Next Generation Carrier's Network - Architectures, Economics and Forecasts

Next Generation Carrier's Network - Architectures, Economics and Forecasts published by IGI Consulting, Inc. in July, 2009. This report price starts from US $ 2495.

Introduction

Abstract

Overview

The history of the networking business is largely based on network evolution steps that were determined by the geniuses at Bell Labs. Another group of geniuses at the same institution determined end-user (station apparatus) capabilities. The famous beginning of the telephone industry might have been: in today' s terms: “Watson: come here. I need your cell phone number.”

It has been said that there have been three network designs: the telegraph network: the telephone network: and the Internet network. Each had its particular end-user apparatus - the telegraph: the telephone: and the computer. As we have changed from each of these paradigms to the next: we have seen massive business transformations by the major players. Some companies made the transformation; they survived and prospered; some did not and died. This report is about how to make those transformations and specifically about what network will be coming next - the next-generation network!

Report Features

This report reviews the techniques for NGN planning and some of the drivers in today' s market for that planning activity.

It includes the following major areas:

• The general forecast for the U.S. economy and particularly the U.S. telcos.
• Forecasts of CapEx for the next five years.
• A survey of what major players are doing in NGN planning.
• Interviews with some of the top thinkers in the telecommunications business today about NGN.
• The changing face of the network - why it is changing and how.
• A discussion of what the major carriers are doing in related areas.
• Our characterization of the NGN - access: speed: and flexibility.
• Our forecast for the next-generation network architecture - access: transport: and control.
• A presentation of architectural options facing a telecommunications company it the advanced access area: and a model of the related economics.
• A discussion of standards activity related to NGN.
• A description of the major technology groups in the NGN: with forecasts for their deployment.
• A listing of major vendors of NGN hardware and software.

Why have an NGN? - Why change networks?

If we have a perfectly good: working network: why do we change it? Why do we evolve it?

Here are some reasons:

• We find a way to make it cheaper to operate. (e.g.: changing from open wire to plastic sheathed cables).
• We find a way to make it cheaper to grow. (e.g.: we add cross-boxes).
• We find that we need more capacity. (e.g.: we convert from cable-derived circuits to T-1-derived circuits).
• The end-user devices (station apparatus) demands that we provide more or different functionality. (e.g.: HDTV delivery).

Of course: particularly with items 1: 2: and 3: there is often a mixture of motives for change. Often the need for more: cheaper capacity will combine items 2 and 3: for example. Over time: the importance of these reasons has changed.

As a part of this report: we will find that now the reason for changing networks is to meet end user-demand for services. The rationale for changing networks is moving from technology/cost savings to customer-driven!

Table of Contents

Table of Contents

Table of Figures

The Lightwave Network Series of Reports

The Lightwave Network

The Lightwave Series of Reports

• General Reports on the Network
• General Market Reports
• Specific Systems Reports

Introduction

The Impact of Competitive Networks

Transformation Planning

Why Do We Change Networks?

Customer is King!

This Report

US Telecommunications Economic Forecast

• General Economic Background

Telecom Economic Background

Possible Positives for Telecom in 2009

Telecommunications Capital Forecast

Telecommunications Economic Forecasts Summary

• Telecommunications Economic Forecasts - 2009

Survey of Next Generation Network Activities by Major Players

AT&T

BT (British Telecom) - “21CN'

Comcast

NTT (Japan)

Orange/FT (French Telecom)

Telstra (Australian)

Verizon

Qwest

Ciena

NeoPhotonics

Changing Face of the Network

Why Change Networks?

• Cheaper Operation:
• Cheaper to Grow
• Need for More Capacity:
• End-User Demand.

How the Network Is Changing

• Historical Network
• Recent Network
• Future Network

“Watson: Come Here - I Need your Cell Number!”

The Next Generation Network

NGN - Characterization

• Access
• Speed
• Flexibility

NGN - Architecture

• NGN - Access
• NGN - Transport
  • Local
    • Soft switches
    • MSPP
    • Metro DWDM
    • R-OADMs
  • IXC
    • R-OADMs
    • OC-768 and SONET Advances
    • IP
    • “Big Iron”
• NGN - Control
• New Competitors vs. Super Competitors View of Control
  • Control Forecast - A Compromise
    • 1. Direct Control
    • 2. Common Control and the Intelligent Network
    • 3. NGN Control

Summary of NGN Forecast

Economic Analysis for Various NGN Advanced Access Architectures

Comparison of Three Major Approaches

• BellSouth' s Fiber to the Curb (FTTC)
• AT&T' s Fiber to the node (FTTN)
• Verizon' s FTTP (Fiber to the Premise)

Summary of Fiber Requirements

An Economic Model NGN - AAA Architectural Differences

Fiber Required for Each Architecture

Cost of Fiber Needed for Each Architecture

AT&T' s New Plans for BellSouth - A Hybrid FTTC/FTTN

The Technologies of the Next Generation Network

Advanced Access Architectures

• Verizon
• AT&T
• Bell South
• Qwest

NGPONs - Advanced Options - 10-GPON and WDM-PON

• 10-GPON
• WDM-PONs
• Vendors of WDM-PON
  • Other WDM-PON Activities
• Vendors of WDM - Listing and Summary of Status

ROADMs

• Achieving SONET-like Control in Optical Networks
• A New ROADM
• Evolution to the Edge

NGN Standards Activities

ITU

IEFT

Comparison of ITU and IEFT NGN Views

Forecast for NGN Technologies

Advanced Access Architectures Forecast

Forecasts for Deployment

• AT&T
• Verizon
• BellSouth
• AAA Forecast Summary
• AT&T
• Verizon
• BellSouth
• Qwest

Forecast Size of Deployments

• Forecast of Homes Passed
• Penetration Rates
• Growth of AAA and Reduction in xDSL

ROADM Forecast

• Model for Forecast Core and Metro ROADMs
• Assumptions of Model
• Model for Forecast - Edge ROADMs
• Systems - Forecast
• US Edge ROADMs

US Market Forecast

Vendors for the NGN

Advanced Access Architecture Vendors

• Acterna (acquired by JDSU)
• ADC
• Adtran
• Advanced Fibre Communications Inc. (AFCI) (Now Tellabs)
• Alcatel-Lucent
• Alloptic Inc
• Amino Technologies plc
• Avanex Corporation (now Oclaro)
• Broadlight
• Calix
• Cisco
• Conexant
• Corrigent (now Orckit)
• Entrisphere Inc. (Acquired by Ericsson)
• Ericsson
• Fiberxon (Now Source Photonics combined with Luminent)
• Finisar Corporation
• FlexLight Networks (Defunct)
• Fujitsu
• Genone3 Technologies Inc.
• Hitachi Communication Technologies Ltd.
• Humax USA Inc.
• JDS Uniphase
• Kreatel Communications AB (Acquired by Motorola)
• LG Electronics
• LightComm Technology
• Marconi
• Microsoft
• Motorola
• NeoPhotonics
• Nortel
• Novera Optics (owned by Nortel / LG JV)
• OFS
• O-Net Communications Ltd
• Oplink Communications: Inc.
• Optiviva Inc.
• Optical Solutions (Acquired by Calix)
• Osaki Electric Co. Ltd.
• Paceon (Mitsubishi)
• Passave (Acquired by PMC-Sierra)
• PMC-Sierra
• Quantum Bridge Communications (Acquired by Motorola)
• Salira Optical Network Systems
• Scientific-Atlanta (Cisco)
• Siemens
• Source Photonics (Combined with Fiberxon and Luminent)
• Tandberg Ltd. (Ericsson)
• Tellabs
• Terawave (Acquired by Occam Networks)
• Tut Systems (Acquired by Motorola)
• Vinci Systems: Inc. (Acquired by Tellabs)
• Wave7 Optics
• Worldwide Packets: Inc. (Acquired by Ciena)
• Zhone Technologies

ROADM System Vendors

System Vendor Listing

• Adva Optical Networking
• Alcatel-Lucent
• Ciena
• Cisco
• ECI
• Ericsson
• Fujitsu
• Infinera
• Huawei Technologies
• Mahi Networks (formerly Photuris) - Meriton (now Xtera)
• Marconi Corporation plc (Ericsson)
• Meriton Networks (now Xtera)
• Movaz Networks (ADVA)
• NEC America Inc.
• Nistica
• Nokia Siemens (NSN)
• Nortel
• OpVista Inc.
• Tellabs
• Tropic Networks (Alcatel-Lucent)

Table of Figures

• Figure 1: Lightwave Network
• Figure 2: Telecommunication Capital Expenditures Actual and Forecast
• Figure 3: Telecommunications Economic Forecasts
• Figure 4: Historical Network
• Figure 5: Recent Network
• Figure 6: Near Future Network
• Figure 7: NGN - Characterization
• Figure 8: Next Generation Network
• Figure 9: Transformation from Opaque to Transparent
• Figure 10: Control Migration to Network Edge
• Figure 11: BellSouth FTTC
• Figure 12: AT&T Uverse (FTTN)
• Figure 13: Verizon FiOS (FTTP)
• Figure 14: Fibers Required per Year for Each Architecture
• Figure 15: Amount of Fibers for the Architectures
• Figure 16: Length of Fiber for the Architectures
• Figure 17: Fiber Costs of the Three Architectures
• Figure 18: Fiber Cost per customer - Each Architecture
• Figure 19: AT&T - BellSouth Hybrid FTTC
• Figure 20: Fiber Required Upgrading to Hybrid FTTC
• Figure 21: Identified Technologies of the NGN
• Figure 22: ROADMs to the Network Edge
• Figure 23: Differences between ITU and IEFT NGN Views
• Figure 24: Forecast Homes Passed Cumulative - All Technologies
• Figure 25: Forecast Homes Passed Annually - By Company - All Technologies
• Figure 26: FTTX vs. High-speed Accesses vs. US Households
• Figure 27: AAA Growth vs. Legacy XDSL
• Figure 28: ROADM System Unit Forecast - US
• Figure 29: US Market - Change in Predominant Type of ROADM over Time
• Figure 30: US Edge ROADMs Systems
• Figure 31: ROADMs Market Forecast - US
• Figure 32: OADM vs. ROADM Market - US

Related Reports