The key to bringing this profound intelligence to the building is optical fiber, because it’s the only medium capable of delivering sufficient bandwidth to support current and anticipated usage. Although developers sometimes try to engineer fiber out—because it’s too expensive, or not necessary—tenants have fundamental expectations that only fiber can deliver.
Legrand and DASAN Zhone Solutions have agreed to jointly market DZS’s Passive Optical LAN (POL) solution, FiberLAN™ and Legrand’s complete range of network connectivity, physical support, power and thermal management solutions. Under the terms of the agreement, Legrand and DZS are together targeting the smart building market with a complete solution set that is designed to provide end customers with the infrastructure and equipment needed to deploy a full POL solution.
The lifecycle of a traditional enterprise Ethernet switch, supported by copper cable, is 5 to 7 years. POLs eliminate the need to rip and replace network infrastructure, requiring changes only to the endpoints. This webinar will focus on the deployment of optical line terminals, passive optical splitters and optical network terminals to optimize enterprise network architecture for modern-day applications like IoT, cloud, network-as-a-service and wireless.
Overcoming the Challenges at Texas A&M Kyle Field due to the Changing Landscape of Always Connected Technology
Tellabs Optical LAN fiber-based stadium network is the foundation enabling Texas A&M’s Kyle Field to surpass previous game day data traffic peak usage. In order to meet the demands of all these new services without the cost and complexity of legacy technologies, TAMU chose a converged infrastructure, with optical fiber cabling and power delivery to the edge, for both LAN and DAS needs.
Deploying a POL can help make your network more secure. Here’s why. Fiber optic cabling is more secure than copper cabling. Centralized intelligence and management is accessible only at the OLT, locked in the main data center. It’s easy to implement tight network access control. ONTs do not store user or network information. And, ONTs have no local management access.
A Passive Optical LAN design provides greater flexibility to right-size connectivity across the enterprise LAN – inside buildings and across an extended campus. Optical LAN better aligns space, energy, heat, noise, radiation, and costs with your real bandwidth requirements, which honestly is not going to be 10Gbps to everything.
Vision Technologies designed, installed, and commissioned a unified WiFi and passive optical network (PON) system for The Wharf, a mile-long, 24-acre, $2.5-billion mixed-use development along the Potomac River in Washington D.C. The system provides state-of-the-art, pervasive 802.11ac wireless service to residents, workers, and guests traversing the outdoor, garage, and 6000-person indoor-concert-venue areas. The entire implementation, testing, and commissioning was accomplished on a fast-track 30-day schedule.
Can your infrastructure support the upgrade to next-gen #PON? Make sure you have the right testing technology for the job. With gigabit broadband now becoming a bare essential, as well as the […]
Join Fluke Network’s Jim Davis for a webinar on field testing and troubleshooting PON LAN Networks per IEC 61280-4. Topics include inspection and cleaning (APC vs. UPC), PON Basics, understanding loss budgets, […]
The airport network design, using Tellabs Optical LAN, ensures a graceful and cost-effective means to grow the network connectivity in response to smart building IoT demand by leveraging the Optical LAN system […]