Enhancing various cellular IoT solutions through service offerings of Virtualised Packet Gateways.
In the rapidly evolving world of mobile network operations, a new technology is making waves - the Virtualised Edge Packet Gateway (vE-PGW). This innovation is playing a pivotal role in delivering the low latency, high throughput, and scalable infrastructure required for large-scale Internet of Things (IoT) deployments across multiple countries.
The vE-PGW revolutionises traditional packet gateway functions by abstracting them from centralised servers and deploying them closer to the network's edge. This decentralisation brings significant benefits, chief among them being a drastic reduction in round-trip delays, which is crucial for latency-sensitive IoT applications such as industrial automation, autonomous vehicles, and augmented reality.
By processing data near the user, the vE-PGW improves responsiveness and overall user experience. Furthermore, it efficiently distributes traffic load, avoiding bottlenecks and congestion associated with centralised gateways. This scalable multi-tenant traffic management enables the handling of large volumes of simultaneous sessions and fluctuating throughput, all essential for massive IoT deployments.
Localised traffic handling and efficiency are other key advantages of the vE-PGW. By enabling local breakout of traffic, data can be routed locally rather than backhauled to a central gateway. This decreases transit costs, reduces congestion on interconnect links, and optimises network resource utilisation, enhancing service quality for end users.
Hosting packet gateway functions locally also helps meet country-specific data privacy, security, and regulatory requirements. This is particularly important for global mobile network operators (MNOs) managing multi-country deployments, as it ensures sensitive IoT data remains within national borders.
The vE-PGW can also integrate with Multi-Access Edge Computing (MEC) platforms to support service partitioning, network slicing, and enhanced security functions, all of which are important for advanced 5G/6G features that support diverse IoT use cases.
In essence, the vE-PGW is a fundamental enabler for MNOs to build flexible, high-performance, and scalable IoT networks across multiple countries. By bringing packet processing closer to the device, it optimises data flows, enables adherence to local policies, and meets the demanding requirements of next-generation IoT services in latency, throughput, and scalability.
This aligns with modern edge architecture principles, which emphasise decentralised, near-source data processing to maximise efficiency and responsiveness. The vE-PGW can be managed by third-party service providers, deployed quickly, and run on cloud infrastructure, allowing for flexible, on-demand deployment across multiple regions.
Join us on 11 September, 2025, for a panel discussion on virtualised edge P-GW propositions, where we delve deeper into this transformative technology.
The vE-PGW, a transformative technology, is poised to revolutionize the mobile network operations industry by enhancing data processing in data-and-cloud-computing environments. Its ability to meet the finance-related demands of next- generation IoT services, such as handling large volumes of simultaneous sessions and fluctuating throughput, makes it an essential component in the finance sector's growth. By embracing this technology, global mobile network operators (MNOs) can effectively manage their finance-intensive multi-country IoT deployments while adhering to local data privacy, security, and regulatory requirements.
