HSDPA – Advanced

New Admin

10 years ago

UTRAN Architecture
- Network architecture model
- Network components
- MAC enhancements
- Control plane enhancement
- Node B & RNC enhancements
- UE enhancements
HSDPA Overview
- HSDPA power management
- Packet scheduler
- MAC scheduling function
- QPSK and 16-QAM
- Channel quality feedback mechanisms (CQI)
- Multi-user diversity (MUD)
- Multiple Input Multiple Output (MIMO)
- High speed downlink shared channels (HS-DSCH)
- Hybrid ARQ (H-ARQ)
- Adaptive modulation and coding
- H-ARQ operation
- Fast scheduling
- Resource management
- UE measurements/reporting/capabilities
HSDPA Physical Layer
- Frame structure HS-SCCH
- Frame structure HS-DPSCH
- Frame structure HS-PDSCH
- Uplink and downlink signaling
- CQI
- Timing relationships
- Link adaptation
- Soft combining
- Frame size optimization
HSDPA MAC Layer
- MAC-d
- MAC-c/sh
- MAC-hs
- Explain MAC entities for different transport channels
- HARQ protocols and information
- Signaling
- Error handling
- Transport block sizes
- Channelization codes
- Measurement feedback rate
- HS-PDSCH power offset
- HS-SCCH Cyclic Sequence Number (HCSN)
- Uplink signaling parameters measurement report
HSDPA Control Plane
- Radio Resource Control (RRC) protocol
- Node B application part (NBAP) protocol
- Radio network subsystem application part (RNSAP) protocol
HSDPA User Plane
- HS-DSCH FP
- Transport blocks
- MAC layer functionality
- Synchronization
- Control of MAC-d PDUs and flow control
- Capacity allocation messages
Traffic Channel Operations & Mobility
- Packet scheduler
- RAB and multi-RAB
- RRC connection enhancements
- Radio bearer setup
- Channel assignments
- Inter node B handover
- Intra node B handover
- Radio bearer reconfiguration
HSDPA Design
- Adaptive Modulation Coding (AMC) modeling
- Ec/Nt HS-PDSCH prediction plots
- CQI prediction plots
- RLC throughput prediction plots
Course Wrap-up: Future Evolution, Recap, Q/A, and Evaluations