基于未知QoS预测和不确定用户偏好的时间感知云制造服务选择

Ying Yu, Shan Li, Jing Ma
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引用次数: 1

摘要

从几个功能相当的服务中选择最有效的服务仍然是一个持续的挑战。大多数制造业服务选择方法都将静态服务质量(QoS)作为主要的竞争因素。然而,在复杂的任务过程中,当多变的网络环境对QoS性能稳定有显著影响时,自适应很难实现。因此,在服务评估中,动态的暂时QoS值而不是固定的值正在获得一席之地。用户偏好在服务需求者选择个性化服务时起着重要的作用,而对于实时qos感知的云制造(CMfg)服务选择方法,这方面的研究很少。此外,获取所有时间QoS值是不现实的,这影响了评估的有效性。因此,本文提出了一种具有时效性的CMfg服务选择方法来解决这些问题。该方法首先利用时序QoS值的相似性特征建立未知QoS预测模型。该模型综合考虑了QoS属性和服务候选,有助于准确、方便地预测多维QoS值。然后使用一种可以自适应用户偏好的时序QoS测量算法来评估总体QoS。具体来说,我们采用了暂时的QoS冲突特征来克服片面的用户偏好,这在很大程度上被忽略了。实验结果表明,该方法优于经典的时间序列预测方法,并且可以通过减少用户偏好误判来找到更好的服务。
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Time-aware cloud manufacturing service selection using unknown QoS prediction and uncertain user preferences
Selecting the most efficient from several functionally equivalent services remains an ongoing challenge. Most manufacturing service selection methods regard static quality of service (QoS) as a major competitiveness factor. However, adaptations are difficult to achieve when variable network environment has significant impact on QoS performance stabilization in complex task processes. Therefore, dynamic temporal QoS values rather than fixed values are gaining ground for service evaluation. User preferences play an important role when service demanders select personalized services, and this aspect has been poorly investigated for temporal QoS-aware cloud manufacturing (CMfg) service selection methods. Furthermore, it is impractical to acquire all temporal QoS values, which affects evaluation validity. Therefore, this paper proposes a time-aware CMfg service selection approach to address these issues. The proposed approach first develops an unknown-QoS prediction model by utilizing similarity features from temporal QoS values. The model considers QoS attributes and service candidates integrally, helping to predict multidimensional QoS values accurately and easily. Overall QoS is then evaluated using a proposed temporal QoS measuring algorithm which can self-adapt to user preferences. Specifically, we employ the temporal QoS conflict feature to overcome one-sided user preferences, which has been largely overlooked previously. Experimental results confirmed that the proposed approach outperformed classical time series prediction methods, and can also find better service by reducing user preference misjudgments.
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