![]() ![]() Users with smart phones, tablets, laptops, M2M devices, etc. 28ġ Introduction Exponential growth in data traffic, coupled with flat revenues, has driven mobile backhaul from traditional T1/E1 to Ethernet for scalable bandwidth and improved cost structure. Smart SFPs: Complementary, Compact Mobile Backhaul Problem Solvers. 17Ĭomplete ETX Carrier Ethernet / Mobile Backhaul Product Portfolio. 16ĥ.6 Comprehensive SAA Solution Including GbE/10G Rings, TDM & Timing for Macro & Small Cells. 15 5.5īusiness Services over Backhaul Infrastructure. 13ĥ.4 Hosted “vNID” Supporting Mobile Operator and Wholesale Backhaul Provider Simultaneously. 13Īddressing LTE-Advanced Timing/SLA Requirements w/ Distributed PTP-GM. SLA-Assured Ethernet Backhaul with Legacy 2G/3G Support. 11 5.1ĬE 2.0 Certified Backhaul with SLA Assurance for Macro/Small Cells. Service Assured Access: Increasing Backhaul Revenue While Reducing TCO. 7Īddressing Mobile Backhaul Requirements.8 Synchronization Requirements Becoming More Stringent to Support LTE-Advanced 6 5Ģ.4 SONET/SDH to Carrier Ethernet Migration, Including GbE/10GbE Rings Based on G.8032v2. ![]() 4Ĭarrier Ethernet to MEF CE 2.0 Mobile Backhaul. ![]() Widespread Adoption of Cloud-Based Services. Key emphasis is on the OAM, resiliency, Quality of Service (QoS) and timing technologies required for cost-efficient backhaul of 2G/3G/4G/LTE and small cells traffic. Mobile Backhaul Overview and Solution GuideĪbstract This paper presents a brief overview of today’s mobile backhaul market, outlines the unique challenges facing mobile operators and backhaul transport providers, and suggests strategies for improving network performance and coverage. ![]()
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