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Today’s dynamic organizations, including manufacturers, distribution warehouses, and transportation hubs such as airports, seaports, and rail yards, rely on an ever-growing network of connected devices, systems, and people to operate successfully. increasingly dependent. From employee safety systems to robots, security cameras, and self-driving cars, connected devices and applications have become essential to business.
Just like enterprises in “carpeted” environments, “uncarpeted” enterprises require high-performance networks that can handle the continuous sharing of data. These types of organizations require reliable connectivity not only indoors, but also outdoors, where traditional connectivity methods pose problems. . While often sufficient for office environments, wired networks used in conjunction with Wi-Fi scale across large indoor/outdoor facilities containing thousands of connected devices, sensors, and machines. and difficult to manage.
Similarly, public wireless networks, including LTE and ultra-fast 5G, may prove ineffective in many industrial environments where radio frequency (RF) transmissions encounter interference, as well as in isolated rural areas where coverage is unavailable. You may. Just as importantly, even in locations with optimal LTE or 5G coverage, public networks do not offer the guaranteed bandwidth, security, performance, or direct control that many CIOs and IT leaders demand. .
Adam Leventhal, managing partner of 5G and mobile edge computing innovation at Verizon Business, points out that today’s increasingly sophisticated and connected ports are a great example of the need for a new approach to connectivity. Masu. Although these are typically located in metropolitan areas or industrial parks with good public wireless coverage, ports and terminals present unique challenges that are best met with private wireless networks.
“Today’s advanced ports are some of the most connected enterprises,” Leventhal said. “From the use of autonomous forklifts to drones and high-resolution security cameras, innovations in automation require guaranteed bandwidth. It is also very important for improving workplace safety using applications such as sensors.”
Leventhal emphasizes that the dynamic nature of facilities such as ports, manufacturing plants, and utility facilities impacts the performance of connected devices, systems, and machinery.
“The RF transmissions used in the most robust and fastest public cellular networks are often pushed to their limits in areas where endpoints are shielded from the very data transmissions they rely on,” he says. “For example, if you’re using a scanner to enter inventory from a shipping container deep inside the hull of a giant cargo ship, you’re forcing a public cell phone network to penetrate many feet of solid steel.” Private wireless networks, whether LTE or 5G, can be designed and configured to provide optimal performance in even the most demanding environments.”
Importantly, private networks are also designed to improve cybersecurity.
“With a private 5G network, you can control provisioning, decide which devices and applications are prioritized to ensure optimal bandwidth at all times, and implement Zero Trust authentication to minimize the threat surface. ,” adds Leventhal. “For these reasons and many more, private wireless networks are becoming the norm in these demanding environments. Look at the value Verizon is bringing to ports in the US and UK.”
Learn how ABP made the decision to use the Verizon private 5G network to make the Port of Southampton an efficient global port.
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