Abstract
Short information sharing time is one of the problems to be solved in the traditional Internet. Therefore, this paper proposes a hierarchical simulation of the Internet of Things sharing structure framework that trusts the cloud to drive Internet information resource sharing. By setting thresholds and iterative adjustment parameters, a complementary judgment matrix is constructed to obtain the minimum nonnegative deviation value and the optimal weight vector. This paper sorts according to the value of the Internet information security model, obtains the optimal model to avoid human tampering, and designs the information resource acquisition process to ensure the reliability of the source data. We use radio frequency identification (RFID) equipment in the preprocessing of massive heterogeneous data in the Internet of Things. In a network environment where resources are limited and heterogeneous are fully considered, the trust-based adaptive detection algorithm is used to evaluate the credibility of the trust-driven algorithm for hierarchical information resource sharing services in the cloud environment of the Internet of Things. We propose a cloud trust-driven hierarchical information resource sharing Internet information resource model. Firstly, the key characteristics of hierarchical information resource sharing are analyzed. Then, a hierarchical information resource sharing model was established by using specific constraints, trust steepness function, cloud trust evaluation criteria, and trust constraint coefficient. Finally, an example of IoT system is designed to verify the effectiveness of the model. Experimental results show that, compared with the traditional model or algorithm, this model has a good hierarchical sharing effect of the underlying resource information.
Highlights
Information resource center is the hub between communication and IT information system; that is, information resource center is the collection of information resources
Is technology is mainly studied from two aspects: one is the research on the underlying technology, including the radio frequency identification (RFID) equipment related to the Internet of ings, the Savant middleware, and the trusted query mechanism, to extract the model of how the Internet of ings resources search for websites. e second is the research on the management of Internet or resources and how to carry out scheduling and computing. e research is based on the trust-driven mechanism. rough the above research, the security positioning under the dynamic information of the Internet of ings is controlled to a certain extent, making it easy to control and unique. is research promotes the dynamic
By taking advantage of the advantages that explicit information resources and hidden information resources are closely combined with the Internet of ings system, the information resource model of layered sharing of underlying generic information resources driven by cloud trust in the Internet of ings is realized to a certain extent. e first part of the paper is the introduction, the second part introduces the relevant work, the third part studies hierarchical sharing of information resources in the Internet of ings, and the fourth part analyzes the results
Summary
Information resource center is the hub between communication and IT information system; that is, information resource center is the collection of information resources. Related research shows that most of the information resource center server utilization is only 10%; the main reason is that the smaller part of the server load and application of the unit is very single, and even some servers in the idle state, so these servers need to be dynamic adjustment, so as to improve server utilization efficiency Aiming at these problems, the paper proposed an IoT of trust cloud drive method of hierarchical information resource sharing, with the trust-driven platform design, and through the calculation algorithm of particle swarm algorithm to realize the rapid resource sharing, proved by the simulation, the proposed method is effective to overcome the insufficiency of the traditional method, and more satisfactory results were obtained.
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