HSUPA Training
Commitment | 2 Days, 7-8 hours a day. |
Language | English |
User Ratings | Average User Rating 4.8 See what learners said |
Price | REQUEST |
Delivery Options | Instructor-Led Onsite, Online, and Classroom Live |
COURSE OVERVIEW
High-Speed Uplink Packet Access (HSUPA), a technology that complements High-Speed Downlink Packet Access (HSDPA), is an evolutionary step that makes the uplink of WCDMA packet-based for data services. Together, HSDPA and HSUPA offer reduced latency and much higher data rates on the downlink and uplink, theoretically as high as 14.0 Mbps in the downlink and up to 5.8 Mbps in the uplink. They are expected to help usher in a mass market for mobile IP multimedia services.
In this HSUPA Training course, you will undertake a comprehensive review of the layer 1 and layer 2 protocol functionality introduced in the UTRAN to support HSUPA, also known as Enhanced DCH or E-DCH. We will pay particular attention to the new Medium Access Control protocol entities, namely MAC-hs, MAC-e, and MAC-es. We will study in depth the functionality and coding of the new transport and physical channels, e.g. E-DCH, E-AGCH, and E-HICH. We will discuss how HSUPA impacts the UTRAN architecture as well as the key considerations involved in the planning of HSUPA networks. We will conclude the course with a look at the future of HSUPA and WCDMA.
WHAT'S INCLUDED?
- 2 days of HSUPA Training with an expert instructor
- HSUPA Electronic Course Guide
- Certificate of Completion
- 100% Satisfaction Guarantee
RESOURCES
- HSUPA Training– https://www.wiley.com/
- HSUPA Training – https://www.packtpub.com/
- HSUPA – https://store.logicaloperations.com/
- HSUPA – https://us.artechhouse.com/
- HSUPA Training – https://www.amazon.com/
RELATED COURSES
ADDITIONAL INFORMATION
CUSTOMIZE IT
Customize this HSUPA Training course to your specific needs at little-to-no additional cost. We offer distinct versions tailored for:
- Network design and optimization engineers
- Equipment or application designers
- Less technical audiences such as managers, executives, business planners, sales and marketing specialists, and operations and support personnel.
Combination courses that provide an integrated treatment of related topics are also available. These include composites such as:
- HSDPA and HSUPA
- UMTS-FDD, HSDPA, and HSUPA
- EVDO, HSDPA, HSUPA
If you can benefit from such a combined class, ask us about our ‘combo discount’.
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COURSE OBJECTIVES
Upon completing this HSUPA Training course, learners will be able to meet these objectives:
AUDIENCE/TARGET GROUP
The target audience for this HSUPA Training course:
- Those experienced with HSDPA who wish to learn more about HSUPA. The standard presentation of this course assumes a bachelor of science in Electrical Engineering, Mathematics, Physics, or a related subject along with an appropriate background in communications engineering.
CLASS PREREQUISITES
The knowledge and skills that a learner must have before attending this HSUPA Training course are:
COURSE SYLLABUS
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
HSUPA Training – MAC Layer Operation
- HSUPA user plane
- HSUPA UE MAC
- HSUPA UTRAN MAC
- Overall HSUPA MAC architecture
- HSUPA advanced scheduling
HSUPA Training – 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