Your search keyword '"Xu, Zhengquan"' showing total 60 results

1. A Histogram Publishing Method under Differential Privacy That Involves Balancing Small-Bin Availability First.

Author

Chen, Jianzhang, Zhou, Shuo, Qiu, Jie, Xu, Yixin, Zeng, Bozhe, Fang, Wanchuan, Chen, Xiangying, Huang, Yipeng, Xu, Zhengquan, and Chen, Youqin

Subjects

DATA binning, SOCIAL networks, CENSUS, DATA analysis, PRIVACY

Abstract

Differential privacy, a cornerstone of privacy-preserving techniques, plays an indispensable role in ensuring the secure handling and sharing of sensitive data analysis across domains such as in census, healthcare, and social networks. Histograms, serving as a visually compelling tool for presenting analytical outcomes, are widely employed in these sectors. Currently, numerous algorithms for publishing histograms under differential privacy have been developed, striving to balance privacy protection with the provision of useful data. Nonetheless, the pivotal challenge concerning the effective enhancement of precision for small bins (those intervals that are narrowly defined or contain a relatively small number of data points) within histograms has yet to receive adequate attention and in-depth investigation from experts. In standard DP histogram publishing, adding noise without regard for bin size can result in small data bins being disproportionately influenced by noise, potentially severely impairing the overall accuracy of the histogram. In response to this challenge, this paper introduces the SReB_GCA sanitization algorithm designed to enhance the accuracy of small bins in DP histograms. The SReB_GCA approach involves sorting the bins from smallest to largest and applying a greedy grouping strategy, with a predefined lower bound on the mean relative error required for a bin to be included in a group. Our theoretical analysis reveals that sorting bins in ascending order prior to grouping effectively prioritizes the accuracy of smaller bins. SReB_GCA ensures strict ϵ -DP compliance and strikes a careful balance between reconstruction error and noise error, thereby not only initially improving the accuracy of small bins but also approximately optimizing the mean relative error of the entire histogram. To validate the efficiency of our proposed SReB_GCA method, we conducted extensive experiments using four diverse datasets, including two real-life datasets and two synthetic ones. The experimental results, quantified by the Kullback–Leibler Divergence (KLD), show that the SReB_GCA algorithm achieves substantial performance enhancement compared to the baseline method (DP_BASE) and several other established approaches for differential privacy histogram publication. [ABSTRACT FROM AUTHOR]

Published

2024

2. Differential Privacy Preservation for Continuous Release of Real-Time Location Data.

Author

Mao, Lihui and Xu, Zhengquan

Subjects

LOCATION data, PRIVACY, BIG data, TIME series analysis, PROBLEM solving

Abstract

Continuous real-time location data is very important in the big data era, but the privacy issues involved is also a considerable topic. It is not only necessary to protect the location privacy at each release moment, but also have to consider the impact of data correlation. Correlated Laplace Mechanism (CLM) is a sophisticated method to implement differential privacy on correlated time series. This paper aims to solve the key problems of applying CLM in continuous location release. Based on the finding that the location increment is approximately stationary in many scenarios, a location correlation estimation method based on the location increment is proposed to solve the problem of nonstationary location data correlation estimation; an adaptive adjustment model for the CLM filter based on parameter quantization idea (QCLM) as well as its effective implementation named QCLM-Lowpass utilizing the lowpass spectral characteristics of location data series is proposed to solve the problem of output deviations due to the undesired transient response of the CLM filter in time-varying environments. Extensive simulations and real data experiments validate the effectiveness of the proposed approach and show that the privacy scheme based on QCLM-Lowpass can offer a better balance between the ability to resist correlation-based attacks and data availability. [ABSTRACT FROM AUTHOR]

Published

2024

3. A novel heterozygous mutation in PTHLH causing autosomal dominant brachydactyly type E complicated with short stature.

Author

Sun, Jian, Yang, Nian, Xu, Zhengquan, Cheng, Hongbo, and Zhang, Xiangxin

Subjects

GENETIC mutation, NUCLEOTIDE sequencing, PHENOTYPIC plasticity, SHORT stature, SEQUENCE analysis, PHALANGES

Abstract

Background: Brachydactyly type E (BDE) is a general term characterized by variable shortening of metacarpals and metatarsals, with phalanges affected frequently. It can occur as an isolated form or part of syndromes and manifest a high degree of phenotypic variability. In this study, we have identified the clinical characteristics and pathogenic causes of a four‐generation pedigree with 10 members affected by BDE and short stature. Methods: After the informed consent was signed, clinical data and peripheral blood samples were collected from available family members. Karyotype analysis, array‐CGH, next‐generation sequencing, and Sanger sequencing were employed to identity the pathogenic candidate gene. Results: No translocation or microdeletion/duplication was found in karyotype analysis and array‐CGH; hence, a novel heterozygous mutation, c.146dupA. p.S50Vfs*22, was detected by next‐generation sequencing in PTHLH gene, leading to a premature stop codon. Subsequently, the mutation was confirmed by Sanger sequencing and co‐segregation analysis. Conclusion: In this study, we described a novel heterozygous mutation (c.146dupA. p.S50Vfs*22) of gene PTHLH in a Chinese family. The mutation could induce a premature stop codon leading to a truncation of the protein. Our study broadened the mutation spectrum of PTHLH in BDE. [ABSTRACT FROM AUTHOR]

Published

2024

4. Biomechanical evaluation of different oblique lumbar interbody fusion constructs: a finite element analysis.

Author

Xu, Zhengquan, Zheng, Qingcong, Zhang, Liqun, Chen, Rongsheng, Li, Zhechen, and Xu, Weihong

Subjects

FINITE element method, INTERVERTEBRAL disk, RANGE of motion of joints

Abstract

Background: Finite element analysis (FEA) was performed to investigate the biomechanical differences between different adjunct fixation methods for oblique lumbar interbody fusion (OLIF) and to further analyze its effect on adjacent segmental degeneration. Methods: We built a single-segment (Si-segment) finite element model (FEM) for L4-5 and a double-segment (Do-segment) FEM for L3-5. Each complete FEM was supplemented and modified, and both developed two surgical models of OLIF with assisted internal fixation. They were OLIF with posterior bilateral percutaneous pedicle screw (TINA system) fixation (OLIF + BPS) and OLIF with lateral plate system (OLIF + LPS). The range of motion (ROM) and displacement of the vertebral body, cage stress, adjacent segment disc stress, and spinal ligament tension were recorded for the four models during flexion/extension, right/left bending, and right/left rotation by applying follower load. Results: For the BPS and LPS systems in the six postures of flexion, extension, right/left bending, and right/left rotation, the ROM of L4 in the Si-segment FEM were 0.32°/1.83°, 0.33°/1.34°, 0.23°/0.47°, 0.24°/0.45°, 0.33°/0.79°, and 0.34°/0.62°; the ROM of L4 in the Do-segment FEM were 0.39°/2.00°, 0.37°/1.38°, 0.23°/0.47°, 0.21°/0.44°, 0.33°/0.57°, and 0.31°/0.62°, and the ROM of L3 in the Do-segment FEM were 6.03°/7.31°, 2.52°/3.50°, 4.21°/4.38°, 4.21°/4.42°, 2.09°/2.32°, and 2.07°/2.43°. BPS system had less vertebral displacement, less cage maximum stress, and less spinal ligament tension in Si/Do-segment FEM relative to the LPS system. BPS system had a smaller upper adjacent vertebral ROM, greater intervertebral disc stress in terms of left and right bending as well as left and right rotation compared to the LPS system in the L3-4 of the Do-segment FEM. There was little biomechanical difference between the same fixation system in the Si/Do-segment FEM. Conclusions: Our finite element analysis showed that compared to OLIF + LPS, OLIF + BPS (TINA) is more effective in reducing interbody stress and spinal ligament tension, and it better maintains the stability of the target segment and provides a better fusion environment to resist cage subsidence. However, OLIF + BPS (TINA) may be more likely to cause adjacent segment degeneration than OLIF + LPS. [ABSTRACT FROM AUTHOR]

Published

2024

5. Shape-memory sawtooth-arm embracing clamp used in complex femoral revision hip arthroplasty for stem stability: average 9-year follow-up study.

Author

Hu, Yi, Xu, Zhengquan, Qiao, Hua, Kong, Keyu, Li, Huiwu, and Zhang, Jingwei

Subjects

TOTAL hip replacement, BONE resorption, STUDENT records, RADIOGRAPHS, LAND subsidence

Abstract

Background: Nickel-Titanium shape-memory sawtooth-arm embracing clamps (SSECs) have been used in revision total hip arthroplasties (rTHAs) to protect stem stability. This study was to introduce this technique and report its mid to long-term clinical and radiographic outcomes. Methods: We retrospectively reviewed all patients implanted with SSECs in our department from January 2008 to December 2015. 41 patients (41 hips) were finally included. Radiographs and Harris hip scores (HHS) were collected. Radiographs were blindly analyzed for evidence of loosening, subsidence and stress shielding. HHS were compared to previous records by student's t tests. The average follow-up period was 9.3 years. Results: All stems were stably fixed with no signs of loosening. The mean stem subsidence was 0.9 mm (range, 0 to 3 mm). Only one patient (2.4%) demonstrated the fourth degree of stress shielding, with the others none or minor bone resorption. The mean HHS at the final follow-up was 84.2 (range, 81 to 91), which was improved from 17.4 (range, 0 to 37) before surgery. No implant failures or re-revisions occurred. Dislocation occurred in 1 case during the follow-up period. Conclusions: The SSEC protected stem fixation and achieved favorable clinical and radiographic outcomes in this 9-year follow-up study. It offered an additional extramedullary fixation option for surgeons to choose from in treating complex femoral revision arthroplasties. [ABSTRACT FROM AUTHOR]

Published

2023

6. Differentially private publication for related POI discovery.

Author

Zeng, Ximu, Chen, Xue, Peng, Xiao, Zhang, Xiaoshan, Wang, Hao, and Xu, Zhengquan

Abstract

Among the advanced methods, differential privacy (DP), introducing independent Laplace noise, has become an influential privacy mechanism owing to its provable and rigorous privacy guarantee. Nonetheless, in practice, POI data to be protected is always correlated, while independent noise may cause undesirable information disclosure than expected. Recent researches attempt to optimize the sensitivity function of DP with consideration of the correlation strength between POI—but there is a drawback in a substantial growth of noise level. To remedy this problem, this paper exploits the degradation of DP in expected privacy levels for correlated POI data and proposes a solution to mitigate it. We propose a generalized Laplace mechanism to achieve privacy guarantees. Specifically, we design a practical iteration mechanism, including an update function, to conduct a generalized Laplace mechanism when facing large scale queries. Experimental evaluation on real-world datasets over multiple fields show that our solution consistently outperforms state-of-the-art mechanisms in data utility while providing the same privacy guarantee as other approaches for correlated POI data. [ABSTRACT FROM AUTHOR]

Published

2023

7. Network Delay and Cache Overflow: A Parameter Estimation Method for Time Window Based Hopping Network.

Author

Fang, Zhu and Xu, Zhengquan

Subjects

PARAMETER estimation, TIME delay estimation, DATA transmission systems, SCALE-free network (Statistical physics)

Abstract

A basic understanding of delayed packet loss is key to successfully applying it to multi-node hopping networks. Given the problem of delayed data loss due to network delay in a hop network environment, we review early time windowing approaches, for which most contributions focus on end-to-end hopping networks. However, they do not apply to the general hopping network environment, where data transmission from the sending host to the receiving host usually requires forwarding at multiple intermediate nodes due to network latency and network cache overflow, which may result in delayed packet loss. To overcome this challenge, we propose a delay time window and a method for estimating the delay time window. By examining the network delays of different data tasks, we obtain network delay estimates for these data tasks, use them as estimates of the delay time window, and validate the estimated results to verify that the results satisfy the delay distribution law. In addition, simulation tests and a discussion of the results were conducted to demonstrate how to maximize the reception of delay groupings. The analysis shows that the method is more general and applicable to multi-node hopping networks than existing time windowing methods. [ABSTRACT FROM AUTHOR]

Published

2023

8. Evaluation Cloud Model of Spontaneous Combustion Fire Risk in Coal Mines by Fusing Interval Gray Number and DEMATEL.

Author

Xu, Kun, Li, Shuang, Liu, Jiao, Lu, Cheng, Xue, Guangzhe, Xu, Zhengquan, and He, Chao

Abstract

Coal still occupies a key position in China's energy consumption structure, and ensuring safe production in coal mines is a key focus for ensuring energy security. Spontaneous combustion fires in coal mines are a serious threat to the sustainability of safe production in coal mines. In order to prevent coal mine fire risk scientifically and effectively and to assess the level of disaster risk effectively and rationally, a study was conducted on the risk of spontaneous combustion fires in underground coal mines. An evaluation cloud model of spontaneous combustion fire risk in coal mines integrating the interval gray number with the Decision-Making Trial and Evaluation Laboratory (DEMATEL) was established. Seventeen representative risk evaluation indicators were selected, and a coal mine spontaneous combustion fire risk evaluation index system was constructed based on four aspects: personnel, machinery, environment, and management. The interval gray number theory was introduced to improve the classical DEMATEL analysis method, which fully expresses the expert empirical knowledge and solves the problem of ambiguity and randomness in the semantic expression of expert evaluation. The relative importance of each indicator was determined by analyzing the influence relationships between risk evaluation indicators through the improved DEMATEL. A cloud model capable of transforming quantitative descriptions and qualitative concepts was used for comprehensive evaluation of risk, and based on the results of DEMATEL analysis, a comprehensive evaluation cloud model of coal mine spontaneous combustion fire risk was formed. Finally, the validity and practicality of the model were verified by using a mine in Shenmu City, Shaanxi Province, China as an example. This study provides a powerful tool to prevent spontaneous combustion fires in coal mines and makes a positive contribution to the sustainable development of coal mine safety management. [ABSTRACT FROM AUTHOR]

Published

2022

9. B-DP: Dynamic Collection and Publishing of Continuous Check-In Data with Best-Effort Differential Privacy.

Author

Chen, Youqin, Xu, Zhengquan, Chen, Jianzhang, and Jia, Shan

Subjects

PRIVACY, EXPECTED utility, ACQUISITION of data, COLLECTIONS

Abstract

Differential privacy (DP) has become a de facto standard to achieve data privacy. However, the utility of DP solutions with the premise of privacy priority is often unacceptable in real-world applications. In this paper, we propose the best-effort differential privacy (B-DP) to promise the preference for utility first and design two new metrics including the point belief degree and the regional average belief degree to evaluate its privacy from a new perspective of preference for privacy. Therein, the preference for privacy and utility is referred to as expected privacy protection (EPP) and expected data utility (EDU), respectively. We also investigate how to realize B-DP with an existing DP mechanism (KRR) and a newly constructed mechanism (EXP Q ) in the dynamic check-in data collection and publishing. Extensive experiments on two real-world check-in datasets verify the effectiveness of the concept of B-DP. Our newly constructed EXP Q can also satisfy a better B-DP than KRR to provide a good trade-off between privacy and utility. [ABSTRACT FROM AUTHOR]

Published

2022

10. Differentially private data aggregating with relative error constraint.

Author

Wang, Hao, Peng, Xiao, Xiao, Yihang, Xu, Zhengquan, and Chen, Xian

Subjects

PRIVACY, MULTISENSOR data fusion

Abstract

Privacy preserving methods supporting for data aggregating have attracted the attention of researchers in multidisciplinary fields. Among the advanced methods, differential privacy (DP) has become an influential privacy mechanism owing to its rigorous privacy guarantee and high data utility. But DP has no limitation on the bound of noise, leading to a low-level utility. Recently, researchers investigate how to preserving rigorous privacy guarantee while limiting the relative error to a fixed bound. However, these schemes destroy the statistical properties, including the mean, variance and MSE, which are the foundational elements for data aggregating and analyzing. In this paper, we explore the optimal privacy preserving solution, including novel definitions and implementing mechanisms, to maintain the statistical properties while satisfying DP with a fixed relative error bound. Experimental evaluation demonstrates that our mechanism outperforms current schemes in terms of security and utility for large quantities of queries. [ABSTRACT FROM AUTHOR]

Published

2022

11. An optimal differentially private data release mechanism with constrained error.

Author

Wang, Hao, Xu, Zhengquan, Zhang, Xiaoshan, Peng, Xiao, and Li, Kaiju

Published

2022

12. Clinical effectiveness of posterior-only approach using polyetheretherketone cage combined with single-segment instrumentation for lumbar tuberculosis in children.

Author

Xu, Zhengquan, Chen, Lanhua, Wang, Changsheng, Zhang, Liqun, and Xu, Weihong

Subjects

TUBERCULOSIS, SPINAL tuberculosis, POLYETHER ether ketone, BLOOD sedimentation, DIELECTRIC loss, HOSPITALS, MEDICAL records

Abstract

We sought to investigate the outcomes of posterior-only approach using polyetheretherketone (PEEK) cage combined with single-segment instrumentation (modified-approach) for mono-segment lumbar tuberculosis in children. Between February 2008 and August 2017 in our hospital, 18 children with single-segment lumbar tuberculosis enrolled in this study were treated by modified-approach. Medical records and radiographs were retrospectively analyzed. Mean follow-up time was 54.6 ± 12.1 months. No severe complications were noted to have occurred. Measures indicated there was satisfactory bone fusion for all patients. Mean Cobb angles were significantly decreased from preoperative angle (19.8° ± 13.1°) to those both postoperatively (− 4.9° ± 7.6°) and at final follow-up (− 3.5° ± 7.3°) (both P < 0.05), with a mean angle loss of 1.7° ± 0.9°. The erythrocyte sedimentation rate (ESR) returned to normal levels for all patients within 3 months postoperatively. All patients had significant postoperative improvement in neurological performance. The modified-approach was an effective and feasible treatment option for mono-segment children with lumbar tuberculosis. Such procedures can likely help patients by increasing retainment of lumbar mobility and reducing invasiveness. [ABSTRACT FROM AUTHOR]

Published

2021

13. MicroRNA-1287-5p promotes ferroptosis of osteosarcoma cells through inhibiting GPX4.

Author

Xu, Zhengquan, Chen, Lanhua, Wang, Changsheng, Zhang, Liqun, and Xu, Weihong

Subjects

OSTEOSARCOMA, CELL death, GLUTATHIONE peroxidase, CELL survival, CELL lines

Abstract

Osteosarcoma is the most prevalent primary bone malignancy in adolescents, and ferroptosis is implicated in its pathogenesis. MicroRNA (miR)-1287-5p plays critical roles in multiple human cancers, and the present study aims to investigate the role and underlying mechanisms of miR-1287-5p in regulating ferroptosis and osteosarcoma progression. Human osteosarcoma cell lines were treated with the mimic, inhibitor or matched controls of miR-1287-5p. Cell viability, colony formation, cell death ratio and ferroptosis were determined. miR-1287-5p expression was downregulated in human osteosarcoma, but upregulated upon ferroptotic stimulation. Overexpression of miR-1287-5p significantly induced, while inhibition of miR-1287-5p suppressed ferroptosis of osteosarcoma cells, thereby modulating cell viability and colony formation. Mechanistic studies indicated that miR-1287-5p directly bound to the 3′-untranslated region of glutathione peroxidase 4 (GPX4) to inhibit its protein level and activity, and that GPX4 overexpression completely abolished the miR-1287-5p mimic-mediated ferroptotic induction and tumor suppression. Moreover, the miR-1287-5p mimic dramatically sensitized human osteosarcoma cells to cisplatin chemotherapy. Our findings prove that miR-1287-5p promotes ferroptosis of osteosarcoma cells through inhibiting GPX4, identifying an adjuvant and even alternative method for the treatment of human osteosarcoma. [ABSTRACT FROM AUTHOR]

Published

2021

14. Research on the Influence Mechanism of Personal Initiative on Enterprise Emergency Management Ability.

Author

Li, Shuang, Xu, Feng, Xu, Zhengquan, Kang, Yuqing, and Yang, Qifeng

Subjects

EMERGENCY management, STRUCTURAL equation modeling, EXECUTIVE power, REGRESSION analysis, SOCIAL interaction

Abstract

This study aims to explore the influence mechanism of personal initiative on the overall emergency management ability of enterprises so as to put forward effective measures to improve the emergency management ability. Based on social interaction theory and feature activation theory, the concepts of organizational support theory, executive power, and political skills were introduced to construct a corresponding theoretical model. We collected data through an online questionnaire to test this model via structural equation model analysis and regression analysis, with 208 participants of varying backgrounds. The results show that personal initiative can strengthen enterprise emergency management ability. The mediating effect of executive power between personal initiative and emergency management ability of enterprise has also been proved. In addition, the two adjustment variables of political skills and perceived organizational support both have a positive impact on the improvement of personal initiative and execution. Therefore, in order to improve the enterprise emergency management ability, it is suggested that enterprises should give full play to the personal initiative and improve the individual and overall executive power. The conclusion of this paper can provide new methodological support for improving emergency management ability. [ABSTRACT FROM AUTHOR]

Published

2021

15. 3D Face Anti-Spoofing With Factorized Bilinear Coding.

Author

Jia, Shan, Li, Xin, Hu, Chuanbo, Guo, Guodong, and Xu, Zhengquan

Subjects

HUMAN facial recognition software, COLOR codes, FACE

Abstract

We have witnessed rapid advances in both face presentation attack models and presentation attack detection (PAD) in recent years. When compared with widely studied 2D face presentation attacks, 3D face spoofing attacks are more challenging because face recognition systems are more easily confused by the 3D characteristics of materials similar to real faces. In this work, we tackle the problem of detecting these realistic 3D face presentation attacks and propose a novel anti-spoofing method from the perspective of fine-grained classification. Our method, based on factorized bilinear coding of multiple color channels (namely MC_FBC), targets at learning subtle fine-grained differences between real and fake images. By extracting discriminative and fusing complementary information from RGB and YCbCr spaces, we have developed a principled solution to 3D face spoofing detection. A large-scale wax figure face database (WFFD) with both images and videos has also been collected as super realistic attacks to facilitate the study of 3D face presentation attack detection. Extensive experimental results show that our proposed method achieves the state-of-the-art performance on both our own WFFD and other face spoofing databases under various intra-database and inter-database testing scenarios. [ABSTRACT FROM AUTHOR]

Published

2021

16. Why current differential privacy schemes are inapplicable for correlated data publishing?

Author

Wang, Hao, Xu, Zhengquan, Jia, Shan, Xia, Ying, and Zhang, Xu

Subjects

PRIVACY, DATA mining, TIME series analysis, DATA analysis, HYPOTHESIS

Abstract

Although data analysis and mining technologies can efficiently provide intelligent and personalized services to us, data owners may not always be willing to share their true data because of privacy concerns. Recently, differential privacy (DP) technology has achieved a good trade-off between data utility and privacy guarantee by publishing noisy outputs. Nonetheless, DP still has a risk of privacy leakage when handling correlated data directly. Current schemes attempt to extend DP to publish correlated data, but are faced with the challenge of violating DP or low-level data utility. In this paper, we try to explore the essential cause of this inapplicability. Specifically, we suppose that this inapplicability is caused by the different correlations between noise and original data. To verify our supposition, we propose the notion of Correlation-Distinguishability Attack (CDA) to separate IID (Independent and Identically Distributed) noise from correlated data. Furthermore, taking time series as an example, we design an optimum filter to realize CDA in practical applications. Experimental results support our supposition and show that, the privacy degree of current approaches has a degradation under CDA. [ABSTRACT FROM AUTHOR]

Published

2021

17. The Role of Psychological Distance in Influencing Pro-environmental Behavior Spread: Perceived Justice Enforceability as a Moderator.

Author

Xu, Zhengquan, Cao, Qinren, and Li, Shuang

Subjects

PSYCHOLOGICAL distance, ORGANIZATIONAL justice, BEHAVIOR, SOCIAL systems

Abstract

The social system can spread tightly coupled complex practices under the context that members of the social system do not have the shared experience that enables them to coordinate within longstanding tight formal organizations. To promote the understanding of such a process, and given the possibility for other members in the social system to cheat and adopt pro-environment behavior, we draw on the organizational justice literature and the perspective of justice enforceability, and construal level theory, to develop a conceptual model in which the impact of social members' perceived psychological distance on their response to other social members adoption of pro-environmental behaviors (PEBs) is contingent on their perception of justice enforceability and cognitive appraisals (positive, not significant) towards other social members' adoption of PEBs. We find that when social members perceive that the adoption of pro-environment behaviors is justice-enforceable, their cognitive appraisals of other social members' adoption of PEBs is high, and then the more proximal the psychological distance they perceive, the stronger they will react to other social members' adoption of PEBs. Further, they will adopt and enact such behaviors, otherwise, they would be unwilling to adopt and enact such behaviors. So, uneven perceived psychological distance of social members can harm their adoption and the spread of pro-environment behavior. We tested our model in a survey study. Results show that the proposed model is supported, and our understanding is enhanced about how social members' willingness to adopt and spread pro-environment behavior is contingent on their perceptions of justice enforceability. This paper is comprised of five parts, of which include an introduction, a part on the theory and hypothesis, data and methods, results and discussion, and conclusion. [ABSTRACT FROM AUTHOR]

Published

2020

18. Sirtuin4 suppresses the anti‐neuroinflammatory activity of infiltrating regulatory T cells in the traumatically injured spinal cord.

Author

Lin, Wenping, Chen, Wenkai, Liu, Weifeng, Xu, Zhengquan, and Zhang, Liqun

Subjects

SUPPRESSOR cells, SPINAL cord, SPINAL cord compression, SPINAL cord injuries, RNA interference

Abstract

Summary: The neuroinflammation following traumatic spinal cord injury (SCI) is a critical process that impacts both the injury and the recovery of spinal cord parenchyma. Infiltrating regulatory T (Treg) cells are potent anti‐inflammatory cells that restrain post‐SCI neuroinflammation. To understand the molecular mechanisms underlying the activity of infiltrating Treg cells, we used a mouse spinal cord compression injury model to analyze the role of Sirtuins (SIRTs) in the modulation of infiltrating Treg cell functions. We found that the expressions of SIRT4 and SIRT6 were up‐regulated in infiltrating Treg cells. Using lentivirus‐mediated gene expression or RNA interference, we revealed that SIRT4 substantially inhibited the expression of Foxp3, interleukin‐10, and transforming growth factor‐β in Treg cells, whereas SIRT6 had little effect on Treg cells. Consistently, SIRT4 overexpression weakened the suppressive effect of Treg cells on lipopolysaccharide‐stimulated spinal cord CD11b+ myeloid cells. Knock‐down of SIRT4 enhanced the anti‐inflammatory activity of infiltrating Treg cells in the parenchyma of injured spinal cords. Additionally, SIRT4 overexpression blocked in vitro Treg cell generation from conventional T cells. Furthermore, SIRT4 down‐regulated 5′ AMP‐activated protein kinase (AMPK) signaling in Treg cells, whereas the AMPK agonist AICAR restored the expression of Foxp3 and interleukin‐10 in SIRT4‐overexpressing Treg cells. In conclusion, our research unveils a new mechanism by which the post‐SCI neuroinflammation is regulated. [ABSTRACT FROM AUTHOR]

Published

2019

19. Influence of data errors on differential privacy.

Author

Wang, Tao, Xu, Zhengquan, Wang, Dong, and Wang, Hao

Subjects

DATA privacy, PRIVACY, SYSTEMS theory, EXPECTED utility, DATA security, INFORMATION storage & retrieval systems

Abstract

The rapid development of data sharing applications brings a serious problem of privacy disclosure. As an effective privacy-preserving method, the differential privacy, which strictly defines the privacy-preserving degree and data utility mathematically, can balance the privacy and data utility. However, the differential privacy has a hypothesis premise that the raw data are accurate without any error, so it could not limit the privacy security and the data utility to the expected range when processing data with errors. Hence, this paper focuses on the study on the influence of data errors on differential privacy. Taking the random error as an example, we analyze the influence mode and mechanism of data errors on differential privacy, especially on the privacy budget ε . The theoretical derivations and experimental simulations prove that the Laplace mechanism still preserves ε ′ -indistinguishability for data with errors. Moreover, the random algorithm can realize the expected privacy preserving strength by adding less noise compared with the algorithm that do not consider data errors, and has a better data utility by reducing the unnecessary cost of utility. This paper defines the research directions on the differential privacy theory concerning of data errors, and provides the foundations of perfecting the theory system and promoting the practicality of the differential privacy. [ABSTRACT FROM AUTHOR]

Published

2019

20. A comparative study of single-stage transpedicular debridement, fusion, and posterior long-segment versus short-segment fixation for the treatment of thoracolumbar spinal tuberculosis in adults: minimum five year follow-up outcomes.

Author

Liu, Zheng, Zhang, Penghui, Zeng, Hao, Xu, Zhengquan, and Wang, Xiyang

Subjects

DEBRIDEMENT, SPINAL tuberculosis, FRACTURE fixation, FOLLOW-up studies (Medicine), CLINICAL trials, BONE screws, LUMBAR vertebrae surgery, COMPARATIVE studies, KYPHOSIS, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, RESEARCH, SPINAL fusion, THORACIC vertebrae, EVALUATION research, TREATMENT effectiveness, RETROSPECTIVE studies, SURGERY

Abstract

Design: This a retrospective study in single centre.Objective: The objective of this retrospective clinical study is to compare the long-term clinical efficacy of posterior long-segment and short-segment fixation with single-stage transpedicular debridement and fusion for the treatment of thoracolumbar spinal tuberculosis in adults.Methods: Sixty-six cases of thoracolumbar tuberculosis were treated by single-stage transpedicular debridement, bone graft fusion, and pedicle screw fixation. Thirty-five cases were under long-segment fixation (group A) and 31 cases were under short-segment fixation (group B). These patients were followed up for a minimum of five years. The clinical and radiographic results for these patients were analyzed and compared.Results: All 66 patients were completely cured during the follow-up. All patients had significant improvement of neurological condition and visual analogue scale pain scores at the final follow-up. The average operation duration and blood loss in group A were more than that in group B. Kyphosis Cobb angle of both groups was significantly corrected after surgical management. The correction rate of Cobb angle in group A was significantly higher than that in group B at the time of immediate post-operative period or the last follow-up (P < 0.05). The correction loss of group A was significantly less than that in group B (P < 0.05).Conclusion: Both posterior long-segment and short-segment pedicle screw fixations for the treatment of thoracolumbar spinal tuberculosis have significant effects in the correction of kyphosis and the improvement of neurological function. Although the blood loss and operation time of long-segment fixation were more than that of short-segment fixation, long-segment fixation was superior to the short-segment fixation in the correction of kyphosis and the maintenance of spinal stability, especially in the prevention of long-term correction loss. [ABSTRACT FROM AUTHOR]

Published

2018

21. An integer wavelet transform based scheme for reversible data hiding in encrypted images.

Author

Xiong, Lizhi, Xu, Zhengquan, and Shi, Yun-Qing

Abstract

In this paper, a novel reversible data hiding (RDH) scheme for encrypted digital images using integer wavelet transform, histogram shifting and orthogonal decomposition is presented. This scheme takes advantage of the Laplacian-like distribution of integer wavelet high-frequency coefficients in high frequency sub-bands and the independence of orthogonal coefficients to facilitate data hiding operation in encrypted domain, and to keep the reversibility. Experimental results has demonstrated that this scheme outperforms all of other existing RDH schemes in encrypted domain in terms of higher PSNR at the same amount of payload. Compared with the state-of-the-arts, the proposed scheme can be applied to all natural images with higher embedding rate. [ABSTRACT FROM AUTHOR]

Published

2018

22. Motion-Adaptive Frame Deletion Detection for Digital Video Forensics.

Author

Feng, Chunhui, Xu, Zhengquan, Jia, Shan, Zhang, Wenting, and Xu, Yanyan

Subjects

DIGITAL video, FORENSICS (Public speaking), FRAMES (Computer science), IMAGE converters, DATA removal (Computer science)

Abstract

The detection of frame deletion forgery is of great significance in the field of video forensics. Existing approaches, however, are not applicable to video sequences with variable motion strengths. In addition, the impact of interfering frames has not been considered in these approaches. Our research aims to develop a motion-adaptive forensic method as well as to eliminate interfering frames. Through a study of the statistical characteristics of the most common interfering frames such as relocated I-frames, we develop a new fluctuation feature based on frame motion residuals to identify frame deletion points (FDPs). The fluctuation feature is further enhanced by an intra-prediction elimination procedure so that it can be adapted to sequences with various motion levels. The enhanced feature is measured using a moving window detector to identify the location of a FDP. Finally, a postprocessing procedure is proposed to eliminate the minor interferences of sudden lighting change, focus vibration, and frame jitter. Our experimental results demonstrate that for videos with variable motion strengths and different interfering frames, the true positive rate of the algorithm can reach 90% when the false alarm rate is 0.3%. Our proposed method could provide a foundation for many practical applications of video forensics. [ABSTRACT FROM PUBLISHER]

Published

2017

23. An enhanced active caching strategy for data-intensive computations in distributed GIS.

Author

Pan, Shaoming, Chong, Yanwen, Xu, Zhengquan, and Tan, Xicheng

Subjects

CACHE memory, DISTRIBUTED computing, GEOGRAPHIC information systems, COMPUTER networks, ALGORITHMS

Abstract

Caching can prepare data for computational tasks in advance by tracking the requirements and behaviors of distributed geographical information systems to reduce network latency and improve computational performance. This paper presents an enhanced method to actively cache data for data-intensive computations that considers both data relationships and the timeliness of those relationships. First, the access correlations, the correlation steps and the times of the correlations are computed based on the behaviors of the computational tasks. Because the influence of historically accessed records will decrease gradually over time, only recently accessed records are used. To track changes in the relationships and prevent cache waste problems, each record is given a different age-based weight. A conditional caching probability can then be computed based on the timeliness relationships, which can be used to find the appropriate data to compute simultaneously. Finally, we present several experiments that compare the proposed method with techniques that use other data placement strategies, active caching strategies and passive caching algorithms. The results show that the proposed model has better performance than other algorithms in all respects. In addition, the proposed model results in a lower cache replacement ratio. The experiments with different data sets on different data scales indicate that the proposed algorithm can also be used in large-scale distributed environments. [ABSTRACT FROM AUTHOR]

Published

2017

24. Minimum 5-year follow-up outcomes for single-stage transpedicular debridement, posterior instrumentation and fusion in the management of thoracic and thoracolumbar spinal tuberculosis in adults.

Author

Zhang, Penghui, Peng, Wei, Wang, Xiyang, Luo, Chengke, Xu, Zhengquan, Zeng, Hao, Liu, Zheng, Zhang, Yupeng, and Ge, Lei

Subjects

SPINAL fusion, SPINE diseases, DEBRIDEMENT, TUBERCULOSIS treatment, INTERNAL fixation in fractures

Abstract

Aim:The aim of this retrospective clinical study is to evaluate the long-term outcomes for single-stage transpedicular debridement, posterior instrumentation and fusion in the management of thoracic and thoracolumbar spinal tuberculosis in adults. Methods:Fifty-nine adult patients with thoracic and thoracolumbar spinal tuberculosis underwent single-stage transpedicular debridement, posterior instrumentation and fusion. These patients were followed for a minimum of 5 years. Patients were assigned to one of two groups according to the infected anatomic segment. In the thoracic spinal tuberculosis group, there were 28 cases (17 males, 11 females) with a mean age of 38.9 years; in the thoracolumbar spinal tuberculosis group, there were 31 cases (19 males, 12 females) with a mean age of 40.3 years. All cases were evaluated clinically using the visual analog scale (VAS), Kirkaldy–Willis criteria and the American Spinal Injury Association (ASIA) impairment scale. Radiographs were performed for measuring the angle of kyphosis and scoliosis. Complications related to surgery were recorded. Results:All patients successfully resolved their infections, experienced one or more ASIA grades of improvement, and improved in their VAS pain scores at final follow-up. In both groups, patient-reported outcomes reached over 90% excellent or good results using Kirkaldy–Willis criteria. The loss of kyphotic angle correction was 2.6° in the thoracic spinal tuberculosis group and 3.2° in the thoracolumbar spinal tuberculosis group. No scoliosis was observed in either group. Fifty-eight (98.3%) cases achieved solid bony fusion. In the thoracolumbar spinal tuberculosis group, one patient experienced screw loosening, and another patient with nonunion and rod breakage underwent revision surgery. Conclusions:The technique of single-stage transpedicular debridement, posterior instrumentation and fusion is an effective method for the treatment of thoracic and thoracolumbar spinal tuberculosis in adults. Long-term postoperative clinical and radiological outcomes were satisfactory. [ABSTRACT FROM AUTHOR]

Published

2016

25. A Data Placement Strategy for Big Data Based on DCC in Cloud Computing Systems.

Author

Wang, Tao, Yao, Shihong, Xu, Zhengquan, Jia, Shan, and Xu, Qiang

Published

2015

26. An Effective Strategy for Improving Small File Problem in Distributed File System.

Author

Wang, Tao, Yao, Shihong, Xu, Zhengquan, Xiong, Lian, Gu, Xin, and Yang, Xiping

Published

2015

27. DCCP: an effective data placement strategy for data-intensive computations in distributed cloud computing systems.

Author

Wang, Tao, Yao, Shihong, Xu, Zhengquan, and Jia, Shan

Subjects

DISTRIBUTED computing, CLOUD computing, CLOUD storage, DATA warehousing, DATABASE management

Abstract

Cloud computing systems provide high-performance computing resources and distributed storage space to deal with data-intensive computations. Data scheduling between data centers is becoming indispensable for the cloud computing systems in which a mass of large datasets is stored at different data centers and inter-center data accesses are needed in data analytics. However, the performance of data scheduling is highly dependent upon the rationality of data placement. Data placement is a key optimization method for reducing data scheduling between data centers and realizing statistical I/O load balancing, accordingly reducing the mean computation execution time. This paper proposes a data placement strategy, DCCP, which is developed based on dynamic computation correlation. DCCP places the datasets with high dynamic computation correlations at the same data center considering the I/O load and the capacity load of data centers; when computations are scheduled for this data center, most of the datasets they process are stored locally, and thus the mean computation execution time can be reduced. Evidence from a large number of experiments proves that the DCCP can achieve the statistical I/O load balancing and the capacity load balancing of data centers, thus reducing the total data scheduling between data centers as much as possible at a very low time complexity, even as the numbers of datasets and data centers increase. [ABSTRACT FROM AUTHOR]

Published

2016

28. A multiple watermarking scheme based on orthogonal decomposition.

Author

Xiong, Lizhi, Xu, Zhengquan, and Xu, Yanyan

Subjects

DIGITAL watermarking, ORTHOGONAL decompositions, MULTIMEDIA systems, DIGITAL media, SECURITY management

Abstract

This paper proposes a novel multiple watermarking scheme based on orthogonal decomposition (MWOD). In the first phase, based on orthogonal decomposition, the host data selected from multimedia data are divided into mutually independent multiple domains. Then multiple watermarks without need for considering the special correlation among them can respectively be embedded into these different domains even using different embedding algorithms. There is no mutual interference among watermarked domains so that multiple watermarks can be flexibly embedded in the distribution of the multimedia cover. Through theoretical analysis, the security of multiple watermarking operands is validated, which means that MWOD can ensure the security of watermarking operation domains. Therefore, media providers and service providers can embed their unique information step-by-step into digital multimedia using their own operation domain keys in MWOD, which can be used to identify media content's ownership or trace the illegal redistributors. Experimental results and analysis demonstrate the feasibility and robustness of MWOD. [ABSTRACT FROM AUTHOR]

Published

2016

29. 360-degree cervical spinal arthrodesis for treatment of pediatric cervical spinal tuberculosis with kyphosis.

Author

Hao Zeng, Xiongjie Shen, Chengke Luo, Zhengquan Xu, Yupeng Zhang, Zheng Liu, Xiyang Wang, Yong Cao, Zeng, Hao, Shen, Xiongjie, Luo, Chengke, Xu, Zhengquan, Zhang, Yupeng, Liu, Zheng, Wang, Xiyang, and Cao, Yong

Subjects

CERVICAL vertebrae diseases, TUBERCULOSIS in children, ARTHRODESIS, BLOOD sedimentation, KYPHOSIS, DEBRIDEMENT, THERAPEUTICS, CERVICAL vertebrae, COMPARATIVE studies, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, RESEARCH, SPINAL fusion, SPINAL tuberculosis, EVALUATION research, VISUAL analog scale, TREATMENT effectiveness, RETROSPECTIVE studies, SURGERY

Abstract

Background: There is limited evidence to guide treatment for pediatric cervical spinal tuberculosis with kyphosis (PCSTK). This study retrospectively evaluates the safety, feasibility and efficacy of 360-degree arthrodesis combined with anterior debridement and decompression for treating PCSTK, while simultaneously emphasizing the role of posterior fixation for the correction and maintenance of the kyphosis angle. Methods: From May 2006 to December 2012, a total of 12 children with PCSTK underwent 360-degree cervical spinal arthrodesis followed by debridement of focus and decompression of the spinal cord. Data on the angle of kyphosis correction, visual analogue scale scores of pain, the American Spinal Injury Association scoring system of nerve function scores, erythrocyte sedimentation rate (ESR) and body weight were collected at certain periods. Clinical efficacy was evaluated by statistical analysis based on collected data. Results: Average follow-up period was 34.3 ± 8.6 months. No postoperative complications related to the instrumentation occurred, and neurologic function improved in various degrees. Preoperative kyphosis angle was 41.4 ± 5.2°, and significantly decreased to -4.9 ± 4.9° after surgery. The correction of kyphosis and loss of correction were 47.1 ± 4.9° and 0.6 ± 1.4°, respectively. Average pretreatment ESR was 49.8 ± 13.2 mm/h, which normalized (8.5 ± 0.6 mm/h) within three months in all patients. Average preoperative visual analogue scale was 6.6 ± 1.6, which decreased to 2.3 ± 1.4 postoperatively and 0.3 ± 0.5 during the final follow-up. Mean preoperative body weight was 25.9 ± 5.1 kg, and body weight was 33.5 ± 4.8 kg at the third month of post-operation. Bone healing was achieved in all patients after a mean period of 5.4 months. Conclusions: 360-degree arthrodesis combined with anterior debridement and decompression is a safe and effective method for the treatment of PCSTK. For the correction and maintenance of the kyphosis angle, additional posterior fixation is recommended. [ABSTRACT FROM AUTHOR]

Published

2016

30. Prefetching Scheme for Massive Spatiotemporal Data in a Smart City.

Author

Xiong, Lian, Xu, Zhengquan, Wang, Hao, Jia, Shan, and Zhu, Li

Subjects

SPATIOTEMPORAL processes, SMART cities, COMPUTER input-output equipment, COMPUTER users, STATISTICAL correlation

Abstract

Employing user access patterns to develop a prefetching scheme can effectively improve system I/O performance and reduce user access latency. For massive spatiotemporal data, traditional pattern mining methods fail to directly reflect the spatiotemporal correlation and transition rules of user access, resulting in poor prefetching performance. This paper proposed a prefetching scheme based on spatial-temporal attribute prediction, named STAP. It maps the history of user access requests to the spatiotemporal attribute domain by analyzing the characteristics of spatiotemporal data in a smart city. According to the spatial locality and time stationarity of user access, correlation analysis is performed and variation rules are identified for the history of user access requests. Further, the STAP scheme mines the user access patterns and constructs a predictive function to predict the user’s next access request. Experimental results show that the prefetching scheme is simple yet effective; it achieves a prediction accuracy of 84.3% for access requests and reduces the average data access response time by 44.71% compared with the nonprefetching scheme. [ABSTRACT FROM AUTHOR]

Published

2016

31. A secure re-encryption scheme for data services in a cloud computing environment.

Author

Xiong, Lizhi, Xu, Zhengquan, and Xu, Yanyan

Subjects

DATA encryption, CLOUD computing, DISTRIBUTION (Probability theory), INFORMATION sharing, DATA privacy

Abstract

SUMMARY Cloud computing as a promising technology and paradigm can provide various data services, such as data sharing and distribution, which allows users to derive benefits without the need for deep knowledge about them. However, the popular cloud data services also bring forth many new data security and privacy challenges. Cloud service provider untrusted, outsourced data security, hence collusion attacks from cloud service providers and data users become extremely challenging issues. To resolve these issues, we design the basic parts of secure re-encryption scheme for data services in a cloud computing environment, and further propose an efficient and secure re-encryption algorithm based on the EIGamal algorithm, to satisfy basic security requirements. The proposed scheme not only makes full use of the powerful processing ability of cloud computing but also can effectively ensure cloud data security. Extensive analysis shows that our proposed scheme is highly efficient and provably secure under existing security model. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2015

32. Automatic location of frame deletion point for digital video forensics.

Author

Feng, Chunhui, Xu, Zhengquan, Zhang, Wenting, and Xu, Yanyan

Published

2014

33. Polarized Score Distributions in Music Ratings and the Emergence of Popular Artists.

Author

Cai, Tianqi, Cai, H. J., Zhang, Yuanyuan, Huang, Ke, and Xu, Zhengquan

Published

2014

34. Analysis of Impacts on Environment from Electric Bicycles: A Case Study of Xi'an, China.

Author

Xu, Zhengquan, Liu, Zhijie, Wang, Xianwei, and Sun, Shuo

Published

2014

35. A High Efficient Selective Content Encryption Method Suitable for Satellite Communication System.

Author

Xu, Yanyan, Yang, Bo, Xu, Zhengquan, and Mao, Tengyue

Published

2014

36. One-stage lumbopelvic fixation in the treatment of lumbosacral junction tuberculosis.

Author

Xu, Zhengquan, Wang, Xiyang, Shen, Xiongjie, Luo, Chengke, Wu, Ping, and Zeng, Hao

Subjects

LUMBOSACRAL region, TUBERCULOSIS treatment, VISUAL analog scale, SURGICAL complications, QUALITY of life, SURGERY

Abstract

Purpose: To investigate the clinical efficacy and feasibility of surgical treatment for lumbosacral junction tuberculosis by one-stage posterior debridement, interbody fusion, lumbopelvic fixation, and postural drainage. Methods: A total of 15 cases with lumbosacral junction tuberculosis treated by one-stage posterior debridement, interbody fusion, lumbopelvic fixation, and postural drainage in our center from January 2005 to October 2011 were studied. Lumbosacral angle, visual analog scale (VAS), and neurological performance were assessed before and after surgery. Results: All patients were followed for 28-56 months post-operation (average, 40.7 ± 7.7 months). No severe complications occurred. Bone fusion occurred in all patients at a mean of 8.4 months (range 6-12 months) after surgery. The mean lumbosacral angle was significantly increased from the mean preoperative angle (20.9° ± 1.8°) both post-operatively (26.5° ± 1.6°) and at final follow-up (25.3° ± 1.4°) (both P < 0.05). All patients had significant post-operative improvement in neurological performance and VAS scores. Conclusions: Our results suggest that one-stage posterior debridement, interbody fusion, lumbopelvic fixation, and postural drainage can be an effective and feasible treatment option for lumbosacral junction tuberculosis, offering fewer complications and a better quality of life. [ABSTRACT FROM AUTHOR]

Published

2015

37. Distributed Storage Algorithm for Geospatial Image Data Based on Data Access Patterns.

Author

Pan, Shaoming, Li, Yongkai, Xu, Zhengquan, and Chong, Yanwen

Subjects

GEOSPATIAL data, IMAGE storage & retrieval systems, ACCESS to information, IMAGE files, HEURISTIC algorithms, PROBABILITY theory

Abstract

Declustering techniques are widely used in distributed environments to reduce query response time through parallel I/O by splitting large files into several small blocks and then distributing those blocks among multiple storage nodes. Unfortunately, however, many small geospatial image data files cannot be further split for distributed storage. In this paper, we propose a complete theoretical system for the distributed storage of small geospatial image data files based on mining the access patterns of geospatial image data using their historical access log information. First, an algorithm is developed to construct an access correlation matrix based on the analysis of the log information, which reveals the patterns of access to the geospatial image data. Then, a practical heuristic algorithm is developed to determine a reasonable solution based on the access correlation matrix. Finally, a number of comparative experiments are presented, demonstrating that our algorithm displays a higher total parallel access probability than those of other algorithms by approximately 10–15% and that the performance can be further improved by more than 20% by simultaneously applying a copy storage strategy. These experiments show that the algorithm can be applied in distributed environments to help realize parallel I/O and thereby improve system performance. [ABSTRACT FROM AUTHOR]

Published

2015

38. Integrating Encryption and Marking for Remote Sensing Image Based on Orthogonal Decomposition.

Author

Jiang, Li, Niu, Tianye, Xu, Zhengquan, and Xu, Yanyan

Abstract

For the special characters, remote sensing image has higher requirements not only in the security but also in the management; it requires not only the active encryption during storage and transmission for preventing information leakage but also the marking technology to prevent illegal usage as well as copyright protection or even source tracing. Therefore, this paper proposes to integrate encryption and marking technology by the independence and fusion of orthogonal decomposition for the comprehensive security protection of remote sensing image. Under the proposed scheme, encryption and marking technology can achieve the operation independence and content mergence; moreover, there is no special requirement in selecting encryption and marking algorithms. It makes up the shortage of recent integration of encryption and watermarking based on spatial scrambling in applicability and security. According to the experimental results, integration of encryption and marking technology based on orthogonal decomposition satisfies the common constraints of encryption, and marking technology, furthermore, has little impact on remote sensing image data characters and later applications. [ABSTRACT FROM PUBLISHER]

Published

2015

39. A dynamic statistical model for geospatial data access laws based on cloud computing.

Author

Pan, Shaoming, Xu, Zhengquan, and Liu Xiaojun

Published

2013

40. The Security Analysis of Data Re-Encryption Model in Cloud Services.

Author

Gu, Xin, Xu, Zhengquan, Xiong, Lizhi, and Feng, Chunhui

Published

2013

41. A new comprehensive security protection for remote sensing image based on the integration of encryption and watermarking.

Author

Jiang, Li, Xu, Zhengquan, and Xu, Yanyan

Abstract

For the special characters, remote sensing image has higher requirements in content security: it desires not only the encryption during storage and transmission for preventing information leakage, but also the watermarking after illegal usage for copyright protection or even source tracing. Therefore, this paper proposed to integrate encryption and watermarking based on the orthogonal decomposition for the comprehensive security protection of remote sensing image. By the proposed method, encryption and watermarking can achieve the operation independence and the content mergence; moreover, there is not special requirement in selecting special encryption and watermarking algorithms. It makes up the shortage of recent integration method based on spatial scrambling in application and possesses higher security. According to the experimental results, the proposed method satisfies the common constraints of encryption and watermarking, furthermore, has little impact on remote sensing image data characters and later applications. [ABSTRACT FROM PUBLISHER]

Published

2013

42. Trusted Service Application Framework on Mobile Network.

Author

Gu, Xin, Xu, Zhengquan, Wang, Tao, and Fang, Yilin

Abstract

With the development of information technology and secure applications in key departments (such as national security department, medical establishment), existing mobile network was not dependable enough for service-oriented applications. Facing to the secure requirements in mobile network, a new trusted service application framework was proposed, which included applications analysis, network services, security protocols, error detection and fault tolerance. Combined with natural attribute of trust, trust evaluation model was built. It enhanced reliability and security of mobile network applications. Our experimental results showed this framework not only had advantages but also had a good reference value. [ABSTRACT FROM PUBLISHER]

Published

2012

43. A dynamic method for metadata partitioning based on intensive access of spatial data.

Author

Lin Yanping, Li Rui, Xu Zhengquan, and Guo Rui

Published

2011

44. An Active-Passive Security Protection Method for Remote Sensing Image.

Author

Xu Yanyan, Zhang Yuxia, and Xu Zhengquan

Published

2011

45. A spatial-temporal covariance model for rainfall analysis.

Author

Li, Sha, Shu, Hong, and Xu, Zhengquan

Published

2009

46. A Scalable Conference Key Management Scheme.

Author

Xu Yanyan, Xu Zhengquan, and Li Maoquan

Published

2006

47. A Scalable De-centralized Multicast Key Management Scheme.

Author

Xu Yanyan, Xu Zhengquan, Chen Xi, and Yu Zhanwu

Published

2006

48. An efficient scheme to secure VLC codeword concatenations for video encryption.

Author

Li, Wei, Xu, Zhengquan, and Yao, Ye

Published

2005

49. An effective genetic algorithm for multicast routing tree with degree delay constrain.

Author

Chen, Lin and Xu, ZhengQuan

Published

2005

50. A dynamic core-based tree scheme for key management in secure multicast.

Author

Xu, ZhengQuan and Chen, Lin

Published

2005