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Fiber to the x

August 18, 2023

"Fiber broadband" redirects here. For the overhead version of data and internet transmission, see Broadband over power lines.
FTTB, FTTC, FTTD, FTTH, FTTK, FTTN, and FTTP all redirect here. For airports with those ICAO codes, see List of airports in Chad.

Fiber to the x (FTTX; also spelled "fibre") or fiber in the loop is a generic term for any broadband network architecture using optical fiber to provide all or part of the local loop used for last mile telecommunications. As fiber optic cables are able to carry much more data than copper cables, especially over long distances, copper telephone networks built in the 20th century are being replaced by fiber.[1]

A schematic illustrating how FTTX (Node, Curb, Building, Home) architectures vary with regard to the distance between the optical fiber and the end user. The building on the left is the central office; the building on the right is one of the buildings served by the central office. Dotted rectangles represent separate living or office spaces within the same building.

FTTX is a generalization for several configurations of fiber deployment, arranged into two groups: FTTP/FTTH/FTTB (Fiber laid all the way to the premises/home/building) and FTTC/N (fiber laid to the cabinet/node, with copper wires completing the connection).

Residential areas already served by balanced pair distribution plant call for a trade-off between cost and capacity. The closer the fiber head, the higher the cost of construction and the higher the channel capacity. In places not served by metallic facilities, little cost is saved by not running fiber to the home.

Fiber to the x is the key method used to drive next-generation access (NGA), which describes a significant upgrade to the broadband available by making a step change in speed and quality of the service. This is typically thought of as asymmetrical with a download speed of 24 Mbit/s plus and a fast upload speed.[2]Ofcom have defined super-fast broadband as "broadband products that provide a maximum download speed that is greater than 24 Mbit/s - this threshold is commonly considered to be the maximum speed that can be supported on current generation (copper-based) networks."[3]

A similar network called a hybrid fiber-coaxial (HFC) network is used by cable television operators but is usually not synonymous with "fiber In the loop", although similar advanced services are provided by the HFC networks. Fixed wireless and mobile wireless technologies such as Wi-Fi, WiMAX and 3GPP Long Term Evolution (LTE) are an alternative for providing Internet access.

Definitions

The telecommunications industry differentiates between several distinct FTTX configurations. The terms in most widespread use today are:

  • FTTE (fiber-to-the-edge) is a networking approach used in the enterprise building (hotels, convention centers, office buildings, hospitals, senior living communities, Multi-Dwelling Units, stadiums, etc.). Fiber reaches directly from the main distribution frame of a building out to the edge devices, eliminating the need for intermediate distribution frames.
  • FTTP (fiber-to-the-premises): This term is used either as a blanket term for both FTTH and FTTB, or where the fiber network includes both homes and small businesses
    • FTTH (fiber-to-the-home): Fiber reaches the boundary of the living space, such as a box on the outside wall of a home. Passive optical networks and point-to-point Ethernet are architectures that are capable of delivering triple-play services over FTTH networks directly from an operator's central office.[4][5] Typically providing between 1 and 10 Gbit/s
    • FTTB (fiber-to-the-building, -business, or -basement): Fiber reaches the boundary of the building, such as the basement in a multi-dwelling unit, with the final connection to the individual living space being made via alternative means, similar to the curb or pole technologies
    • FTTD can mean two different things:
      • (fiber-to-the-desktop or -desk): In an office, fiber connection is installed from the main computer room to a desk or fiber media converter near the user's desk
      • (fiber-to-the-door): Fiber reaches outside the flat
    • FTTR can mean three different things:
      • (fiber-to-the-radio): Fiber runs to the transceivers of base stations
      • (fiber-to-the-router): Fiber connection is installed from the router to the ISP's fiber network
      • (fiber-to-the-room): Fiber connection is extended from the router to each room in the home
    • FTTO (fiber-to-the-office): Fiber connection is installed from the main computer room/core switch to a special mini-switch (called FTTO Switch) located at the user's workstation or service points. This mini-switch provides Ethernet services to end user devices via standard twisted pair patch cords. The switches are decentralised and located all over the building, but managed from one central point
    • FTTF can mean five different things:
      • (fiber-to-the-factory): fiber runs to factory buildings
      • (fiber-to-the-farm): fiber runs to agricultural farms
      • (fiber-to-the-feeder): a synonym of FTTN
      • (fiber-to-the-floor): fiber reaches a junction box at a floor of a building
      • (fiber-to-the-frontage): This is very similar to FTTB. In a fiber to the front yard scenario, each fiber node serves a single subscriber. This allows for multi-gigabit speeds using XG-fast technology. The fiber node may be reverse-powered by the subscriber modem[6]
    • FTTM can mean four different things:
      • (fiber-to-the-machine): In a factory, fiber runs to machines
      • (fiber-to-the-mast): Fiber runs to wireless masts
      • (fiber-to-the-mobile): Fiber runs to base stations
      • (fiber-to-the-multi-dwelling-unit): FTTP to apartment buildings
    • FTTT can mean two different things:
      • (fiber-to-the-terminal): In an office, fiber runs to desktop equipment
      • (fiber-to-the-tower): Fiber reaches base stations
    • FTTW (fiber-to-the-wall or -workgroup): In an office, fiber runs to small switches near a group of users
  • FTTA can mean two different things:
    • (fiber-to-the-amplifier): Fiber runs to street cabinets
    • (fiber-to-the-antenna): Fiber runs up antenna towers
  • FTTCS (fiber-to-the-cell-site): fiber reaches the base station site
  • FTTE / FTTZ (fiber-to-the-telecom-enclosure or fiber-to-the-zone): is a form of structured cabling typically used in enterprise local area networks, where fiber is used to link the main computer equipment room to an enclosure close to the desk or workstation. FTTE and FTTZ are not considered part of the FTTX group of technologies, despite the similarity in name.[7]
  • FTTdp (fiber-to-the-distribution-point): This is very similar to FTTC / FTTN but is one-step closer again, moving the end of the fiber to within meters of the boundary of the customers premises in the last possible junction box, known as the "distribution point". This allows for near-gigabit speeds[8]
  • FTTL (fiber-to-the-loop): general term
  • FTTN / FTTLA (fiber-to-the-node, -neighborhood, or -last-amplifier): Fiber is terminated in a street cabinet, possibly miles away from the customer premises, with the final connections being copper. FTTN is often an interim step toward full FTTH (fiber-to-the-home) and is typically used to deliver 'advanced' triple-play telecommunications services
  • FTTC / FTTK (fiber-to-the-curb/kerb, -closet, or -cabinet): This is very similar to FTTN, but the street cabinet or pole is closer to the user's premises, typically within 1,000 feet (300 m), within range for high-bandwidth copper technologies such as wired Ethernet or IEEE 1901 power line networking and wireless Wi-Fi technology. FTTC is occasionally ambiguously called FTTP (fiber-to-the-pole), leading to confusion with the distinct fiber-to-the-premises system. Typically providing up to 100 Mbit/s
  • FTTS can mean three different things:
    • (fiber-to-the-screen or -seat): On an airplane, fiber reaches the IFE screens
    • (fiber-to-the-street): The customer is connected using copper to the fiber passing near the building, up to 200 metres (660 ft) away. This is a compromise between FTTB and FTTC. Typically providing up to 500 Mbit/s
    • (fiber-to-the-subscriber): This is a synonym for FTTP

To promote consistency, especially when comparing FTTH penetration rates between countries, the three FTTH Councils of Europe, North America, and Asia-Pacific agreed upon definitions for FTTH and FTTB in 2006,[9] with an update in 2009,[10] 2011[11] and another in 2015.[12] The FTTH Councils do not have formal definitions for FTTC and FTTN.

Benefits

While fiber optic cables can carry data at high speeds over long distances, copper cables used in traditional telephone lines and ADSL cannot. For example, the common form of Gigabit Ethernet (1Gbit/s) runs over relatively economical category 5e, category 6 or 6A unshielded twisted-pair copper cabling but only to 100 m (330 ft). However, 1 Gbit/s Ethernet over fiber can easily reach tens of kilometers. Therefore, FTTP has been selected by every major communications provider in the world to carry data over long 1 Gbit/s symmetrical connections directly to consumer homes. FTTP configurations that bring fiber directly into the building can offer the highest speeds since the remaining segments can use standard Ethernet or coaxial cable.

Fiber is often said to be "future-proof" because the data rate of the connection is usually limited by the terminal equipment rather than the fiber, permitting substantial speed improvements by equipment upgrades before the fiber itself must be upgraded. Still, the type and length of employed fibers chosen, e.g. multimode vs. single-mode, are critical for applicability for future connections of over 1 Gbit/s.

With the rising popularity of high-definition, on-demand video streaming applications and devices such as YouTube, Netflix, Roku, and Facebook LIVE, the demand for reliable bandwidth is crucial as more and more people begin to utilize these services.[13]

FTTC (where fiber transitions to copper in a street cabinet) is generally too far from the users for standard Ethernet configurations over existing copper cabling. They generally use very-high-bit-rate digital subscriber line (VDSL) at downstream rates of 80 Mbit/s, but this falls extremely quickly when the distance exceeds 100 meters.

Fiber to the premises

Fiber to the premises (FTTP) is a form of fiber-optic communication delivery in which an optical fiber is run in an optical distribution network from the central office all the way to the premises occupied by the subscriber. The term "FTTP" has become ambiguous and may also refer to FTTC where the fiber terminates at a utility pole without reaching the premises.

 
Fiber-optic cable being pulled underneath the streets of New York City
 
An optical fiber jack (cover removed) in a residence with FTTH service

Fiber to the premises can be categorized according to where the optical fiber ends:

  • FTTH (fiber-to-the-home) is a form of fiber-optic communication delivery that reaches one living or working space. The fiber extends from the central office to the subscriber's living or working space.[11] Once at the subscriber's living or working space, the signal may be conveyed throughout the space using any means, including twisted pair, coaxial cable, wireless, power line communication, or optical fiber.
  • FTTB (fiber-to-the-building or -basement) is a form of fiber-optic communication delivery that necessarily applies only to those properties that contain multiple living or working spaces. The optical fiber terminates before actually reaching the subscribers living or working space itself, but does extend to the property containing that living or working space. The signal is conveyed the final distance using any non-optical means, including twisted pair, coaxial cable, wireless, or power line communication.[11]

An apartment building may provide an example of the distinction between FTTH and FTTB. If a fiber is run to a panel inside each subscriber's apartment unit, it is FTTH. If instead, the fiber goes only as far as the apartment building's shared electrical room (either only to the ground floor or to each floor), it is FTTB.

Fiber to the curb/cabinet/node

 
Inside an FTTN or FTTC fiber cabinet. The left side contains the fiber and a DSLAM, and the right side contains the copper and punch down blocks for a form of DSL such as VDSL

Fiber to the curb/cabinet (FTTC) is a telecommunications system based on fiber-optic cables run to a platform that serves several customers. Each of these customers has a connection to this platform via coaxial cable or twisted pair. The "curb" is an abstraction and can just as easily mean a pole-mounted device or communications closet or shed. Typically any system terminating fiber within 1,000 ft (300 m) of the customer premises equipment would be described as FTTC.

Fiber to the node or neighborhood (FTTN), sometimes identified with and sometimes distinguished from fiber to the cabinet (FTTC),[14] is a telecommunication architecture based on fiber-optic cables run to a cabinet serving a neighborhood. Customers typically connect to this cabinet using traditional coaxial cable or twisted pair wiring. The area served by the cabinet is usually less than one mile in radius and can contain several hundred customers. (If the cabinet serves an area of less than 1,000 ft (300 m) in radius, the architecture is typically called FTTC/FTTK.)[15]

FTTN allows delivery of broadband services such as high-speed internet. High-speed communications protocols such as broadband cable access (typically DOCSIS) or some form of digital subscriber line (DSL) are used between the cabinet and the customers. Data rates vary according to the exact protocol used and according to how close the customer is to the cabinet.

Unlike FTTP, FTTN often uses existing coaxial or twisted-pair infrastructure to provide last mile service and is thus less costly to deploy. In the long term, however, its bandwidth potential is limited relative to implementations that bring the fiber still closer to the subscriber.

A variant of this technique for cable television providers is used in a hybrid fiber-coaxial (HFC) system. It is sometimes given the acronym FTTLA (fiber-to-the-last-amplifier) when it replaces analog amplifiers up to the last one before the customer (or neighborhood of customers).

FTTC allows delivery of broadband services such as high-speed internet. Usually, existing wire is used with communications protocols such as broadband cable access (typically DOCSIS) or some form of DSL connecting the curb/cabinet and the customers. In these protocols, the data rates vary according to the exact protocol used and according to how close the customer is to the cabinet.

Where it is feasible to run new cable, both fiber and copper Ethernet are capable of connecting the "curb" with a full 100Mbit/s or 1Gbit/s connection. Even using relatively cheap outdoor category 5 copper over thousands of feet, all Ethernet protocols including power over Ethernet (PoE) are supported[citation needed]. Most fixed wireless technologies rely on PoE, including Motorola Canopy, which has low-power radios capable of running on a 12VDC power supply fed over several hundred feet of cable.

Power line networking deployments also rely on FTTC. Using the IEEE P1901 protocol (or its predecessor HomePlug AV) existing electric service cables move up to 1Gbit/s from the curb/pole/cabinet into every AC electrical outlet in the home—coverage equivalent to a robust Wi-Fi implementation, with the added advantage of a single cable for power and data.

By avoiding new cable and its cost and liabilities, FTTC costs less to deploy. However, it also has historically had lower bandwidth potential than FTTP. In practice, the relative advantage of fiber depends on the bandwidth available for backhaul, usage-based billing restrictions that prevent full use of last-mile capabilities, and customer premises equipment and maintenance restrictions, and the cost of running fiber that can vary widely with geography and building type.

In the United States and Canada, the largest deployment of FTTC was carried out by BellSouth Telecommunications. With the acquisition of BellSouth by AT&T, deployment of FTTC will end. Future deployments will be based on either FTTN or FTTP. Existing FTTC plant may be removed and replaced with FTTP.[16] Verizon, meanwhile, announced in March 2010 they were winding down Verizon FiOS expansion, concentrating on completing their network in areas that already had FiOS franchises but were not deploying to new areas, suggesting that FTTH was uneconomic beyond these areas.

Verizon also announced (at CES 2010) its entry into the smart home and power utility data management arenas, indicating it was considering using P1901-based FTTC or some other existing-wire approach to reach into homes, and access additional revenues from the secure AES-128 bandwidth required for advanced metering infrastructure. However, the largest 1Gbit/s deployment in the United States, in Chattanooga, Tennessee, despite being conducted by power utility EPB,[17] was FTTH rather than FTTC, reaching every subscriber in a 600-square-mile area. Monthly pricing of $350 reflected this generally high cost of deployment. However, Chattanooga EPB has reduced the monthly pricing to $70/month.[18]

Historically, both telephone and cable companies avoided hybrid networks using several different modes of transport from their point of presence into customer premises. The increased competitive cost pressure, availability of three different existing wire solutions, smart grid deployment requirements (as in Chattanooga), and better hybrid networking tools (with major vendors like Alcatel-Lucent and Qualcomm Atheros, and Wi-Fi solutions for edge networks, IEEE 1905 and IEEE 802.21 protocol efforts and SNMP improvements) all make FTTC deployments more likely in areas uneconomic to serve with FTTP/FTTH. In effect FTTC serves as a halfway measure between fixed wireless and FTTH, with special advantages for smart appliances and electric vehicles that rely on PLC use already.

Deployments

Operators around the world have been rolling out high-speed Internet access networks since the mid-2000s. Some used a network topology known as Active Ethernet Point-to-Point to deliver services from its central office directly into subscribers' homes. Fiber termination was handled by a residential gateway provided by Advanced Digital Broadcast inside a subscriber's home to be shared with other consumer electronics (CE) devices.

Since 2007, Italian access providers Fastweb,[19] Telecom Italia, Vodafone, and Wind participated in an initiative called Fiber for Italy, with the aim of creating a countrywide fiber-to-the-home network in Italy. The pilot taking place in the Italian capital, Rome, has seen symmetrical bandwidth of 100 Mbit/s.[20] Telecom Italia, which refused to take part in the Fiber for Italy initiative, has an even more ambitious plan to bring fiber-to-the-home and fiber-to-the-business to 138 cities by 2018.[21]

By the end of December 2010, the total number of fiber-to-the-home enabled homes had passed 2.5 million, with more than 348,000 subscribers.[21][clarification needed])

In September 2010, the European Commission published a new "Recommendation for Regulated Access to NGA Networks" along with a list of measures to promote the deployment of fast broadband and next generation access networks.[22]

Portugal Telecom plans to complete its fiber-to-the-home nationwide roll out by 2020. Currently 200 mbs down, 100mbs up costs 22 euros per month.[23]

Between September 2017 and March 2019, the number of European FTTH and FTTB subscribers increased by nearly 16%. By 2025, the total number of premises passed by FTTH and FTTB infrastructure is expected to reach 187 million throughout Europe.[24]

Google Fiber provides speed of up to 1 Gbit/s.[25]

Active Line Access is an evolving standard for the provision of services over FTTP networks in the United Kingdom proposed by the regulator Ofcom and developed by the Network Interoperability Consultative Committee.[26]

FTTP

Main article: Fiber to the premises by country

FTTS, FTTH and FTTB

Most FTTH deployments follow one of four primary architecture types: centralized split, distributed split, star architecture, or daisy-chaining. Fiber network developers choose architectures based on a variety of factors, such as the physical geography of the local environment, number of anticipated subscribers, and labor force skill. [27]

FTTN and FTTC

 
FTTC during installation in Germany

FTTN/C is seen as an interim step towards full FTTH and in many cases triple-play services delivered using this approach to provide up to around 100 Mbit/s have been proven to grow subscriber numbers and ARPU considerably[28][29][30] FTTN/C is currently used by a number of operators, including AT&T in the United States, Germany's Deutsche Telekom, Greece's OTE, Swisscom, TIM in Italy, Proximus in Belgium, nbn™ in Australia, and Canadian operators Telus, Cogeco and Bell Canada.

Optical distribution networks

Direct fiber

The simplest optical distribution network architecture is direct fiber: each fiber leaving the central office goes to exactly one customer. These networks can give you a lot of bandwidth, but they cost more because of the fiber and the equipment in the central office.[31]

Direct fiber is generally favored by new entrants and competitive operators. A benefit is that no layer 2 networking technologies are excluded, whether passive optical network (PON), active optical network (AON), or other. Any form of regulatory remedy is possible using this topology.[32]

Shared fiber

More commonly, each fiber leaving the central office is actually shared by many customers. It is not until such a fiber gets relatively close to the customers that it is split into individual customer-specific fibers. AONs and PONs both achieve this split.

Active optical network

 
Comparison showing how a typical AON (a star network capable of multicasting) handles downstream traffic differently from a typical PON (a star network having multiple splitters housed in the same cabinet)

AONs rely on electrically powered network equipment to distribute the signal, such as a switch or router. Normally, signals need an optical-electrical-optical transformation in the AON. Each signal leaving the central office is directed only to the customer for whom it is intended.

Incoming signals from the customers avoid colliding at the intersection because the powered equipment there provides buffering. Active Ethernet (a type of Ethernet in the first mile) is a common AON, which uses optical Ethernet switches to distribute the signal, incorporating the customers' premises and the central office into a large switched Ethernet network.

Such networks are identical to Ethernet computer networks used in businesses and academic institutions, except that their purpose is to connect homes and buildings to a central office rather than to connect computers and printers within a location. Each switching cabinet can handle up to 1,000 customers, although 400–500 is more typical.

This neighborhood equipment performs layer 2 switching or layer 3 switching and routing, offloading full layer 3 routing to the carrier's central office. The IEEE 802.3ah standard enables service providers to deliver up to 1000 Mbit/s, full-duplex, over one single-mode optical fiber FTTP, depending on the provider.

Passive optical network

Main article: Passive optical network

A passive optical network (PON) is a point-to-multipoint FTTP network architecture in which unpowered optical splitters are used to enable a single optical fiber to serve up to 128 customers. A PON reduces the fiber and central office equipment required compared with point-to-point architecture. Because of this, and because it needs no powered splitters or other active components from the moment it leaves the ISP's facilities until it reaches the customer, many ISPs prefer this technology.[33]

The downstream signal coming from the central office is broadcast to each customer premises sharing a fiber. Encryption is used to prevent eavesdropping. Upstream signals are combined using a multiple-access protocol, usually time-division multiple access (TDMA).

Ethernet point-to-point

Point-to-Point Protocol over Ethernet (PPPoE) is a common way of delivering triple- and quad-play (voice, video, data, and mobile) services over both fiber and hybrid fiber-coaxial (HFC) networks. Active PPPoE uses dedicated fiber from an operator's central office all the way to the subscribers' homes, while hybrid networks (often FTTN) use it to transport data via fiber to an intermediate point to ensure sufficiently high throughput speeds over last-mile copper connections.

This approach has become increasingly popular in recent years with telecoms service providers in both North America (AT&T, Telus, for example) and Europe's Fastweb, Telecom Italia, Telekom Austria and Deutsche Telekom, for example. Google has also looked into this approach, amongst others, as a way to deliver multiple services over open-access networks in the United States.[34]

Electrical network

Once on private property, the signal is typically converted into an electrical format.

The optical network terminal (ONT, an ITU-T term) or unit (ONU, an identical IEEE term) converts the optical signal into an electrical signal using thin film filter technology. These units require electrical power for their operation, so some providers connect them to backup batteries in case of power outages to ensure emergency access to telecommunications. The optical line terminations "range" the optical network terminals or units in order to provide TDMA time slot assignments for upstream communication.

For FTTH and for some forms of FTTB, it is common for the building's existing Ethernet, phone, and cable TV systems to connect directly to the optical network terminal or unit. If all three systems cannot directly reach the unit, it is possible to combine signals and transport them over a common medium such as Ethernet. Once closer to the end user, equipment such as a router or network interface controller can separate the signals and convert them into the appropriate protocol.

For FTTC and FTTN, the combined internet, video and telephone signal travels to the building over existing telephone or cable wiring until it reaches the end-user's living space, where a VDSL or DOCSIS modem converts data and video signals into Ethernet protocol, which is sent over the end-user's category 5 cable.

See also

References

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  2. ^ Mark Jackson (October 25, 2010), "The Definition of UK Superfast Next Generation Broadband", ISP Review, retrieved May 3, 2012
  3. ^ "Review of the wholesale local access market" (PDF). Ofcom.org.uk. June 1, 2010. Retrieved June 18, 2021.{{cite web}}: CS1 maint: url-status (link)
  4. ^ Poulus, Tim (November 17, 2010). "FTTH networking: Active Ethernet versus Passive Optical Networking and point-to-point vs. point-to-multipoint". Telecompaper. Retrieved July 12, 2013.{{cite web}}: CS1 maint: url-status (link)
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  6. ^ Coomans, Werner; Moraes, Rodrigo B.; Hooghe, Koen; Duque, Alex; Galaro, Joe; Timmers, Michael; Van Wijngaarden, Adriaan J.; Guenach, Mamoun; Maes, Jochen (2015). "XG-fast: the 5th generation broadband". IEEE Communications Magazine. IEEE Xplore. 53 (12): 83–88. doi:10.1109/MCOM.2015.7355589. S2CID 33169617.
  7. ^ Robert Reid, "All multimode fiber is not created equal"[permanent dead link], Cabling Installation & Maintenance, PennWell Corporation, February 2007, retrieved 12 July 2013
  8. ^ Heath, Nick (September 26, 2014). "Could ultrafast broadband over copper speed the rollout of gigabit internet?". TechRepublic.
  9. ^ "FTTH Council – Definition of Terms" (PDF). FTTH Council. August 11, 2006. Retrieved September 1, 2011.[dead link]
  10. ^ (PDF). FTTH Council. January 9, 2009. Archived from the original (PDF) on June 3, 2015. Retrieved June 22, 2015.
  11. ^ a b c (PDF). FTTH Council. September 2011. Archived from the original (PDF) on October 8, 2013. Retrieved June 27, 2013.
  12. ^ (PDF). FTTH Council. February 2016. Archived from the original (PDF) on June 22, 2015. Retrieved June 22, 2015.
  13. ^ "FTTx". OFS Optics. Retrieved July 17, 2017.
  14. ^ da Silva, Henrique (March 2005), "Optical Access Networks" March 4, 2016, at the Wayback Machine, Instituto de Telecomunicações, 9 March 2005, slide 10. Retrieved on 2007-03-25.
  15. ^ McCullough, Don (August 2005), "Flexibility is key to successful fiber to the premises deployments" 2011-10-09 at the Wayback Machine, Lightwave 22 (8). Retrieved on 2010-01-27.
  16. ^ Ed Gubbins, "Analyst: AT&T may replace some FTTC with FTTP", Connected Planet, Penton Media, Inc., 21 December 2007
  17. ^ EPB, website of a non-profit agency of the City of Chattanooga, established in 1935 to provide electric power to the greater Chattanooga area. Retrieved 12 July 2013.
  18. ^ EPBFI, a website for EPB Fiber Optics. Retrieved 3 June 2014.
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  24. ^ "Press Release". Fibre to the Home Council Europe. https://www.ftthcouncil.eu/documents/PressReleases/2019/PR%20Market%20Panorama%20-%2014-03-2019%20V3.pdf July 31, 2020, at the Wayback Machine. Retrieved 2 June, 2020
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External links

 
Wikimedia Commons has media related to Fiber to the x.
  • Fiber to the Home Council: Asia-Pacific
  • Fibre to the Home Council: Europe
  • Fiber to the Home Council: North America
  • Fiber to the Home Council: Latin America Chapter

August 18, 2023
fiber, fiber, broadband, redirects, here, overhead, version, data, internet, transmission, broadband, over, power, lines, fttb, fttc, fttd, ftth, fttk, fttn, fttp, redirect, here, airports, with, those, icao, codes, list, airports, chad, fttx, also, spelled, f. Fiber broadband redirects here For the overhead version of data and internet transmission see Broadband over power lines FTTB FTTC FTTD FTTH FTTK FTTN and FTTP all redirect here For airports with those ICAO codes see List of airports in Chad Fiber to the x FTTX also spelled fibre or fiber in the loop is a generic term for any broadband network architecture using optical fiber to provide all or part of the local loop used for last mile telecommunications As fiber optic cables are able to carry much more data than copper cables especially over long distances copper telephone networks built in the 20th century are being replaced by fiber 1 A schematic illustrating how FTTX Node Curb Building Home architectures vary with regard to the distance between the optical fiber and the end user The building on the left is the central office the building on the right is one of the buildings served by the central office Dotted rectangles represent separate living or office spaces within the same building FTTX is a generalization for several configurations of fiber deployment arranged into two groups FTTP FTTH FTTB Fiber laid all the way to the premises home building and FTTC N fiber laid to the cabinet node with copper wires completing the connection Residential areas already served by balanced pair distribution plant call for a trade off between cost and capacity The closer the fiber head the higher the cost of construction and the higher the channel capacity In places not served by metallic facilities little cost is saved by not running fiber to the home Fiber to the x is the key method used to drive next generation access NGA which describes a significant upgrade to the broadband available by making a step change in speed and quality of the service This is typically thought of as asymmetrical with a download speed of 24 Mbit s plus and a fast upload speed 2 Ofcom have defined super fast broadband as broadband products that provide a maximum download speed that is greater than 24 Mbit s this threshold is commonly considered to be the maximum speed that can be supported on current generation copper based networks 3 A similar network called a hybrid fiber coaxial HFC network is used by cable television operators but is usually not synonymous with fiber In the loop although similar advanced services are provided by the HFC networks Fixed wireless and mobile wireless technologies such as Wi Fi WiMAX and 3GPP Long Term Evolution LTE are an alternative for providing Internet access Contents 1 Definitions 2 Benefits 3 Fiber to the premises 4 Fiber to the curb cabinet node 5 Deployments 5 1 FTTP 5 2 FTTS FTTH and FTTB 5 3 FTTN and FTTC 6 Optical distribution networks 6 1 Direct fiber 6 2 Shared fiber 6 3 Active optical network 6 4 Passive optical network 6 5 Ethernet point to point 6 6 Electrical network 7 See also 8 References 9 External linksDefinitions EditThe telecommunications industry differentiates between several distinct FTTX configurations The terms in most widespread use today are FTTE fiber to the edge is a networking approach used in the enterprise building hotels convention centers office buildings hospitals senior living communities Multi Dwelling Units stadiums etc Fiber reaches directly from the main distribution frame of a building out to the edge devices eliminating the need for intermediate distribution frames FTTP fiber to the premises This term is used either as a blanket term for both FTTH and FTTB or where the fiber network includes both homes and small businesses FTTH fiber to the home Fiber reaches the boundary of the living space such as a box on the outside wall of a home Passive optical networks and point to point Ethernet are architectures that are capable of delivering triple play services over FTTH networks directly from an operator s central office 4 5 Typically providing between 1 and 10 Gbit s FTTB fiber to the building business or basement Fiber reaches the boundary of the building such as the basement in a multi dwelling unit with the final connection to the individual living space being made via alternative means similar to the curb or pole technologies FTTD can mean two different things fiber to the desktop or desk In an office fiber connection is installed from the main computer room to a desk or fiber media converter near the user s desk fiber to the door Fiber reaches outside the flat FTTR can mean three different things fiber to the radio Fiber runs to the transceivers of base stations fiber to the router Fiber connection is installed from the router to the ISP s fiber network fiber to the room Fiber connection is extended from the router to each room in the home FTTO fiber to the office Fiber connection is installed from the main computer room core switch to a special mini switch called FTTO Switch located at the user s workstation or service points This mini switch provides Ethernet services to end user devices via standard twisted pair patch cords The switches are decentralised and located all over the building but managed from one central point FTTF can mean five different things fiber to the factory fiber runs to factory buildings fiber to the farm fiber runs to agricultural farms fiber to the feeder a synonym of FTTN fiber to the floor fiber reaches a junction box at a floor of a building fiber to the frontage This is very similar to FTTB In a fiber to the front yard scenario each fiber node serves a single subscriber This allows for multi gigabit speeds using XG fast technology The fiber node may be reverse powered by the subscriber modem 6 FTTM can mean four different things fiber to the machine In a factory fiber runs to machines fiber to the mast Fiber runs to wireless masts fiber to the mobile Fiber runs to base stations fiber to the multi dwelling unit FTTP to apartment buildings FTTT can mean two different things fiber to the terminal In an office fiber runs to desktop equipment fiber to the tower Fiber reaches base stations FTTW fiber to the wall or workgroup In an office fiber runs to small switches near a group of users FTTA can mean two different things fiber to the amplifier Fiber runs to street cabinets fiber to the antenna Fiber runs up antenna towers FTTCS fiber to the cell site fiber reaches the base station site FTTE FTTZ fiber to the telecom enclosure or fiber to the zone is a form of structured cabling typically used in enterprise local area networks where fiber is used to link the main computer equipment room to an enclosure close to the desk or workstation FTTE and FTTZ are not considered part of the FTTX group of technologies despite the similarity in name 7 FTTdp fiber to the distribution point This is very similar to FTTC FTTN but is one step closer again moving the end of the fiber to within meters of the boundary of the customers premises in the last possible junction box known as the distribution point This allows for near gigabit speeds 8 FTTL fiber to the loop general term FTTN FTTLA fiber to the node neighborhood or last amplifier Fiber is terminated in a street cabinet possibly miles away from the customer premises with the final connections being copper FTTN is often an interim step toward full FTTH fiber to the home and is typically used to deliver advanced triple play telecommunications services FTTC FTTK fiber to the curb kerb closet or cabinet This is very similar to FTTN but the street cabinet or pole is closer to the user s premises typically within 1 000 feet 300 m within range for high bandwidth copper technologies such as wired Ethernet or IEEE 1901 power line networking and wireless Wi Fi technology FTTC is occasionally ambiguously called FTTP fiber to the pole leading to confusion with the distinct fiber to the premises system Typically providing up to 100 Mbit s FTTS can mean three different things fiber to the screen or seat On an airplane fiber reaches the IFE screens fiber to the street The customer is connected using copper to the fiber passing near the building up to 200 metres 660 ft away This is a compromise between FTTB and FTTC Typically providing up to 500 Mbit s fiber to the subscriber This is a synonym for FTTPTo promote consistency especially when comparing FTTH penetration rates between countries the three FTTH Councils of Europe North America and Asia Pacific agreed upon definitions for FTTH and FTTB in 2006 9 with an update in 2009 10 2011 11 and another in 2015 12 The FTTH Councils do not have formal definitions for FTTC and FTTN Benefits EditWhile fiber optic cables can carry data at high speeds over long distances copper cables used in traditional telephone lines and ADSL cannot For example the common form of Gigabit Ethernet 1Gbit s runs over relatively economical category 5e category 6 or 6A unshielded twisted pair copper cabling but only to 100 m 330 ft However 1 Gbit s Ethernet over fiber can easily reach tens of kilometers Therefore FTTP has been selected by every major communications provider in the world to carry data over long 1 Gbit s symmetrical connections directly to consumer homes FTTP configurations that bring fiber directly into the building can offer the highest speeds since the remaining segments can use standard Ethernet or coaxial cable Fiber is often said to be future proof because the data rate of the connection is usually limited by the terminal equipment rather than the fiber permitting substantial speed improvements by equipment upgrades before the fiber itself must be upgraded Still the type and length of employed fibers chosen e g multimode vs single mode are critical for applicability for future connections of over 1 Gbit s With the rising popularity of high definition on demand video streaming applications and devices such as YouTube Netflix Roku and Facebook LIVE the demand for reliable bandwidth is crucial as more and more people begin to utilize these services 13 FTTC where fiber transitions to copper in a street cabinet is generally too far from the users for standard Ethernet configurations over existing copper cabling They generally use very high bit rate digital subscriber line VDSL at downstream rates of 80 Mbit s but this falls extremely quickly when the distance exceeds 100 meters Fiber to the premises EditFiber to the premises FTTP is a form of fiber optic communication delivery in which an optical fiber is run in an optical distribution network from the central office all the way to the premises occupied by the subscriber The term FTTP has become ambiguous and may also refer to FTTC where the fiber terminates at a utility pole without reaching the premises Fiber optic cable being pulled underneath the streets of New York City An optical fiber jack cover removed in a residence with FTTH serviceFiber to the premises can be categorized according to where the optical fiber ends FTTH fiber to the home is a form of fiber optic communication delivery that reaches one living or working space The fiber extends from the central office to the subscriber s living or working space 11 Once at the subscriber s living or working space the signal may be conveyed throughout the space using any means including twisted pair coaxial cable wireless power line communication or optical fiber FTTB fiber to the building or basement is a form of fiber optic communication delivery that necessarily applies only to those properties that contain multiple living or working spaces The optical fiber terminates before actually reaching the subscribers living or working space itself but does extend to the property containing that living or working space The signal is conveyed the final distance using any non optical means including twisted pair coaxial cable wireless or power line communication 11 An apartment building may provide an example of the distinction between FTTH and FTTB If a fiber is run to a panel inside each subscriber s apartment unit it is FTTH If instead the fiber goes only as far as the apartment building s shared electrical room either only to the ground floor or to each floor it is FTTB Fiber to the curb cabinet node Edit Inside an FTTN or FTTC fiber cabinet The left side contains the fiber and a DSLAM and the right side contains the copper and punch down blocks for a form of DSL such as VDSLFiber to the curb cabinet FTTC is a telecommunications system based on fiber optic cables run to a platform that serves several customers Each of these customers has a connection to this platform via coaxial cable or twisted pair The curb is an abstraction and can just as easily mean a pole mounted device or communications closet or shed Typically any system terminating fiber within 1 000 ft 300 m of the customer premises equipment would be described as FTTC Fiber to the node or neighborhood FTTN sometimes identified with and sometimes distinguished from fiber to the cabinet FTTC 14 is a telecommunication architecture based on fiber optic cables run to a cabinet serving a neighborhood Customers typically connect to this cabinet using traditional coaxial cable or twisted pair wiring The area served by the cabinet is usually less than one mile in radius and can contain several hundred customers If the cabinet serves an area of less than 1 000 ft 300 m in radius the architecture is typically called FTTC FTTK 15 FTTN allows delivery of broadband services such as high speed internet High speed communications protocols such as broadband cable access typically DOCSIS or some form of digital subscriber line DSL are used between the cabinet and the customers Data rates vary according to the exact protocol used and according to how close the customer is to the cabinet Unlike FTTP FTTN often uses existing coaxial or twisted pair infrastructure to provide last mile service and is thus less costly to deploy In the long term however its bandwidth potential is limited relative to implementations that bring the fiber still closer to the subscriber A variant of this technique for cable television providers is used in a hybrid fiber coaxial HFC system It is sometimes given the acronym FTTLA fiber to the last amplifier when it replaces analog amplifiers up to the last one before the customer or neighborhood of customers FTTC allows delivery of broadband services such as high speed internet Usually existing wire is used with communications protocols such as broadband cable access typically DOCSIS or some form of DSL connecting the curb cabinet and the customers In these protocols the data rates vary according to the exact protocol used and according to how close the customer is to the cabinet Where it is feasible to run new cable both fiber and copper Ethernet are capable of connecting the curb with a full 100Mbit s or 1Gbit s connection Even using relatively cheap outdoor category 5 copper over thousands of feet all Ethernet protocols including power over Ethernet PoE are supported citation needed Most fixed wireless technologies rely on PoE including Motorola Canopy which has low power radios capable of running on a 12VDC power supply fed over several hundred feet of cable Power line networking deployments also rely on FTTC Using the IEEE P1901 protocol or its predecessor HomePlug AV existing electric service cables move up to 1Gbit s from the curb pole cabinet into every AC electrical outlet in the home coverage equivalent to a robust Wi Fi implementation with the added advantage of a single cable for power and data By avoiding new cable and its cost and liabilities FTTC costs less to deploy However it also has historically had lower bandwidth potential than FTTP In practice the relative advantage of fiber depends on the bandwidth available for backhaul usage based billing restrictions that prevent full use of last mile capabilities and customer premises equipment and maintenance restrictions and the cost of running fiber that can vary widely with geography and building type In the United States and Canada the largest deployment of FTTC was carried out by BellSouth Telecommunications With the acquisition of BellSouth by AT amp T deployment of FTTC will end Future deployments will be based on either FTTN or FTTP Existing FTTC plant may be removed and replaced with FTTP 16 Verizon meanwhile announced in March 2010 they were winding down Verizon FiOS expansion concentrating on completing their network in areas that already had FiOS franchises but were not deploying to new areas suggesting that FTTH was uneconomic beyond these areas Verizon also announced at CES 2010 its entry into the smart home and power utility data management arenas indicating it was considering using P1901 based FTTC or some other existing wire approach to reach into homes and access additional revenues from the secure AES 128 bandwidth required for advanced metering infrastructure However the largest 1Gbit s deployment in the United States in Chattanooga Tennessee despite being conducted by power utility EPB 17 was FTTH rather than FTTC reaching every subscriber in a 600 square mile area Monthly pricing of 350 reflected this generally high cost of deployment However Chattanooga EPB has reduced the monthly pricing to 70 month 18 Historically both telephone and cable companies avoided hybrid networks using several different modes of transport from their point of presence into customer premises The increased competitive cost pressure availability of three different existing wire solutions smart grid deployment requirements as in Chattanooga and better hybrid networking tools with major vendors like Alcatel Lucent and Qualcomm Atheros and Wi Fi solutions for edge networks IEEE 1905 and IEEE 802 21 protocol efforts and SNMP improvements all make FTTC deployments more likely in areas uneconomic to serve with FTTP FTTH In effect FTTC serves as a halfway measure between fixed wireless and FTTH with special advantages for smart appliances and electric vehicles that rely on PLC use already Deployments EditOperators around the world have been rolling out high speed Internet access networks since the mid 2000s Some used a network topology known as Active Ethernet Point to Point to deliver services from its central office directly into subscribers homes Fiber termination was handled by a residential gateway provided by Advanced Digital Broadcast inside a subscriber s home to be shared with other consumer electronics CE devices Since 2007 Italian access providers Fastweb 19 Telecom Italia Vodafone and Wind participated in an initiative called Fiber for Italy with the aim of creating a countrywide fiber to the home network in Italy The pilot taking place in the Italian capital Rome has seen symmetrical bandwidth of 100 Mbit s 20 Telecom Italia which refused to take part in the Fiber for Italy initiative has an even more ambitious plan to bring fiber to the home and fiber to the business to 138 cities by 2018 21 By the end of December 2010 the total number of fiber to the home enabled homes had passed 2 5 million with more than 348 000 subscribers 21 clarification needed In September 2010 the European Commission published a new Recommendation for Regulated Access to NGA Networks along with a list of measures to promote the deployment of fast broadband and next generation access networks 22 Portugal Telecom plans to complete its fiber to the home nationwide roll out by 2020 Currently 200 mbs down 100mbs up costs 22 euros per month 23 Between September 2017 and March 2019 the number of European FTTH and FTTB subscribers increased by nearly 16 By 2025 the total number of premises passed by FTTH and FTTB infrastructure is expected to reach 187 million throughout Europe 24 Google Fiber provides speed of up to 1 Gbit s 25 Active Line Access is an evolving standard for the provision of services over FTTP networks in the United Kingdom proposed by the regulator Ofcom and developed by the Network Interoperability Consultative Committee 26 FTTP Edit Main article Fiber to the premises by country FTTS FTTH and FTTB Edit Most FTTH deployments follow one of four primary architecture types centralized split distributed split star architecture or daisy chaining Fiber network developers choose architectures based on a variety of factors such as the physical geography of the local environment number of anticipated subscribers and labor force skill 27 FTTN and FTTC Edit FTTC during installation in GermanyFTTN C is seen as an interim step towards full FTTH and in many cases triple play services delivered using this approach to provide up to around 100 Mbit s have been proven to grow subscriber numbers and ARPU considerably 28 29 30 FTTN C is currently used by a number of operators including AT amp T in the United States Germany s Deutsche Telekom Greece s OTE Swisscom TIM in Italy Proximus in Belgium nbn in Australia and Canadian operators Telus Cogeco and Bell Canada Optical distribution networks EditDirect fiber Edit The simplest optical distribution network architecture is direct fiber each fiber leaving the central office goes to exactly one customer These networks can give you a lot of bandwidth but they cost more because of the fiber and the equipment in the central office 31 Direct fiber is generally favored by new entrants and competitive operators A benefit is that no layer 2 networking technologies are excluded whether passive optical network PON active optical network AON or other Any form of regulatory remedy is possible using this topology 32 Shared fiber Edit More commonly each fiber leaving the central office is actually shared by many customers It is not until such a fiber gets relatively close to the customers that it is split into individual customer specific fibers AONs and PONs both achieve this split Active optical network Edit Comparison showing how a typical AON a star network capable of multicasting handles downstream traffic differently from a typical PON a star network having multiple splitters housed in the same cabinet AONs rely on electrically powered network equipment to distribute the signal such as a switch or router Normally signals need an optical electrical optical transformation in the AON Each signal leaving the central office is directed only to the customer for whom it is intended Incoming signals from the customers avoid colliding at the intersection because the powered equipment there provides buffering Active Ethernet a type of Ethernet in the first mile is a common AON which uses optical Ethernet switches to distribute the signal incorporating the customers premises and the central office into a large switched Ethernet network Such networks are identical to Ethernet computer networks used in businesses and academic institutions except that their purpose is to connect homes and buildings to a central office rather than to connect computers and printers within a location Each switching cabinet can handle up to 1 000 customers although 400 500 is more typical This neighborhood equipment performs layer 2 switching or layer 3 switching and routing offloading full layer 3 routing to the carrier s central office The IEEE 802 3ah standard enables service providers to deliver up to 1000 Mbit s full duplex over one single mode optical fiber FTTP depending on the provider Passive optical network Edit Main article Passive optical network A passive optical network PON is a point to multipoint FTTP network architecture in which unpowered optical splitters are used to enable a single optical fiber to serve up to 128 customers A PON reduces the fiber and central office equipment required compared with point to point architecture Because of this and because it needs no powered splitters or other active components from the moment it leaves the ISP s facilities until it reaches the customer many ISPs prefer this technology 33 The downstream signal coming from the central office is broadcast to each customer premises sharing a fiber Encryption is used to prevent eavesdropping Upstream signals are combined using a multiple access protocol usually time division multiple access TDMA Ethernet point to point Edit Point to Point Protocol over Ethernet PPPoE is a common way of delivering triple and quad play voice video data and mobile services over both fiber and hybrid fiber coaxial HFC networks Active PPPoE uses dedicated fiber from an operator s central office all the way to the subscribers homes while hybrid networks often FTTN use it to transport data via fiber to an intermediate point to ensure sufficiently high throughput speeds over last mile copper connections This approach has become increasingly popular in recent years with telecoms service providers in both North America AT amp T Telus for example and Europe s Fastweb Telecom Italia Telekom Austria and Deutsche Telekom for example Google has also looked into this approach amongst others as a way to deliver multiple services over open access networks in the United States 34 Electrical network Edit Once on private property the signal is typically converted into an electrical format The optical network terminal ONT an ITU T term or unit ONU an identical IEEE term converts the optical signal into an electrical signal using thin film filter technology These units require electrical power for their operation so some providers connect them to backup batteries in case of power outages to ensure emergency access to telecommunications The optical line terminations range the optical network terminals or units in order to provide TDMA time slot assignments for upstream communication For FTTH and for some forms of FTTB it is common for the building s existing Ethernet phone and cable TV systems to connect directly to the optical network terminal or unit If all three systems cannot directly reach the unit it is possible to combine signals and transport them over a common medium such as Ethernet Once closer to the end user equipment such as a router or network interface controller can separate the signals and convert them into the appropriate protocol For FTTC and FTTN the combined internet video and telephone signal travels to the building over existing telephone or cable wiring until it reaches the end user s living space where a VDSL or DOCSIS modem converts data and video signals into Ethernet protocol which is sent over the end user s category 5 cable See also EditNational broadband planReferences Edit How Fiber Optics Work https computer howstuffworks com fiber optic4 htm How Stuff Works Retrieved 2 June 2020 Mark Jackson October 25 2010 The Definition of UK Superfast Next Generation Broadband ISP Review retrieved May 3 2012 Review of the wholesale local access market PDF Ofcom org uk June 1 2010 Retrieved June 18 2021 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Poulus Tim November 17 2010 FTTH networking Active Ethernet versus Passive Optical Networking and point to point vs point to multipoint Telecompaper Retrieved July 12 2013 a href Template Cite web html title Template Cite web cite web a CS1 maint url status link Ed Gubbins Active Ethernet grows in PON s shadow Archived 2011 10 01 at the Wayback Machine NXTcomm Daily News Penton Media 13 May 2008 Retrieved 12 July 2013 Coomans Werner Moraes Rodrigo B Hooghe Koen Duque Alex Galaro Joe Timmers Michael Van Wijngaarden Adriaan J Guenach Mamoun Maes Jochen 2015 XG fast the 5th generation broadband IEEE Communications Magazine IEEE Xplore 53 12 83 88 doi 10 1109 MCOM 2015 7355589 S2CID 33169617 Robert Reid All multimode fiber is not created equal permanent dead link Cabling Installation amp Maintenance PennWell Corporation February 2007 retrieved 12 July 2013 Heath Nick September 26 2014 Could ultrafast broadband over copper speed the rollout of gigabit internet TechRepublic FTTH Council Definition of Terms PDF FTTH Council August 11 2006 Retrieved September 1 2011 dead link FTTH Council Definition of Terms PDF FTTH Council January 9 2009 Archived from the original PDF on June 3 2015 Retrieved June 22 2015 a b c FTTH Council Definition of Terms PDF FTTH Council September 2011 Archived from the original PDF on October 8 2013 Retrieved June 27 2013 FTTH Council Definition of Terms PDF FTTH Council February 2016 Archived from the original PDF on June 22 2015 Retrieved June 22 2015 FTTx OFS Optics Retrieved July 17 2017 da Silva Henrique March 2005 Optical Access Networks Archived March 4 2016 at the Wayback Machine Instituto de Telecomunicacoes 9 March 2005 slide 10 Retrieved on 2007 03 25 McCullough Don August 2005 Flexibility is key to successful fiber to the premises deployments Archived 2011 10 09 at the Wayback Machine Lightwave 22 8 Retrieved on 2010 01 27 Ed Gubbins Analyst AT amp T may replace some FTTC with FTTP Connected Planet Penton Media Inc 21 December 2007 EPB website of a non profit agency of the City of Chattanooga established in 1935 to provide electric power to the greater Chattanooga area Retrieved 12 July 2013 EPBFI a website for EPB Fiber Optics Retrieved 3 June 2014 Enrico Pietralunga March 23 2009 Fastweb FTTH A 10 years success story PDF Konferenzbeitraege Berlin presentation Fastweb Retrieved May 3 2012 FTTH with the Optical Distribution Frame Connections Reichle amp De Massari AG March 17 2011 Archived from the original on March 28 2012 Retrieved May 3 2012 a b Sean Buckley January 17 2011 Italy FTTH reaches 348 000 subscriber mark Fierce Telecom Retrieved May 3 2012 Digital Agenda Commission outlines measures to deliver fast and ultra fast broadband in Europe Europe s Information Society September 20 2010 Retrieved May 3 2012 Net Telefone Fibra MEO Archived from the original on June 27 2018 Retrieved June 26 2018 Press Release Fibre to the Home Council Europe https www ftthcouncil eu documents PressReleases 2019 PR 20Market 20Panorama 20 2014 03 2019 20V3 pdf Archived July 31 2020 at the Wayback Machine Retrieved 2 June 2020 Service plans and pricing Fiber Help Retrieved March 25 2017 VLAN standard could extend broadband reach to poorest Computing March 26 2010 Choosing The Right FTTH Architecture For Your Network OSPInsight Retrieved August 13 2021 Facts and Figures 2010 Archived 2012 07 08 at archive today Annual Report Telekom Austria Group Retrieved 12 July 2013 Telecommunication Market Trends 2010 Annual Report Swisscom page 22 Retrieved 12 July 2013 Best Ever Mobile Broadband Sales and Strong Cash Flows Highlight AT amp T s Fourth Quarter Results Stock Buyback Begins on Previous 300 Million Share Authorization Archived September 11 2012 at the Wayback Machine News Release AT amp T 26 January 2012 Dieter Elixmann et al The Economics of Next Generation Access Final Report Study for the European Competitive Telecommunication Association ECTA WIK Consult GmbH 10 September 2008 Retrieved 12 July 2012 Rudolf van der Berg Developments in Fiber Technologies and Investment Working Party on Communication Infrastructures and Services Policy CISP Committee for Information Computer and Communication Policy ICCP Directorate for Science Technology and Industry DSTI Organisation for Economic Co operation and Development OECD 3 April 2008 Retrieved 12 July 2013 Fundamentals PDF jm telecoms free fr Retrieved April 4 2023 Stephen Hardy Is Active Ethernet best FTTH option for Google Archived December 28 2011 at the Wayback Machine Lightwave PennWell Corporation 24 February 2010External links Edit Wikimedia Commons has media related to Fiber to the x Fiber to the Home Council Asia Pacific Fibre to the Home Council Europe Fiber to the Home Council North America Fiber to the Home Council Latin America Chapter Retrieved from https en wikipedia org w index php title Fiber to the x amp oldid 1170743499, wikipedia, wiki, book, books, library,

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