VDSL2 Bonding, Vectoring and Beyond
IDATE
December 1, 2011 SKU: IDT6744131
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This report analyses
bonding and vectoring
techniques improving
existing copper-based
broadband architecture. It
highlights the performance
and maturity, the
importance of regulatory
framework and the actual
network equipment
providers offering. It also
provides detailed analyses
of operators' stakes and the
role of copper in general
within ultrafast-broadband
networks.
Key questions
- How and whether can bonding and vectoring techniques
boost existing VDSL networks?
- What are the performances and the maturity of the new
techniques?
- What role for the regulatory framework?
- What are the offerings of network equipment providers?
- How are operators positioning themselves regarding the new
techniques?
- What is the role of copper within the
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- 1. Executive Summary
- 2. Intro
- 3. Copper innovative techniques description
- 3.1. DSL Bonding
- 3.2. DSL Vectoring
- 3.3. Beyond VDSL vectoring
- 3.4. Technical requirements
- 3.5. Regulatory aspects
- 3.5.1. Regulatory impacts on vectoring
- 3.5.2. Market 4 analyses in Belgium and the Netherlands
- 4. Network Equipment providers offering and positioning
- 4.1. Alcatel-Lucent
- 4.2. Ericsson
- 4.3. Huawei
- 4.4. Nokia Siemens Networks
- 4.5. ZTE
- 4.6. Other major players: Assia, Broadcom, Ikanos
- 5. Case studies
- 5.1. AT&T
- 5.2. Belgacom
- 5.3. BT
- 5.4. DT
- 5.5. KPN
- 5.6. Swisscom
- 6. VDSL 2, a potential key element to meet national NGA broadband goals?
- Tables
- Table 1: Potential of bonding, vectoring among the major countries in very high broadband
- Table 2: SDFs per MDF
- Table 3: SLU obligation in major VDSL countries
- Table 4: Belgacom commitment in deploying FTTx
- Table 5: KPN speeds evolution with bonding, vectoring and Phantom Mode
- Table 6: Potential of bonding, vectoring among the major countries in very high broaband
- Figures
- Figure 1: VDSL2 technologies timeframe
- Figure 2: Bandwidth requirements and provision
- Figure 3: Theoretical Performance of ADSL2+, VDSL and VDSL2
- Figure 4 : Principle of vectoring
- Figure 5 : Vectoring performance
- Figure 6: Lower cost per Mbps
- Figure 7: Phantom Mode principle
- Figure 8: VDSL2 profiles
- Figure 9 : Comparison between VDSL2 performance with 0.4mm cable over 24 lines (left) and 0.5mm over 6 lines (right)
- Figure 23: The ladder of investment
- Figure 24: SLU impact on Vectoring
- Figure 10: Alcatel-Lucent’s Phantom Mode functioning
- Figure 11: VDSL2 deployments and trials
- Figure 12: Ericsson vectoring system performance
- Figure 13: Huawei vectoring results
- Figure 14: ZTE bonding performance
- Figure 15: ZTE vectoring gain
- Figure 17: Belgacom timeline and network innovations
- Figure 18: Superfast broadband transformation in UK
- Figure 19: Openreach deployment objectives
- Figure 20: KPN broadband technologies evolution
- Figure 22: Swisscom’s vectoring field tests results
- Figure 25: VDSL2 technologies timeframe
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