  ShiXiong XIA  Bing LIU  Lei ZHANG  

     
    PAPER-Artificial Intelligence, Data Mining

      Vol:
    E96-D No:8
      Page(s):
    1745-1753

    Maximum margin clustering (MMC) is a newly proposed clustering method that extends the large-margin computation of support vector machine (SVM) to unsupervised learning. Traditionally, MMC is formulated as a nonconvex integer programming problem which makes it difficult to solve. Several methods rely on reformulating and relaxing the nonconvex optimization problem as semidefinite programming (SDP) or second-order cone program (SOCP), which are computationally expensive and have difficulty handling large-scale data sets. In linear cases, by making use of the constrained concave-convex procedure (CCCP) and cutting plane algorithm, several MMC methods take linear time to converge to a local optimum, but in nonlinear cases, time complexity is still high. Since extreme learning machine (ELM) has achieved similar generalization performance at much faster learning speed than traditional SVM and LS-SVM, we propose an extreme maximum margin clustering (EMMC) algorithm based on ELM. It can perform well in nonlinear cases. Moreover, the kernel parameters of EMMC need not be tuned by means of random feature mappings. Experimental results on several real-world data sets show that EMMC performs better than traditional MMC methods, especially in handling large-scale data sets.

  • 3D Tracker-Level Fusion for Robust RGB-D Tracking

    Ning AN  Xiao-Guang ZHAO  Zeng-Guang HOU  

     
    PAPER-Image Recognition, Computer Vision

      Pubricized:
    2017/05/16
      Vol:
    E100-D No:8
      Page(s):
    1870-1881

    In this study, we address the problem of online RGB-D tracking which confronted with various challenges caused by deformation, occlusion, background clutter, and abrupt motion. Various trackers have different strengths and weaknesses, and thus a single tracker can merely perform well in specific scenarios. We propose a 3D tracker-level fusion algorithm (TLF3D) which enhances the strengths of different trackers and suppresses their weaknesses to achieve robust tracking performance in various scenarios. The fusion result is generated from outputs of base trackers by optimizing an energy function considering both the 3D cube attraction and 3D trajectory smoothness. In addition, three complementary base RGB-D trackers with intrinsically different tracking components are proposed for the fusion algorithm. We perform extensive experiments on a large-scale RGB-D benchmark dataset. The evaluation results demonstrate the effectiveness of the proposed fusion algorithm and the superior performance of the proposed TLF3D tracker against state-of-the-art RGB-D trackers.

  • Spectrum-Based Fault Localization Framework to Support Fault Understanding Open Access

    Yong WANG  Zhiqiu HUANG  Yong LI  RongCun WANG  Qiao YU  

     
    LETTER-Software Engineering

      Pubricized:
    2019/01/15
      Vol:
    E102-D No:4
      Page(s):
    863-866

    A spectrum-based fault localization technique (SBFL), which identifies fault location(s) in a buggy program by comparing the execution statistics of the program spectra of passed executions and failed executions, is a popular automatic debugging technique. However, the usefulness of SBFL is mainly affected by the following two factors: accuracy and fault understanding in reality. To solve this issue, we propose a SBFL framework to support fault understanding. In the framework, we firstly localize a suspicious fault module to start debugging and then generate a weighted fault propagation graph (WFPG) for the hypothesis fault module, which weights the suspiciousness for the nodes to further perform block-level fault localization. In order to evaluate the proposed framework, we conduct a controlled experiment to compare two different module-level SBFL approaches and validate the effectiveness of WFPG. According to our preliminary experiments, the results are promising.

  • Fast Time-Aware Sparse Trajectories Prediction with Tensor Factorization

    Lei ZHANG  Qingfu FAN  Guoxing ZHANG  Zhizheng LIANG  

     
    LETTER-Data Engineering, Web Information Systems

      Pubricized:
    2018/04/13
      Vol:
    E101-D No:7
      Page(s):
    1959-1962

    Existing trajectory prediction methods suffer from the “data sparsity” and neglect “time awareness”, which leads to low accuracy. Aiming to the problem, we propose a fast time-aware sparse trajectories prediction with tensor factorization method (TSTP-TF). Firstly, we do trajectory synthesis based on trajectory entropy and put synthesized trajectories into the original trajectory space. It resolves the sparse problem of trajectory data and makes the new trajectory space more reliable. Then, we introduce multidimensional tensor modeling into Markov model to add the time dimension. Tensor factorization is adopted to infer the missing regions transition probabilities to further solve the problem of data sparsity. Due to the scale of the tensor, we design a divide and conquer tensor factorization model to reduce memory consumption and speed up decomposition. Experiments with real dataset show that TSTP-TF improves prediction accuracy generally by as much as 9% and 2% compared to the Baseline algorithm and ESTP-MF algorithm, respectively.

  • Long-Term Tracking Based on Multi-Feature Adaptive Fusion for Video Target

    Hainan ZHANG  Yanjing SUN  Song LI  Wenjuan SHI  Chenglong FENG  

     
    PAPER-Fundamentals of Information Systems

      Pubricized:
    2018/02/02
      Vol:
    E101-D No:5
      Page(s):
    1342-1349

    The correlation filter-based trackers with an appearance model established by single feature have poor robustness to challenging video environment which includes factors such as occlusion, fast motion and out-of-view. In this paper, a long-term tracking algorithm based on multi-feature adaptive fusion for video target is presented. We design a robust appearance model by fusing powerful features including histogram of gradient, local binary pattern and color-naming at response map level to conquer the interference in the video. In addition, a random fern classifier is trained as re-detector to detect target when tracking failure occurs, so that long-term tracking is implemented. We evaluate our algorithm on large-scale benchmark datasets and the results show that the proposed algorithm have more accurate and more robust performance in complex video environment.

  • Improving the Accuracy of Spectrum-Based Fault Localization Using Multiple Rules

    Rongcun WANG  Shujuan JIANG  Kun ZHANG  Qiao YU  

     
    PAPER-Software Engineering

      Pubricized:
    2020/02/26
      Vol:
    E103-D No:6
      Page(s):
    1328-1338

    Software fault localization, as one of the essential activities in program debugging, aids to software developers to identify the locations of faults in a program, thus reducing the cost of program debugging. Spectrum-based fault localization (SBFL), as one of the representative localization techniques, has been intensively studied. The localization technique calculates the probability of each program entity that is faulty by a certain suspiciousness formula. The accuracy of SBFL is not always as satisfactory as expected because it neglects the contextual information of statement executions. Therefore, we proposed 5 rules, i.e., random, the maximum coverage, the minimum coverage, the maximum distance, and the minimum distance, to improve the accuracy of SBFL for further. The 5 rules can effectively use the contextual information of statement executions. Moreover, they can be implemented on the traditional SBFL techniques using suspiciousness formulas with little effort. We empirically evaluated the impacts of the rules on 17 suspiciousness formulas. The results show that all 5 rules can significantly improve the ranking of faulty statements. Particularly, for the faults difficult to locate, the improvement is more remarkable. Generally, the rules can effectively reduce the number of statements examined by an average of more than 19%. Compared with other rules, the minimum coverage rule generates better results. This indicates that the application of the test case having the minimum coverage capability for fault localization is more effective.

  • Hand-Dorsa Vein Recognition Based on Selective Deep Convolutional Feature

    Zaiyu PAN  Jun WANG  

     
    LETTER-Pattern Recognition

      Pubricized:
    2020/03/04
      Vol:
    E103-D No:6
      Page(s):
    1423-1426

    A pre-trained deep convolutional neural network (DCNN) is adopted as a feature extractor to extract the feature representation of vein images for hand-dorsa vein recognition. In specific, a novel selective deep convolutional feature is proposed to obtain more representative and discriminative feature representation. Extensive experiments on the lab-made database obtain the state-of-the-art recognition result, which demonstrates the effectiveness of the proposed model.

  • Image Quality Assessment Based on Low Order Moment Features

    Leida LI  Hancheng ZHU  Gaobo YANG  

     
    LETTER

      Vol:
    E97-A No:2
      Page(s):
    538-542

    This letter presents a new image quality metric using low order discrete orthogonal moments. The moment features are extracted in a block manner and the relative moment differences (RMD) are computed. A new exponential function based on RMD is proposed to generate the quality score. The performance of the proposed method is evaluated on public databases. Experimental results and comparisons demonstrate the efficiency of the proposed method.

  • Sparse Trajectory Prediction Method Based on Entropy Estimation

    Lei ZHANG  Leijun LIU  Wen LI  

     
    PAPER

      Pubricized:
    2016/04/01
      Vol:
    E99-D No:6
      Page(s):
    1474-1481

    Most of the existing algorithms cannot effectively solve the data sparse problem of trajectory prediction. This paper proposes a novel sparse trajectory prediction method based on L-Z entropy estimation. Firstly, the moving region of trajectories is divided into a two-dimensional plane grid graph, and then the original trajectories are mapped to the grid graph so that each trajectory can be represented as a grid sequence. Secondly, an L-Z entropy estimator is used to calculate the entropy value of each grid sequence, and then the trajectory which has a comparatively low entropy value is segmented into several sub-trajectories. The new trajectory space is synthesised by these sub-trajectories based on trajectory entropy. The trajectory synthesis can not only resolve the sparse problem of trajectory data, but also make the new trajectory space more credible. In addition, the trajectory scale is limited in a certain range. Finally, under the new trajectory space, Markov model and Bayesian Inference is applied to trajectory prediction with data sparsity. The experiments based on the taxi trajectory dataset of Microsoft Research Asia show the proposed method can make an effective prediction for the sparse trajectory. Compared with the existing methods, our method needs a smaller trajectory space and provides much wider predicting range, faster predicting speed and better predicting accuracy.

  • Hierarchical Community Detection in Social Networks Based on Micro-Community and Minimum Spanning Tree

    Zhixiao WANG  Mengnan HOU  Guan YUAN  Jing HE  Jingjing CUI  Mingjun ZHU  

     
    PAPER-Data Engineering, Web Information Systems

      Pubricized:
    2019/06/05
      Vol:
    E102-D No:9
      Page(s):
    1773-1783

    Social networks often demonstrate hierarchical community structure with communities embedded in other ones. Most existing hierarchical community detection methods need one or more tunable parameters to control the resolution levels, and the obtained dendrograms, a tree describing the hierarchical community structure, are extremely complex to understand and analyze. In the paper, we propose a parameter-free hierarchical community detection method based on micro-community and minimum spanning tree. The proposed method first identifies micro-communities based on link strength between adjacent vertices, and then, it constructs minimum spanning tree by successively linking these micro-communities one by one. The hierarchical community structure of social networks can be intuitively revealed from the merging order of these micro-communities. Experimental results on synthetic and real-world networks show that our proposed method exhibits good accuracy and efficiency performance and outperforms other state-of-the-art methods. In addition, our proposed method does not require any pre-defined parameters, and the output dendrogram is simple and meaningful for understanding and analyzing the hierarchical community structure of social networks.

  • Hand-Dorsa Vein Recognition Based on Task-Specific Cross-Convolutional-Layer Pooling Open Access

    Jun WANG  Yulian LI  Zaiyu PAN  

     
    LETTER-Pattern Recognition

      Pubricized:
    2019/09/09
      Vol:
    E102-D No:12
      Page(s):
    2628-2631

    Hand-dorsa vein recognition is solved based on the convolutional activations of the pre-trained deep convolutional neural network (DCNN). In specific, a novel task-specific cross-convolutional-layer pooling is proposed to obtain the more representative and discriminative feature representation. Rigorous experiments on the self-established database achieves the state-of-the-art recognition result, which demonstrates the effectiveness of the proposed model.

  • Hand-Dorsa Vein Recognition Based on Scale and Contrast Invariant Feature Matching

    Fuqiang LI  Tongzhuang ZHANG  Yong LIU  Guoqing WANG  

     
    LETTER-Pattern Recognition

      Pubricized:
    2017/08/30
      Vol:
    E100-D No:12
      Page(s):
    3054-3058

    The ignored side effect reflecting in the introduction of mismatching brought by contrast enhancement in representative SIFT based vein recognition model is investigated. To take advantage of contrast enhancement in increasing keypoints generation, hierarchical keypoints selection and mismatching removal strategy is designed to obtain state-of-the-art recognition result.

21-40hit(51hit)