Why 5G alone may not be enough for tomorrow’s factories
Researchers at the University of East London reveal a hybrid network built for faster, greener and more secure manufacturing
As manufacturers race towards smarter, faster and more automated production, the networks holding those systems together are coming under growing strain. Robots, sensors and autonomous machines all demand split-second responses and iron-clad security - yet traditional 5G alone is not always built for the scale, cost and complexity of modern industrial environments.
New research from the University of East London (UEL) points to a potential way forward. A study led by Dr Athirah Mohd Ramly introduces PHWAN, a private hybrid wireless access network designed specifically for Industry 4.0 manufacturing, promising faster response times, lower energy use and stronger security for smart factories of the future.
Rather than relying on a single network technology, PHWAN brings multiple wireless systems - including 5G, Wi-Fi and low-power industrial networks - under one intelligent control framework. The principle is straightforward: different machines have different needs, so the network should adapt dynamically instead of forcing everything through the same channel.
In practical terms, this allows time-critical robots to be prioritised for ultra-low-latency connections, while sensors and monitoring devices use more energy-efficient links. By shifting more data processing closer to the factory floor, the framework also reduces reliance on distant cloud systems, cutting delays and lowering the risk of disruption.
The research team modelled large-scale smart manufacturing environments and found that the proposed approach could halve network latency compared with conventional 5G setups, while reducing energy consumption by more than 60 per cent. For factories running thousands of connected devices, those gains could translate into smoother operations, lower running costs and a reduced environmental footprint.
Security is another central theme. Industrial networks are increasingly attractive targets for cyber-attacks, with downtime carrying serious financial consequences. PHWAN adopts a zero-trust model, continuously verifying devices and users rather than assuming anything inside the network is safe. Decentralised authentication and AI-driven monitoring are designed to limit how far any breach can spread.
Dr Ramly, Lecturer in UEL’s School of Architecture, Computing and Engineering and lead author of the study, said the work reflects a growing need to rethink industrial connectivity from the ground up.
“Smart factories depend on communications that are not just fast, but predictable and secure,” she said. “By combining different wireless technologies and managing them intelligently, PHWAN shows how industrial networks can be better aligned with the real demands of modern manufacturing.”
Beyond technical performance, the research highlights a broader shift in how connectivity is viewed within industry. As production systems become more autonomous and data-driven, networking infrastructure is no longer just a background utility, but a critical enabler of resilience and competitiveness.
The study was developed at UEL and is published in the Egyptian Informatics Journal, an international journal from Elsevier focusing on advances in informatics and intelligent systems.
As Dr Ramly added, “The future of manufacturing will be shaped by networks that are flexible by design. PHWAN is about giving industry a practical framework to build faster, greener and more resilient production systems for what comes next.”
Journal
Egyptian Informatics Journal
Subject of Research
Not applicable
Article Title
Beyond 5G: PHWAN – A secure, low-latency, and cost-effective framework for Industry 4.0 smart manufacturing
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