The Port of Tyne, in collaboration with BT and Ericsson, has launched a groundbreaking 4G and 5G private network, making it the first smart port in the UK to deploy site-wide standalone connectivity.
This initiative aligns with the Port's goal to become a leading smart port focusing on safety, efficiency, and sustainability.
The private 5G wireless network will enable various applications, including autonomous vehicles, survey drones, smart surveillance, artificial intelligence, and extended reality. Initial use cases, starting in November, involve automatic number plate recognition for secure vehicle access and AI-driven container inspection. The Port aims to integrate these advanced technologies to meet customer demands and transition into an eco-friendly smart port.
Together with partners BT and Ericsson (NASDAQ: ERIC), the Port has deployed a private network with coverage across the entire estate, making it the UK’s first site-wide deployment of 4G and 5G standalone connectivity for smart port applications. The infrastructure is built upon an Ericsson Private 5G solution and BT spectrum, whereby both 4G and 5G will operate simultaneously to support legacy devices as well as power new 5G applications in the port’s future transformation.
The first set of live use cases will begin in November, including video and sensors installed at each gate on the site to use automatic number plate recognition (ANPR) to securely manage and track vehicle access, as well as 5G-enabled cameras with a 360-degree view at the quayside combined with AI-driven software to provide automated container inspection and identification.
By deploying a private 5G wireless network, the port is positioning itself to integrate a series of future 5G applications and advanced technologies to support new customer requirements and enable the transition to a green smart port. These future applications include:
Autonomous Navigation Technology so that vehicles can move cargoes and equipment around the port
Remote crane operations that will enable operators to work from simulated cabs with precise location information, full HD+ video and sensory haptics
Connected drones at land and sea to autonomously inspect cranes, quayside, buoys and other physical infrastructure
Wearable technology and XR devices to be used for immersive training and remote maintenance engineers
A connected eco-system of AI sensors, video and data sources from inside and outside the port to generate new business intelligence and improve operational efficiency
The Port of Tyne also has an ambitious vision to become a leader in 5G maritime innovation and provide an industry eco-system testbed to help build a future blueprint of 5G-enabled smart applications to automate manual tasks, improve decision-making and reduce CO2 emissions.
Matthew Beeton, Chief Executive Officer, Port of Tyne said:
“I believe that 5G is going to play a crucial role in helping Port of Tyne achieve our goals. We can streamline our operations, improve safety and sustainability, and drive growth and innovation throughout the entire maritime industry and beyond. With seamless connectivity, we can link shipping companies, logistics providers, and regulatory bodies from around the world, enabling us to work together more effectively to address global challenges like climate change and cybersecurity threats.”
Ashish Gupta, MD, Corporate and Public Sector at BT, said:
“What makes 5G so exciting is it allows innovative use cases which help businesses do things quicker, safer, smarter, better. At Port of Tyne, it’s about taking people out of harm’s way, where autonomous machines could instead be used in dangerous environments, and laying the digital foundations to introduce new technologies and improve efficiency at the port.”
Duncan Hawkins, VP Dedicated Networks & Enterprise Wireless Solutions, Ericsson, said:
“Together with BT and the Port of Tyne we are turning the vision of a 5G port into a reality, and this deployment serves as a great model of maritime innovation for the UK and the world. 5G brings the essential characteristics such as coverage, speed and low latency to leverage new applications and use cases required to transform port operations, drive business efficiencies, and build a blueprint for sustainability success and future economic growth.”
