According to Chubb, the International Telecommunication Union (ITU) defines a Next Generation Network (NGN) as:
“…a packet-based network able to provide Telecommunication Services to users and able to make use of multiple broadband, QoS-enabled transport technologies and in which service-related functions are independent of the underlying transport-related technologies. It enables unfettered access for users to networks and to competing service providers and services of their choice. It supports generalised mobility which will allow consistent and ubiquitous provision of services to users.”
In simpler terms, a Next Generation Network (NGN) represents a modern type of network infrastructure, like advanced highways for internet data. Different types of information, such as phone calls, video, and internet data, are encapsulated into small units called packets. These packets travel the internet swiftly and efficiently, reaching their intended destinations with ease.
NGNs function seamlessly, allowing users to access a variety of services from different providers without hassle, making communication smoother and more versatile. With the ability to work across various high-speed internet connections, NGNs ensure users can effortlessly connect to different networks and choose from an array of service options.
Additionally, NGNs support mobility which enables consistent access to services from anywhere. This allows individuals and businesses alike to navigate the digital landscape with confidence.
The driving force behind transition
The digital switchover to NGNs isn’t merely a technological upgrade; it’s a strategic imperative dictated by the demands of our digital era. The transition from legacy analogue systems – Public Switched Telephone Network (PSTN) – to advanced digital architectures, promising heightened efficiency, reliability, and innovative services.
Originally planned to be completed by the end of 2025, the digital switchover has now been delayed until January 2027. This has been done so that broadband providers, telecare providers and consumers have more time to adapt. When the switchover does happen, the telecommunications landscape in the UK will undergo a profound transformation.
The potential for businesses
For businesses, NGNs herald a new era of connectivity and productivity. Unified communication services offered by NGNs facilitate seamless integration of voice, data, and video, unlocking transformative avenues for collaboration through features like video conferencing. Furthermore, the increased bandwidth and enhanced reliability inherent in NGNs enable organisations to embrace data-intensive applications with confidence, enhancing capabilities, productivity, and adaptability.
Next Generation Security
But what does this all mean for security? Well, from Chubb's angle, a Next Generation Network offers multiple security benefits to businesses, particularly in remote monitoring operations. The enhanced connectivity ensures seamless communication between monitoring devices and central systems, such as Chubb’s Alarm Receiving Centre (ARC), thereby facilitating real-time data transmission for timely decision-making.
A Next Generation Network also provides improved reliability to minimise downtime and ensure continuous operation, even during network disruptions. Furthermore, NGNs offer scalability and flexibility, allowing businesses to expand their infrastructure as needed to deploy solutions across diverse environments without compromising performance or security.
Protecting people first
In the healthcare sector, telecare systems designed to enhance the safety and well-being of individuals stand to gain immensely from NGNs. From expediting emergency response to enabling real-time health monitoring, NGNs equip telecare solutions with unparalleled efficacy and reliability, ushering in a new era of personalised care.
Protecting the NGN
However, the transition to NGNs isn’t without its challenges. Compatibility issues, concerns about reliability, and privacy risks necessitate careful planning and foresight to mitigate potential pitfalls.
The constant threat of cyber attacks call for the implementation of robust security architecture to protect the network. Tactics such as advanced encryption, sophisticated authentication mechanisms, and integrated security features can fortify the network against malicious intrusions, safeguard critical data, and comply with regulatory standards.
As businesses and individuals embrace the promise of NGNs, striking a delicate balance between innovation and security becomes imperative.