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Economic Assessment
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The incremental capital costs to provide broadband data service over an existing twoway HFC plant are fairly low For a moderately sized cable system, the CMTS cost for a typical MAC domain (one downstream channel and four upstream channels) capable of serving four service groups (up to 500 600 residential customers at a data rate of 5 Mbps downstream and 1 Mbps upstream) in the typical deployment discussed in Typical Deployment Scenarios would be in the range of $30,000 That averages out to be $50 $60 per subscriber Add to that approximately $50 per subscriber for a current DOCSIS 20 cable modem, and the result is a total capital cost on the order of $100 per subscriber for the two ends of the data connection This obviously doesn t include other necessary capital expenses and the operational expenses of providing a data service offering to customers, but these costs would be present regardless of the access-network technology in use The costs to build and maintain the HFC plant are not as trivial To build a modern HFC network costs on the order of $30,000 per mile of plant (including head-end equipment costs), and to maintain the network, costs are another $1000 per mile each year [8]
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Numerous vendors develop DOCSIS-compliant equipment Compliance with the DOCSIS specifications is certified by CableLabs in the US and EuroCableLabs in Europe Complete lists of certified DOCSIS- and EuroDOCSIS-compliant equipment can be found at the CableLabs and Excentis websites:
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wwwcablelabscom/certqual/lists/ wwwexcentiscom/files/certified_qualifiedproductspdf
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Some illustrative DOCSIS vendors/products are detailed here
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Vendor Ambit (wwwambitbroadbandcom) ARRIS (wwwarrisicom) BigBand Networks (wwwbigbandnetcom) Cisco Systems (wwwciscocom) Motorola (wwwmotorolacom) Product(s) CM: U10C018 CM: Touchstone CM550, Touchstone CM550 CMTS: Cadant C4, Cadant C3 CMTS: Cuda12000 CM: Linksys BEFCMU10 CMTS: uBR 10012, uBR7200, uBR7100 CM: SB5120, SB5101, SBG940, SBG900 CMTS: BSR 64000, BSR 2000, BSR 1000 CM: WebSTAR DPC2100 CM: TCM425, DCM425 Comments Cable modems Cable modems and Cable modem termination systems Cable modem termination systems Cable modems and cable modem termination systems Cable modems and cable modem termination systems
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Scienti c-Atlanta (wwwscienti catlantacom) Thomson (wwwthomsonnet)
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Cable modems Cable modems
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References
1 Information technology Open Systems Interconnection Basic Reference Model: The Basic Model, ISO/IEC 7498-1, 1994 2 DOCSIS specifications may be found at the CableLabs website: wwwcablemodem com/specifications/ 3 The Internet Engineering Task Force RFCs and standards (including DHCP, TFTP, SNMP, SIP, MGCP, IntServ, DiffServ, RAP, COPS, IPSec, and IKE) may be found at the IETF website: wwwietforg 4 Lee and Bertorelle, System-Level Capacity and QoS in DOCSIS 11 Upstream, SCTE Emerging Technology Conference, 2002 5 CableHome specifications may be found at the CableLabs CableHome website: wwwcablelabscom/projects/cablehome/specifications/ 6 PacketCable specifications may be found at the CableLabs PacketCable website: wwwpacketcablecom/specifications/ 7 Various articles, Cable Digital News (February 2002, February 2003, May 2003, June 2006, October 2006, April 2007): wwwcabledigitalnewscom 8 John, Brouse, Fiber Access Network: A Cable Operator s Perspective, ITU-T All Star Network Access Workshop, June 2004: wwwituint/ITU-T/worksem/asna/ indexhtml
Passive Optical Networks (PONs)
by Marek Hajduczenia, Glen Kramer, and Lowell Lamb
Passive optical networks (PONs) are poised to address the first mile in the telecommunication infrastructure, spanning between the service provider central office (CO)/point of presence (POP) and residential/business customers Currently, the access network structure consists predominantly, in residential areas, of copper telephone wires or coaxial cable television (CATV) cables, whereas in metropolitan areas, where there is a high concentration of business customers, it also includes high-capacity synchronous optical network (SONET/ATM) rings, optical T3 lines, and copper-based T1s In order to alleviate the first mile bottleneck growing between high capacity LAN/ enterprise networks and multi-wavelength (DWDM) MAN/WAN structures, the PON networks target the economic sweet spot between T1s and OC-3S links that other access network technologies do not adequately address By promising high-speed Internet access at a reasonable price, PONs bring the vision of a fully digital home one step closer to becoming a reality There are a number of available PON-based access network solutions, namely broadband PON (BPON), Gigabit capable PON (GPON), asynchronous transfer mode PON (APON), and Ethernet PON (EPON), to name the most important ones Attempts have also been made to integrate SONET-based solutions with the PON technology, but so far this technology mix has not proven to be cost-effective and present any advantages over other available PON systems Despite the number of existing technological options, there are only two main competitors for actual deployment, namely BPONs (and more precisely GPONs, which also support ATM transmission and are based on a more modern standard than BPON) and EPONs Asynchronous transfer mode PONs (APONs) were developed in the mid-1990s through the work of the full-service access network (FSAN) initiative, composed of 20 large carriers working together with their strategic equipment suppliers to agree upon a common broadband access system for the provisioning of both broadband and narrowband services and to develop standards for designing the cheapest, fastest way
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