Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics

Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics

Show other versions (1)

The study focuses on building a financial model for a telecommunications carrier to guide it towards profitable network investments. The model shows optimal access-network topography by comparing two broadband delivery techniques over fibre technology. The study is a scenario exploration of how a l...

Full description

Bibliographic Details
Main Author: Saeed, Muhammad
Other Authors: Paradi, Joseph C.
Language:en_ca
Published: 2011
Subjects:
FTTx
Fibre Optic
Last Mile
Bandwidth
0796
Online Access:http://hdl.handle.net/1807/31425
id ndltd-LACETR-oai-collectionscanada.gc.ca-OTU.1807-31425
record_format oai_dc
spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OTU.1807-314252013-11-02T03:43:31ZDetermining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile EconomicsSaeed, MuhammadFTTxFibre OpticLast MileBandwidth0796The study focuses on building a financial model for a telecommunications carrier to guide it towards profitable network investments. The model shows optimal access-network topography by comparing two broadband delivery techniques over fibre technology. The study is a scenario exploration of how a large telecommunication company deploying fibre will see its investment pay off in a Canadian residential market where cable operators are using competing technology serving the same bandwidth hungry consumers. The comparison is made at the last mile by studying how household densities, bandwidth demand, competition, geographic and deployment considerations affect the economics of fibre technology investment. Case comparisons are made using custom models that extend market forecasts to estimate future bandwidth demand. Market uptake is forecasted using sigmoid curves in an environment where competing and older technologies exist. Sensitivity analyses are performed on each fibre technology to assess venture profitability under different scenarios.Paradi, Joseph C.2011-112011-12-20T16:23:18ZNO_RESTRICTION2011-12-20T16:23:18Z2011-12-20Thesishttp://hdl.handle.net/1807/31425en_ca
collection NDLTD
language en_ca
sources NDLTD
topic FTTx
Fibre Optic
Last Mile
Bandwidth
0796
spellingShingle FTTx
Fibre Optic
Last Mile
Bandwidth
0796
Saeed, Muhammad
Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
description The study focuses on building a financial model for a telecommunications carrier to guide it towards profitable network investments. The model shows optimal access-network topography by comparing two broadband delivery techniques over fibre technology. The study is a scenario exploration of how a large telecommunication company deploying fibre will see its investment pay off in a Canadian residential market where cable operators are using competing technology serving the same bandwidth hungry consumers. The comparison is made at the last mile by studying how household densities, bandwidth demand, competition, geographic and deployment considerations affect the economics of fibre technology investment. Case comparisons are made using custom models that extend market forecasts to estimate future bandwidth demand. Market uptake is forecasted using sigmoid curves in an environment where competing and older technologies exist. Sensitivity analyses are performed on each fibre technology to assess venture profitability under different scenarios.
author2 Paradi, Joseph C.
author_facet Paradi, Joseph C.
Saeed, Muhammad
author Saeed, Muhammad
author_sort Saeed, Muhammad
title Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
title_short Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
title_full Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
title_fullStr Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
title_full_unstemmed Determining Optimal Fibre-optic Network Architecture using Bandwidth Forecast, Competitve Market, and Infrastructure-efficienct Models used to Study Last Mile Economics
title_sort determining optimal fibre-optic network architecture using bandwidth forecast, competitve market, and infrastructure-efficienct models used to study last mile economics
publishDate 2011
url http://hdl.handle.net/1807/31425
work_keys_str_mv AT saeedmuhammad determiningoptimalfibreopticnetworkarchitectureusingbandwidthforecastcompetitvemarketandinfrastructureefficienctmodelsusedtostudylastmileeconomics
_version_ 1716612870161039360

Similar Items