DeepVRM: Deep Learning Based Virtual Resource Management for Energy Efficiency

Network function virtualization (NFV) provides dynamic, energy-efficient, and cost-effective network services by segregating network services from expensive and energy-hungry hardware components. Traditional hardware-based network functions are always ON with 100% capacity, resulting in massive ener...

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Bibliographic Details
Published in:Journal of network and systems management 2023-10, Vol.31 (4), p.66, Article 66
Main Authors: Zaman, Zakia, Rahman, Sabidur, Rafsani, Fazle, Rahman, Ishraq R., Naznin, Mahmuda
Format: Article
Language:English
Subjects:
Algorithms
Artificial neural networks
Communications Engineering
Communications traffic
Computer Communication Networks
Computer Science
Computer Systems Organization and Communication Networks
Deep learning
Energy consumption
Energy efficiency
Forecasting
Hardware
Information Systems and Communication Service
Machine learning
Mathematical models
Multivariate analysis
Network function virtualization
Networks
Operations Research/Decision Theory
Resource allocation
Resource management
Virtual networks
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Summary:Network function virtualization (NFV) provides dynamic, energy-efficient, and cost-effective network services by segregating network services from expensive and energy-hungry hardware components. Traditional hardware-based network functions are always ON with 100% capacity, resulting in massive energy consumption. In contrast, NFV enables different network services (NS) through virtual network functions (VNFs), which can reduce energy consumption, by automatic ON/OFF (auto-scaling) of the VNFs depending on the traffic load. However, auto-scaling will introduce delays in the network service management process. This delay can be minimized by estimating future resource requirements accurately and taking proactive steps ahead of time. In this research, we propose the use of deep learning based forecasting algorithms to predict the required VNFs and virtual CPU for each VNF to complete a network service, often deployed as service function chain (SFC). We use long short term memory (LSTM), bidirectional-LSTM, and convolutional neural network (CNN) based algorithms to forecast resources from univariate and multivariate network traffic data. Experimental results show that CNN and bidirectional-LSTM-based forecasting models can forecast more accurately than the prior studies. Based on the forecasting models, we propose a resource allocation algorithm (DeepVRM) that can efficiently allocate resources to complete SFC.
ISSN:1064-7570
1573-7705
DOI:10.1007/s10922-023-09752-1