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A CPN-based Trust Negotiation Model on Service Level Agreement in Cloud Environment
Hongwei Chen,Qiuxia Chen,Chunzhi Wang 보안공학연구지원센터 2015 International Journal of Grid and Distributed Comp Vol.8 No.2
The negotiation process of the Service Level Agreement (SLA) in cloud environment is an interaction process of access control rules and credentials. Due to the mass of credentials in cloud environment, the negotiation efficiency is not high. To address the problem, this paper proposes an Automated Trust Negotiation (ATN) model based on Colored Petri Net (CPN), which exists a legitimate occurrence sequence and a reachable state space graph. A Minimal Credential Path Searching (MCPS) algorithm is proposed to find a minimum credential disclosure set in the reachable marking graph. The results show that the algorithm can effectively improve the negotiation efficiency.
An SLA-oriented Multiparty Trust Negotiation Model based on HCPN in Cloud Environment
Chunzhi Wang,Qiuxia Chen,Hongwei Chen,Hui Xu 보안공학연구지원센터 2015 International Journal of u- and e- Service, Scienc Vol.8 No.7
The negotiation on Service Level Agreement (SLA) in current complex cloud environment often involves the multilateral negotiation. Therefore, this paper presents an SLA-oriented multiparty trust negotiation model based on Hierarchical Colored Petri Net (HCPN) in cloud environment. This model mainly provides trust negotiation of SLA parameters such as credibility, reliability, availability and service price so on for Cloud Service Providers (CSPs) and Cloud Service Consumers (CSCs), thus making complex process description of multiparty trust negotiation on SLA in cloud environment simple and efficient. On the basis of the HCPN model on SLA, this paper puts forward a multi-objective optimization algorithm for SLA trust negotiation. Simulation results show that the algorithm not only improves efficiency of multilateral negotiation, but also avoids QoS negotiation falling into local optimization.
Ruixi Bai,Yang Zhang,Zhigang Zhao,Qiuxia Liao,Peng Chen,Panpan Zhao,Wanghuan Guo,Fan Yang,Laichao Li 한국공업화학회 2018 Journal of Industrial and Engineering Chemistry Vol.59 No.-
Rapid and highly selective magnetic core–shell adsorbents for Pb2+ removal from simulated wastewater of rare-earth industry were prepared by synthesizing chitosan-coated Fe3O4 (Fe@CS) beads and following chemical-grafting steps for the diglycolamic-acid group (DGA). The adsorbents had a highly selective ability for Pb2+ toward other metal ions, which attributed to the superior infinity between the DGA and Pb2+. The maximum adsorption capacity of Pb2+ was 70.57 mg/g. The R2 of the pseudo-second order kinetics was 0.99857, which indicated the adsorption process was controlled by chemical reactions. Moreover, diglycolamic-acid functionalized Fe@CS (Fe@CS-DGA) beads separated from water within 9 s under magnetic fields.