ESPOO, Finland - Nokia has announced today that it has deployed its G.fast solution to extend the Fiber to the Home (FTTH) network of NetCologne, the largest regional telecommunications provider in Germany with over 28,000 kilometers of laid fiber-optic cables.
Nokia's G.fast technology allows NetCologne to extend fiber service into buildings to give end users the option of accessing up to five times faster access speeds, reaching up to 1Gbps. Powered by Nokia software-defined access networks, NetCologne innovates with flexible cloud operations and brings new digital services to market fast in the greater Cologne/Bonn/Aachen area.
As a provider of network infrastructure to NetCologne for the last 25 years, Nokia is now set to support extensive upgrades to 30,000 Fiber to the Building (FTTB) installations, upgrading the last drop from VDSL2 to G.fast technology. Nokia G.fast 212 MHz technology will not only bring ultra-broadband speeds to NetCologne’s customers, the technology upgrade will also increase operational efficiency as zero touch provisioning cuts rollout costs and configuration time in half. Once NetCologne’s FTTB footprint is transitioned to G.fast, the Nokia Altiplano cloud platform will allow the operator to get better insights in increasing volumes of operational data and automate operations across the entire access network.
Through the deployment, NetCologne will benefit from the following Nokia solutions:
Nokia Lightspan SX – industry-leading G.fast distribution point unit with advanced vectoring capability and highly efficient power circuitry, significantly reducing the power consumption per port.
Nokia Altiplano Access Controller – SDN controller with open programmable interfaces and intent-based networking enables simplified provisioning, reduced cost of operations, automation and portability for future network evolution.
Nokia GPON - (Gigabit Passive Optical Networks) OLTs (Optical Line Termination) – for greater speed and capacity for FTTH, enabling premium Gigabit services
A budget of $61 billion to $118 billion would enable the US to bring 1-Gig to all locations that get less than 100/20 Mbit/s service that aren't tied to RDOF phase I, ACA Connects/Cartesian study finds.
Today’s access network architecture is under mounting pressure due to a continued surge in the number of connected devices, a proliferation of bandwidth-intensive customer applications and dramatic shifts in usage patterns related to the pandemic, such as work-from-home and e-learning.
Learn why now is the right time for cable operators to build greenfield networks or expand their existing networks with 10G PON, arming customers with high-speed symmetrical broadband. Gain a clear understanding of the drivers impacting the access network and the various approaches being considered to deliver higher speed services. Plus, find out the best practices that operators are employing as they leverage the latest in passive optical technology to future-proof their networks.
Topics to be covered include:
Node + 0 (Fiber Deep)
DOCSIS 3.1, DOCSIS 4.0 (FDX/ESD)
FTTP and 10G PON
Provisioning 10G PON within a DOCSIS B/OSS environment