Abstract
With the rapid development of cyber-physical systems (CPS), building cyber-physical systems with high quality of service (QoS) has become an urgent requirement in both academia and industry. During the procedure of building Cyber-physical systems, it has been found that a large number of functionally equivalent services exist, so it becomes an urgent task to recommend suitable services from the large number of services available in CPS. However, since it is time-consuming, and even impractical, for a single user to invoke all of the services in CPS to experience their QoS, a robust QoS prediction method is needed to predict unknown QoS values. A commonly used method in QoS prediction is collaborative filtering, however, it is hard to deal with the data sparsity and cold start problem, and meanwhile most of the existing methods ignore the data credibility issue. Thence, in order to solve both of these challenging problems, in this paper, we design a framework of QoS prediction for CPS services, and propose a personalized QoS prediction approach based on reputation and location-aware collaborative filtering. Our approach first calculates the reputation of users by using the Dirichlet probability distribution, so as to identify untrusted users and process their unreliable data, and then it digs out the geographic neighborhood in three levels to improve the similarity calculation of users and services. Finally, the data from geographical neighbors of users and services are fused to predict the unknown QoS values. The experiments using real datasets show that our proposed approach outperforms other existing methods in terms of accuracy, efficiency, and robustness.
Highlights
Technical advances in ubiquitous sensing, embedded computing, and wireless communication have led to a new generation of engineered systems called cyber-physical systems (CPS) [1]
In order to solve the two problems, in this paper, we propose a personalized quality of service (QoS) prediction approach named GURAP (Geographic location and User Reputation Aware Prediction) based on reputation and location-aware collaborative filtering for CPS services
According to the above steps, we calculate the credible interval of each service, the user feedback information can be divided into trusted feedback, untrusted feedback, and no feedback, according to the QoS value of the CPS service invoked by the user
Summary
Technical advances in ubiquitous sensing, embedded computing, and wireless communication have led to a new generation of engineered systems called cyber-physical systems (CPS) [1]. The values of some user-dependent QoS properties (for example, response time, throughput, and so forth) may vary largely because of different users, physical positions, network conditions (4G, 5G, Wi-Fi, and so forth), and other objective factors [8] It is impractical for a single user to attempt all candidate CPS services to obtain sufficient QoS data for evaluation, it is important to predict user-dependent QoS values for effective CPS services recommendation. An effective QoS prediction approach, which can deal with data contributed by untrusted users, and mitigate the impact of data sparseness and the cold start problem [24], and achieve high prediction accuracy, is required for a robust CPS service recommender system.
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