HSUPA

New Admin

10 years ago

UMTS: A Refresher
- UMTS network architecture
- UMTS WCDMA air interface
- UMTS coverage versus capacity trade-off
HSDPA: A Refresher
- HSDPA network architecture
- HSDPA air interface
- HSDPA performance issues
Why Do We Need HSUPA?
- Data-centric applications
- How HSUPA improves system capacity
- Beyond HSDPA & HSUPA
HSUPA Architecture and Protocols
- RRC architecture
- HSUPA user plane architecture
- HSUPA protocol states
HSUPA vs. WCDMA Release 99
HSUPA Technologies
- Layer 1 Hybrid ARQ
- HSUPA packet scheduling
HSUPA E-DCH Channels
- E-DCH transport channel
- E-DCH physical channel
- E-DCH physical control channel
- E-DCH HARQ indicator channel
- E-DCH relative channel
- E-DCH absolute channel
- QoS and TTI length
Physical Layer Operation
- Hybrid ARQ process
- HARQ – soft handover
- HSUPA measurements
MAC Layer Operation
- HSUPA user plane
- HSUPA UE MAC
- HSUPA UTRAN MAC
- Overall HSUPA MAC architecture
- HSUPA advanced scheduling
HSUPA Handovers
- Iub interface parameters
- Soft Handover
- HSUPA in compressed mode
HSUPA Radio Resource Management (RRM)
- RNC algorithms
- Node B algorithms
HSUPA Performance Considerations
- Performance factors
- Cell capacity
- Performance enhancements
- UE capabilities and data rates
HSUPA Network Planning & Optimization
- Radio planning process
- Link budget
- HSUPA Radio Resource Management (RRM)
- DL capacity
- UL capacity
- HSUPA performance enhancements
- Planning for HSUPA applications
- End-to-end applications optimization
Course Wrap-up
- HSDPA, HSUPA, HSPA, LTE, and EUTRA, …
- Course recap, Q/A and evaluations