Xiaohui Jia scite author profile

Xiaohui Jia

5Publications

5Citation Statements Received

45Citation Statements Given

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Affiliations

Yunnan University of Finance And Economics

Publications

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SaaS Service Combinatorial Trustworthiness Measurement Method Based on Markov Theory and Cosine Similarity

Gao

Jia

Jiang

et al. 2022

Security and Communication Networks

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With the rapid progress of information technology, cloud computing and cloud services are widely accepted and applied to all aspects of social life. In the cloud computing environment, SaaS (Software-as-a-Service) services have become the main form of software services. For SaaS services, evolutionary and iterative development methods have become the main methods of software system construction. For systems with high trustworthiness, the independent trustworthiness of each SaaS service has a great impact on the overall status. However, SaaS services with high independent trustworthiness do not always build highly trusted software systems. The combinatorial trustworthiness between SaaS services is as important as the independent trustworthiness of each SaaS service. This paper takes combinatorial trustworthiness between SaaS services as the research object. Combinatorial trustworthiness measurement method based on Markov and cosine similarity theory is proposed. The feasibility and effectiveness of the proposed method are verified through simulation experiments. Applicable scenarios, advantages, and disadvantages of the proposed method are shown through the comparison of different measurement methods. The proposed method provides theoretical and technical support for users to select SaaS services suitable for their application scenarios, build cloud service systems, and monitor the operation status of cloud service systems.

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Trusted Cloud Service System Based on Block Chain Technology

Gao

Jia

Jiang

et al. 2022

Wireless Communications and Mobile Computing

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With the development and popularization of cloud computing technology, more and more users choose cloud services to build their application systems. With the improvement of users’ understanding of software systems, in addition to functionality, trustworthiness has become another key issue concerned by users. Based on the existing research on cloud service trustworthiness measurement and evaluation, this paper proposes a cloud service-trusted delivery model based on asymmetric encryption and hash function and a trusted runtime model of cloud service system based on block chain technology. The proposed models will effectively solve the untrusted problems such as denial and tampering in the process of cloud service acquisition, as well as the system anomaly at runtime. Finally, through targeted experiments to verify the effectiveness and feasibility of the proposed models, and through experimental analysis, this paper expounds on the principle and mechanism of model operation and trustworthiness guarantee.

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Progress in study of rockburst experiments and control countermeasures

He¹,

Jia²,

Gong³

et al. 2011

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Research on a Trusted Delivery Process Model of Cloud Services

Gao

Zhang

et al. 2022

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Research on Calculation Method of Software Service Risk Occurrence Probability Based on Markov Chain Theory

Jia

Gao

et al. 2021

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Xiaohui Jia

SaaS Service Combinatorial Trustworthiness Measurement Method Based on Markov Theory and Cosine Similarity

Trusted Cloud Service System Based on Block Chain Technology

Progress in study of rockburst experiments and control countermeasures

Research on a Trusted Delivery Process Model of Cloud Services

Research on Calculation Method of Software Service Risk Occurrence Probability Based on Markov Chain Theory

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