Proposal for an SDN-Like Innovative Metro-Access Optical Network Architecture

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Telecommunication operators are facing an epochal challenge due to the need of higher reconfigurability, flexibility, and dynamicity for their networks. In the latest years, this necessity has been addressed by the introduction of Software-Defined Networking (SDN), mainly in the fields of data centers and core networks. The present work introduces a unified metro-access optical network architecture based on some features inspired by SDN models. The essential aim is to enable bandwidth shared among different passive optical networks (PONs) in order to achieve higher adaptability to increasingly migratory and volatile traffic patterns.

How It Works: Optical Fiber

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How does fiber actually work? When a device like your computer has information to send, that data starts out as electrical energy. A laser in the computer converts the signals to photons – tiny particles of electromagnetic energy, otherwise known as light – and sends them in rapid succession down the core of the hair-thin fiber. Photons travel in waves through the inner core of the fiber. Because this core region has higher refractive index (i.e. light travels more slowly) than does the fiber’s outer cladding, the light signal is focused within the core and prevented from radiating out of the fiber. In addition, fiber cores are made from very high purity materials (typically Silica and Germania) to assure that the light energy is not absorbed or scattered by impurities. Radiation, absorption, and scattering are all forms of energy loss, also known as attenuation. By keeping such losses as low as possible, fiber allows light and the information it carries to travel great distances from the original source.

Redefining Data Centers for the Edge

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An edge can be everything that is close to the use case, close to users, regardless of whether it’s a human or a machine. An edge can be a regional or even the local data center in the city, in a region – in the automotive industry, the edge is the IT in the car. I would say that the name data center captures the essence of what’s involved rather well: It’s not the center that chooses the data; it’s the data that chooses the center where they want to be processed. It’s not the center that defines the workloads. It is the data that defines where it wants to be computed. This is often forgotten.

The Never-Ending Success Story: Dark Fiber

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Given the future 5G requirements in terms of latency, data volumes, and reliability, fiber optics are undoubtedly the most future-proof and ideally scalable medium for data transfer. From a technological perspective, it is clear that fiber optics and the new 5G mobile networks offer the best foundations for high transmission rates, minimum latency periods, and thus the greatest possible speed.

Structured Cabling Market Forecast, Trend Analysis & Competition Tracking 2018 – 2028

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The value of the structured cabling market was estimated at nearly US$ 16 billion in 2018, and is forecast to record a CAGR of approximately 8% through 2028. North America remains the leading market for structured cabling; Asia-Pacific excluding Japan (APEJ) is projected to be a high-growth market for structured cabling, as more providers in the region are shifting their focus toward integrating video and data capabilities to leverage one network, and tapping new markets with attractive service offerings..
 

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