Nomitech Telecom Databases and Models Nomitech Database Nomitech presents a series of Telecom Databases and Models and satisfies a market requirement that was unsutisfied for several years. The Telecom Industry is continualy evolving and Nomitech is commited in providing the latest technologies and delivering state of the art expertise.
FTTx FTTx Market Overview Telecom operators face the challenge of providing advanced and innovative services to their customers to minimize the cost and increase their revenues. Next Generation Network Services provisioning and the convergence of voice, video and data services over a single connection pose significant enhancements at the network architecture. Copper reached its limits and fiber needs to be widely utilized deep in the network, penetrating even into the access domain. FTTB topologies and the utilization of ADSL2/2+ or VDSL2 technology over the existing copper plant offers a cost efficient alternative solution that covers the
needs of triple play delivery. Fiber-to-the-Home (FTTH) is the ultimate solution for the provision of the required abundance of bandwidth to the end user, but the associated high installation cost acts as a deterrent for many carriers to proceed to mass deployments of such implementations. FTTH - Outside Plant deployment Optimization of Outside Plant works is of immense importance as OSP represent more than 70% of overall CAPEX. OSP contribution to overall CAPEX varies with respect to Brownfield or Greenfield conditions and the chosen FTTH technology (Active vs. PON), but always represents the largest portion. OSP network design needs to be parameterised reflecting local conditions. Rollout mechanism must be well tuned to achieve minimum implementation costs and deployment time Optimization of OSP Design The design of a FTTx network depends on: •Demographic parameters of a specific area (households/Km2 ) •Geographical settlement of the buildings of each area •Network rollout plan (on demand vs. 100% coverage) •Selection of FTTx technology (P2P, PON) Spare capacity (ducts, fiber)
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OSP design optimization requires modeling of OSP FTTH deployment so as to efficiently calculate : •the cost (CAPEX & OPEX) of an FTTx network deployment (Low Level Design) •Bill of Materials (Passive & Active) •Labor (e.g. trenching, fiber splicing, etc.) OSP FTTx Deployment Model
• Adaptation of these areas to a simplistic topology (avoiding the complexity of the real building settlements) • The FTTx network is divided into three parts: Drop network, Distribution network, Feeder network • The model is based on a “bottom-up” approach starting from the building terminations, through the drop, distribution and feeder networks, up to the POP/CP. • The model is adaptable to any optical access technology.
Nomitech developed a FTTHx Cost model within CostOS, aiming to assist telecom companies in optimising Benefits their design and delivering cost effective services • Estimate the CAPEX and OPEX of the access network’s passive infrastructure Overview • Provide several deployment scenarios • Examination of the demographical parameters and • Minimize the total investment risk building settlement specifically tuned for any country’s • Simplify access network design urban areas
Metro/Backbone fiber optic network What is “Metro/backbone fiber optic network cost estimation?” Backbone fiber optic network cost estimating models refers to the specialized processes leading to a successful and cost effective choice of installation and operation techniques of a fiber optic network. Nomitech cost estimating telecom models include the determination of the type of communication system(s) which will be carried over the network,
affection of the total project cost from the actual component selections, placements, installation practices, testing, troubleshooting and network equipment installations and startups. Finally, the telecoms models take into account the documentation process, maintenance and planning for restoration in event of an outage in order to offer a completed and detailed cost analysis of the backbone fiber optic network project.
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the geographic layout (premises, campus, outside plant (OSP, etc), the transmission equipment required and the fiber network over which it will operate. Additionally include the consideration of requirements for permits, easements, permissions and inspections. The models can estimate and compare the
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Civil Works
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Restoration
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Pipes and tubes - supply and laying
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Supplying and laying of ducts
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Supplying and laying of microtubes in tubes
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Supplying and laying of manholes
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Supplying and laying of FO cables
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F.O. Splicing and termination
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Closure system - supply and laying
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Test and measuring of F.O. cables
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Test of Conduits