Advanced HSDPA Training

Advanced HSDPA Training

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Advanced HSDPA Training Course by Example

This Advanced HSDPA Training course is an advanced tutorial designed to build on the foundations laid in out introductory HSDPA course or on the design/deployment knowledge already acquired in the field. In this Advanced HSDPA Training course, we will take a deeper look at frame structures, timing and synchronization of the network, technology enhancements, and the operation of such features as H-ARQ.

High Speed Downlink Packet Access (HSDPA) has been gaining popularity throughout the wireless operator community and deployments are ongoing worldwide. Operators who have deployed WCDMA/UMTS will be able to offer subscribers faster data rates, in the range of 1 to 5 Mbps, and with the introduction of Multiple Input Multiple Output (MIMO) technology, up to 20 Mbps access is possible. HSDPA includes Adaptive Modulation and Coding techniques, fast cell search, Hybrid ARQ (H-ARQ), and advanced receiver design.

Tailored Classes

Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff and site’s requirements.

Advanced HSDPA TrainingRelated Courses

Advanced HSDPA Training


Duration: 2 days


After completing this course, attendees will be able to:

Course Outline:

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
◾Timing relationships
◾Link adaptation
◾Soft combining
◾Frame size optimization

◾Explain MAC entities for different transport channels
◾HARQ protocols and information
◾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
◾Transport blocks
◾MAC layer functionality
◾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 Summary


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