Virtualized Evolved Packet Core (vEPC) Market Outlook, Geographical Segmentation, Industry Size & Share, Comprehensive Analysis to 2030
The virtualized evolved packet core market is likely to reach USD 13.65 Billion at a favorable 21.12% CAGR by 2030, states the latest Market Research Future (MRFR) report.
Growing Demand for Increased Bandwidth to Boost Market Growth
The growing requirement for increased bandwidth for running mobile networks had made the telecommunication operators in searching for cost-effective solutions that will boost the market growth over the forecast period.
Increasing Penetration of IoT and Machine to Machine Communication Devices to offer Robust Opportunities
The increasing penetration of IoT and machine to machine communication devices will offer robust opportunities for the market in the forecast period.
Rising Security Concerns to act as Market Restraints
The rising security concerns may act as a market restraint over the forecast period.
Integration of vEPC with Existing Mobile Core Systems to act as Market Challenge
The integration of vEPC with existing mobile core and back office systems will act as market challenge over the forecast period.
The virtualized evolved packet core market is bifurcated based on end user, use case, deployment, and component.
By component, the services segment will lead the market over the forecast period for the increasing commercialization and testing of 5G-ready solutions.
By deployment, the on-premise segment will dominate the market over the forecast period.
By use case, the IoT and M2M segment will spearhead the market over the forecast period.
By end user, the telecom operator segment will have the lions share in the market over the forecast period.
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Eminent industry players profiled in the global virtualized packet core market report include Nokia Corporation (Finland), Cisco System Inc. (US), Ericsson AB (Sweden), Samsung Electronics (South Korea), Huawei Technologies Co. Ltd (China), NEC Corporation (Japan), ZTE Corporation (China), Mitel Networks Corporation (US), Affirmed Networks (US), and Athonet S.R.L. (Italy).
In the ever-evolving landscape of telecommunications, the Virtualized Evolved Packet Core (vEPC) has emerged as a transformative technology that revolutionizes network architecture. With its ability to enhance connectivity, improve scalability, and enable flexible deployment, vEPC holds tremendous potential for revolutionizing the telecommunications industry. This article delves into the intricacies of vEPC, exploring its architecture, benefits, and impact on network performance.
- Understanding Virtualized Evolved Packet Core (vEPC):
The Virtualized Evolved Packet Core (vEPC) is a software-based implementation of the Evolved Packet Core (EPC), which serves as the core network component in 4G and 5G cellular networks. Traditional EPC infrastructure comprises dedicated hardware components, limiting flexibility, scalability, and efficiency. vEPC, on the other hand, leverages virtualization technologies to run EPC functions on standard servers, leading to significant improvements in network architecture.
- Architecture and Components of vEPC:
vEPC consists of three primary components: the Mobility Management Entity (MME), the Serving Gateway (SGW), and the Packet Data Network Gateway (PGW). The MME handles signaling and authentication, the SGW provides mobility and connectivity management, and the PGW acts as an interface between the cellular network and external networks. These components work together seamlessly, forming the backbone of the virtualized network architecture.
- Benefits of vEPC Implementation:
3.1 Enhanced Scalability: vEPC enables network operators to scale their infrastructure efficiently by dynamically allocating resources based on demand. The software-based nature of vEPC allows for seamless scaling, eliminating the need for extensive hardware installations and reducing costs.
3.2 Flexibility and Agility: With vEPC, network operators can rapidly deploy new services and applications, responding to changing market demands effectively. The virtualized architecture enables the creation of virtual network slices, allowing for optimized resource allocation and tailored services for specific user groups.
3.3 Improved Cost-Efficiency: By replacing dedicated hardware with virtualized infrastructure, vEPC significantly reduces capital and operational expenditures. Network operators can achieve cost savings through resource consolidation, simplified maintenance, and faster service provisioning.
3.4 Enhanced Reliability: vEPC introduces redundancy and failover mechanisms, ensuring high availability and fault tolerance. In case of hardware failures, the virtualized network can seamlessly migrate services to other resources, minimizing downtime and maintaining service continuity.
- Impact of vEPC on Network Performance:
4.1 Reduced Latency: vEPC minimizes latency by optimizing network routing and reducing processing delays. This improvement in latency is crucial for emerging technologies like 5G, where ultra-low latency is a critical requirement for applications such as autonomous vehicles and real-time communications.
4.2 Improved Quality of Service (QoS): vEPC enables network operators to prioritize traffic and allocate resources dynamically, resulting in enhanced QoS for different services. This flexibility allows for efficient management of high-bandwidth applications and ensures a consistent user experience.
4.3 Network Slicing for Customized Services: With vEPC, network operators can create virtual network slices tailored to specific user groups or applications. Each slice can have its own network characteristics, QoS policies, and security parameters, enabling the provision of customized services with varying requirements.
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The advent of Virtualized Evolved Packet Core (vEPC) has paved the way for a new era of network architecture, transforming the telecommunications industry. With its scalable and flexible nature, vEPC enables network operators to enhance connectivity, improve performance, and streamline operations. As the demand for faster and more reliable networks continues to rise, vEPC stands as a cornerstone technology for shaping the future of telecommunications.