Course Name:	HSUPA Fundamentals- High Speed Uplink Packet Access (HSUPA) Fundamentals
Course Duration:	2 Days
Deployment Option:	Onsite Training
Course Price:	$1499.00

Who Should Attend:

Radio design engineers, 3G applications developers, radio network planners, system architect and designer, programmers, system engineers, and technical managers.

Prerequisites:

Knowledge of UMTS R99 and HSDPA is recommended.

Course Description:

HSUPA (High Speed Uplink Packet Access) is a packet-based data service in W-CDMA uplink. HSDPA (High Speed Downlink Packet Access) and HSUPA (High Speed Uplink Packet Access) offer breakthrough data speeds, theoretically up to 14.4 Mbps in downlink and up to 5.8 Mbps in uplink respectively. HSUPA (High Speed Uplink Packet Access) extends the uplink capability, providing peak uplink data rates of 5.76Mbps (up from typically 384kbps maximum in today’s networks) and reduced data latency

Course Objectives:

HSUPA fundamentals training course provides you with a comprehensive technical foundation in HSUPA analysis, design, implementation and testing (RF and MAC layers applied to mobile device, Node B (BS) and RNC)

Contents:

DCH Setup Mechanisms Uplink/Downlink Synchronization Transport Format Combination Selection in the UE RNC controlled scheduling: DRAC and TFCS Restriction What is HSUPA (High Speed Uplink Packet Access)? Enhanced Uplink for UTRA FDD HSUPA Network Architecture HSUPA Impact to UTRAN Protocols HSUPA Physical Layer HSUPA Performance HSUPA Data rates and Capacity HSUDPA Network Dimensioning Overview of HSUPA Layer 3 Signaling and Messages Overview of Techniques Considered to Support Enhanced Uplink Scheduling NodeB controlled scheduling, AMC Node B Controlled Rate Scheduling by Fast TFCS Restriction Control Method for Node B Controlled Time and Rate Scheduling Scheduling in Soft Handover Node B Controlled Rate Scheduling by Persistence Control Brief Overview of Different Scheduling Strategies Hybrid ARQ Transport Channel Processing Associated Signaling Operation in Soft Handover Fast DCH Setup Mechanisms Reducing Uplink/Downlink Synchronization Time Shorter Frame Size for Improved QoS Signaling to support the enhancements Miscellaneous enhancements Support for enhanced channel estimation Physical Layer Structure Alternatives for Enhanced Uplink DCH Relationship to existing transport channels TTI length vs. HARQ physical channel structure Multiplexing alternatives in general Multiplexing alternatives in detail E-DCH timing Overall Architecture of Enhanced Uplink DCH Protocol architecture Transport channel attributes Basic physical structure UL Physical layer model DL Physical layer model HSUPA MAC Architecture General Principle MAC multiplexing Reordering entity MAC architecture – UE side MAC architecture – UTRAN side Overall architecture Details of MAC-d Details of MAC-c/sh Details of MAC-hs Details of MAC-es Details of MAC-e HARQ Protocol General Principle Error handling Uplink Signalling Downlink Signalling Node B controlled scheduling General Principle UE scheduling operation Uplink Signalling Downlink Signalling QoS Control TFC and E-TFC selection Setting of Power offset attributes of MAC-d flows Signalling Parameters Uplink signalling parameters Transport block size Downlink signalling parameters Evaluation of Techniques for Enhanced Uplink Scheduling: NodeB controlled scheduling, AMC Complexity Evaluation: UE and RNS impacts Downlink Signaling Uplink Signaling 8-PSK link performance Hybrid ARQ Performance Evaluation Complexity Evaluation Fast DCH Setup Mechanisms Complexity Evaluation: UE and RNS impacts Shorter Frame Size for Improved QoS Compatibility of the enhancements with existing releases Compatibility at the edge of coverage Legacy UE Link budget DL capacity Design re-use Impacts to the Radio Interface Protocol Architecture HSUPA Protocol Model New MAC functionality Introduction of an enhanced uplink dedicated transport channel (E-DCH) HARQ functionality Reordering entity TFC selection RLC RRC Impacts to Iub/Iur Protocols Impacts on Iub/Iur Application Protocols Impacts on Frame Protocol over Iub/Iur Mobility procedures

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