The Dynamic Access Control Model for Cloud Web Based on Repeated-game Theory

Yixuan Zhang,Jingsha He,Bin Zhao 보안공학연구지원센터 2015 International Journal of Grid and Distributed Comp Vol.8 No.4

Access control, what is a core technology in information security, has been widely used cloud web. It is used to distribute objects’ resources to subjects according to some principles. But until now, most traditional access control models are focused on the distributional principles; the security of systems is always ignored. Protecting data and resources in computers from threats and attacks is also an important aspect in access control, especially in cloud web where there are a great deal of threats and attacks. In this paper, we introduce the present situation and related work of access control. Then we analyze the security problems in computer systems with traditional access control model, and get the prisoner’s dilemma in it through Nash equilibrium. To solve this dilemma, we applied repeated-game theory to access control and build a new model RTAC. The ultimate goal of RTAC is to encourage subjects’ honest accesses and discourage subjects’ malicious accesses through Nash equilibrium. At last, we perform some experiments and show the advantages of RTAC over the traditional access control model.

Experimental Study on Grouting Diffusion Law of the Different Crack Widths in Tunnel Lining

Bin Zhang,Yuanfu Zhou,Xuefu Zhang,Zijian Wang,Wei Yang,Yixuan Ban 대한토목학회 2023 KSCE Journal of Civil Engineering Vol.27 No.4

Grouting technology is an important method that has been widely adopted for the crack repair of tunnel lining, but the diffusion law of grouting slurry is still uncertain in tunnel lining cracks. For the sake of exploring the grouting diffusion law of tunnel lining cracks, this paper investigated the grouting diffusion shape and the relation between the diffusion radius and time with different crack widths in tunnel lining which by means of laboratory experiments and statistical analysis. Meanwhile, the diffusion equation of grouting in lining cracks has been established on basis of the grouting diffusion shape and experimental data. Furthermore, it is analyzed the correlation between the experimental values and the calculated values. The results revealed that the diffusion shape can be divided into a circular zone, excessive zone, and elliptical zone in the tunnel lining cracks, and the calculated values of the equation of grouting diffusion are highly correlated with the experimental values. Additionally, it is shown that the diffusion equation can accurately describe the relationship between diffusion radius and time of grouting in tunnel lining cracks. The study results would provide a theoretical basis for the prediction of diffusion radius on grouting repair for tunnel lining cracks.

Inertia matching analysis of a 5-DOF hybrid optical machining manipulator

Yixuan Kong,Gang Cheng,Feng Guo,Wei Gu,Laibin Zhang 대한기계학회 2019 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.33 No.10

Inertia matching means the ratio of the mechanical load inertia is converted to each actuator shaft to motor inertia, which is guaranteed within a reasonable range. At present, inertia matching is widely applied to tandem manipulators and CNC machine tools. However, the researches on the inertia matching of large load inertia optical machining manipulators have not been paid sufficient attention. We took the 5-DOF hybrid optical machining manipulator as the research object, established inverse dynamics model based on virtual work principle, and expressed the algebraic relationship between the joint-reflected inertia (JRI) coefficient and the ratio of load inertia. We also determined the inertia matching range of the machining manipulator by analyzing the mechanical system’s resonance frequency, energy matching efficiency and other factors qualitatively and quantitatively, as well as combining the load inertia ratio with dynamic precision characteristics. Finally, according to the derivation results, we analyzed the inertia matching rules of the 5-DOF hybrid optical machining manipulator with different structural parameters in certain machining tasks. In addition, the JRI coefficient and inertia matching principle proposed in this paper can be widely applied to other machining manipulators’ selection of driving equipment under different machining targets, and can also be used to evaluate the selection results.

Identifying University Cash Flow Pattern Recognition : A Data Clustering Approach

Yixuan Ma,Zhenji Zhang 보안공학연구지원센터 2016 International Journal of Database Theory and Appli Vol.9 No.4

The fast-developing Chinese higher education and research institutions are faced with more and more serious challenges in their financial regulation. Traditional accounting approaches may fail to distill useful decision-making suggestions confronted with the multi-species and huge-quantity financial “big data”. To reveal valuable information, this research focuses on the pattern recognition of the funding flows in 76 universities under Chinese Ministry of Education. Given the trend feature of the data series detected by the Mann-Kendall Non-Parameter Ranking Test, the low-frequency parts of the funding flows are distilled with wavelet transform to represent their basic features. Results show a clear hierarchy structure in the investments and expenses of universities according to their “titles” and advantage disciplines. Specifically, the comprehensive universities fall to different categories according to their “titles”, while the professional universities are classified according to their disciplines. The scientific and technical focused universities show larger variance among different categories than other specific discipline focused universities.

Study on the different effects of aluminum doping on Fe-Mn and Ni-Mn based compounds as cathode material for sodium-ion batteries

Danlei Qiao,Yixuan Zhang,Chang Su,Guoqiang Liu,Qingxiang Wang,Lei Wen 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.124 No.-

Al-doped Fe-Mn and Ni-Mn based materials with P2-type layered structure has been synthesized andtested as a positive electrode material for rechargeable sodium batteries. The modification mechanismsof Al doping in Fe-Mn and Ni-Mn based materials have been discussed. The synthesized Al-doped Ni-Mnbased material Na0.67Mn0.8Ni0.16Al0.04O2 delivers a reversible capacity of 135.1 mAh g1, which correspondsto 92.1% of the initial capacity with excellent cyclability for 200 cycles. What’s more, it can stillremain a capacity of 96.2 mAh g1 at a current density of 2000 mA g1. When the voltage range increaseto 1.5 – 4.3 V, its initial discharge capacity can reach 190.3 mAh g1.

Cutting parameters optimization for MRR under the constraints of surface roughness and cutter breakage in micro-milling process

Xiaohong Lu,Haixing Zhang,Zhen-yuan Jia,Yixuan Feng,Steven Y. Liang 대한기계학회 2018 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.32 No.7

Selection of cutting parameters in micro-milling operations is essential for improving machining efficiency and quality, and prolonging the micro-milling tool life. The increase of material removal rate (MRR) always means the increase of cutting parameters, which may lead to poor surface quality and micro-milling tool failure, even cutter breakage. An optimization approach based on genetic algorithm is used to achieve the maximum MRR under the constraints of surface roughness and cutter breakage. A theoretical model for predicting micro-milling cutter breakage is presented and micro-milling experiments were conducted to establish statistical models of cutter breakage and surface roughness. The optimized results were achieved under the constraints of the specified surface roughness and compared under the different surface roughness limitation. We find that the optimized results improve the machining efficiency and quality in micro-milling and is affected by constraint conditions complicatedly.

Designs and Simulations of Multi-factor in Trust Evaluation

Zhao Bin,He Jingsha,Huang Na,Zhang Yixuan,Zhou Shiyi,Ji Jie 보안공학연구지원센터 2015 International Journal of Database Theory and Appli Vol.8 No.1

Trust Model is an efficient way of resolving the trust problems in open networks in which trust evaluation is a key issue to be addressed in trust management. According to the design rules of trust models, the problem of the lack of dynamic adapt ability in trust evaluating, the lack of effective aggregation of trust and the lack of considerations to incentive mechanisms and so on, this paper introduced the bonus-penalty factor which shows how reliable is the direct trust of the recommend entities to the subject and evaluation reliability of the recommend entities which is used to decide whether the access object would adopt the recommendation of the recommend entities during the calculation of the recommend trust. The measurement of integrated trust solves the weight problem between direct trust and recommendatory trust by introducing balanced weight factor. Finally, we present designs of bonus-penalty function and balanced weight factor and simulations by Matlab software.

Improvement of electrochemical performance of NaCrO2 by removing electrochemically inert sodium ions

Chang Su,Guo-Qiang Liu,Yixuan Zhang,Danlei Qiao 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.120 No.-

In this study, we used ultrasonic treatment and ethanol cleaning (UE treatment) to remove a smallamount of electrochemically inert Na+ ions from the surface lattice of NaCrO2 to obtain a modified materialNaCrO2-UE. Its electrochemical properties were significantly improved. At a rate of 10C, the initialdischarge capacity of NaCrO2-UE was 115.8 mAh/g, and the retention rate was 87.0 % after 500 cycles. Moreover, at a higher rate of 40C, it could deliver a discharge capacity of 111.4 mAh/g. In addition, thedischarge voltage plateau of NaCrO2-UE reached 2.91 V, while the discharge voltage plateau of pristineNaCrO2 was 2.78 V.

Experimental Study on Fire Resistance Performance of Concrete-Filled Steel Plate Composite Walls

Ting Zhou,Xueshan Liu,Hongbo Liu,Yixuan Li,Pengfei Zhang,Huazhou Chen,Zhi-Hua Chen 한국강구조학회 2023 International Journal of Steel Structures Vol.23 No.2

Concrete-filled steel plate composite walls are increasingly used in high-rise buildings; their mechanical properties at room temperature have produced fruitful results. However, research on their mechanical properties in fire and at high temperatures is scarce. Moreover, published studies on the fire resistance of concrete-filled steel plate composite walls have not considered the impact of fire protection measures. Based on previous fire resistance research, a fire resistance test was designed in this study for four walls under the combined action of axial compression and a single-sided fire under the ISO-834 standard heating curve. Apart from that, the existing fire protections have the disadvantages of too thick, easy falling off and cracking or difficult to install. In order to eliminate the disadvantages of existing fire prevention measures, new composite fireproof structure using a rock wool board and a thin fire-retardant coating is proposed. The effects of no fireproof structures, autoclaved lightweight concrete plate fireproof structures, thick-coated fire-retardant structures, and new composite fireproof structures on the fire resistance of concrete-filled steel plate composite walls were studied experimentally. The results show that the fire resistance of the four test specimens meets the 3 h fire resistance limit of the primary load-bearing component in the specification. Based on the experimental results, reasonable fire protection methods are suggested for concrete-filled steel plate composite walls in actual projects, and an experimental basis is provided for further numerical simulation.