Lu, Yao Liu, Lu Panneerselvam, John Yuan, Bo Gu, Jiayan Antonopoulos, Nick A GRU-Based Prediction Framework for Intelligent Resource Management at Cloud Data Centres in the Age of 5G The increasing deployments of 5G mobile communication system is expected to bring more processing power and storage supplements to Internet of Things (IoT) and mobile devices. It is foreseeable the billions of devices will be connected and it is extremely likely that these devices receive compute supplements from Clouds and upload data to the back-end datacentres for execution. Increasing number of workloads at the Cloud datacentres demand better and efficient strategies of resource management in such a way to boost the socio-economic benefits of the service providers. To this end, this paper proposes an intelligent prediction framework named IGRU-SD (Improved Gated Recurrent Unit with Stragglers Detection) based on state-of-art data analytics and Artificial Intelligence (AI) techniques, aimed at predicting the anticipated level of resource requests over a period of time into the future. Our proposed prediction framework exploits an improved GRU neural network integrated with a resource straggler detection module to classify tasks based on their resource intensity, and further predicts the expected level of resource requests. Performance evaluations conducted on real-world Cloud trace logs demonstrate that the proposed IGRU-SD prediction framework outperforms the existing predicting models based on ARIMA, RNN and LSTM in terms of the achieved prediction accuracy. 5G;Internet of things;Resource management;Cloud computing 2020-03-26
    https://figshare.le.ac.uk/articles/journal_contribution/A_GRU-Based_Prediction_Framework_for_Intelligent_Resource_Management_at_Cloud_Data_Centres_in_the_Age_of_5G/11588217