Price: $2,999.00
Course Number: 520
Length: 3 Days
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HSPA/HSPA+ trainig course covers the fundamentals of HSPA/HSPA+ network including Adaptive Modulation and Coding (AMC), Multiple-Input Multiple-Output (MIMO), Hybrid Automatic Request (HARQ), fast cell search, and advanced receiver design

Who Should Attend

Engineers

Objectives

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

Outline

HSDPA Principals

  • HSDPA radio optimization principals
  • HSDPA's distributed architecture
  • Low delay link adaptation
  • Fast physical layer (L1) retransmission
  • Combining and link adaptation techniques
  • Scheduling for the downlink packet data operation at the base station
  • Higher-order modulation
  • Impact of HSDPA on W-CDMA
  • HSDPA power management
  • HSDPA performance
  • Significant performance improvements
  • Achieving higher theoretical peak rates
  • QPSK modulation and 16-QAM
  • HSDPA mobile devices, Node B, RNC and modems

Key HSDPA Technologies

  • Adaptive modulation and coding (AMC)
  • Fast Scheduling
  • Hybrid automatic repeat request (HARQ)
  • Fast PHY Re-Transmissions
  • Channel Quality Feedback
  • High-Speed Downlink Shared Channel (HS-DSCH)
  • MIMOs

High-speed downlink shared channel (HS-DSCH)

  • Basic structure of HS-DSCH
  • Protocol structure
  • Basic physical structure
  • HS-DSCH Characteristics
  • DL HS-DSCH Physical layer model
  • FDD Downlink Physical layer Model
  • TDD Downlink Physical layer model
  • UL Physical layer model
  • HS-DSCH physical-layer structure in the code domain

MAC architecture

  • HS-DSCH MAC architecture - UE side
  • Overall architecture
  • Details of MAC-d
  • Details of MAC-c/sh
  • Details of MAC-hs
  • HS-DSCH MAC architecture - UTRAN side
  • HARQ protocols
  • Signalling
  • Uplink and Downlink
  • Error handling
  • Signaling parameters
  • Downlink signaling parameters
  • UE identification
  • Transport Block Sizes
  • Channelization codes
  • HS-PDSCH configuration
  • HARQ information
  • Measurement feedback rate
  • HS-PDSCH power offset
  • HS-SCCH Cyclic Sequence Number (HCSN)
  • Uplink signaling parameters Measurement report

High Speed Downlink Packet Access: Iub/Iur protocol

  • Impacts on Iub Interface - General Aspects
  • Impacts on Iub/Iur Control Plane Protocols
  • HSDPA Signaling Requirements (Comparison between DSCH and HS-DSCH)
  • Impacts on NBAP Procedures
  • Example of HS-DSCH Configuration and Capacity Allocation
  • Examples of HS-DSCH Mobility Procedures
  • Impacts on Iub Interface User Plane Protocols
  • Transport Bearer Options
  • QoS Aspects
  • Security Aspects
  • TDD versus FDD Aspects
  • Backwards Compatibility

HSDPA Radio Aspects

  • Basic physical structure
  • HS-DSCH Characteristics
  • DL HS-DSCH Physical layer model
  • FDD Downlink Physical layer Model
  • TDD Downlink Physical layer model
  • UL Physical layer model
  • HS-DSCH physical-layer structure in the code domain
  • Signaling parameters
  • Downlink signaling parameters
  • UE identification
  • Transport Block Sizes
  • Channelization codes (FDD only)
  • HS-PDSCH configuration (TDD only)
  • HS-PDSCH power offset
  • HS-SCCH Cyclic Sequence Number (HCSN) (TDD only)
  • Uplink signalling parameters
  • Measurement report

HSDPA Physical and MAC Layer Design Issues

  • Turbo coding
  • Acquisition, rake receiver, TDD mode receiver, symbol rate processing, MIMO antennas, and interference cancellation and equalization
  • Physical Channels and Channel Structures
  • Spreading and modulation
  • Adaptive Modulation and Coding (AMC)
  • HSDPA ASIC verification
  • Devices, Node Bs and RNCs

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