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Tuesday, 29 April 2008

HSPA+ in Release-7 and Release-8

Thought of adding this while I am in mode of making lists. So whats in HSPA evolution in Rel-7 and Rel-8. Lot of people are unaware that HSPA+ was big enough to finish off in Rel-7 and was definite to spill over in Rel-8

HSPA+ Features in Release 7

  • Higher Order Modulation Schemes

    • Advantages and weaknesses of higher order modulation
      - Interference Sensitivity
      - QPSK
      - 16-QAM, 64-QAM)
      - Consequences
      - Behavior in Time Variant Mobile Radio Channels
      - Behavior of a time variant mobile radio channel
      - Effect of amplitude variations
      - Effect of phase variations

    • 16-QAM for the S-CCPCH (DL)
      - MBSFN only
      - Interleaving
      - Modulation
      - Scaling factors

    • 64-QAM for the HS-PDSCH (DL)
      - Interleaving
      - Constellation Rearrangement
      - Modulation
      - Related UE Categories

    • 16-QAM for UL (4-PAM for the E-DPDCH)
      - HARQ Rate Matching Stage
      - Interleaver
      - Modulator
      - UE category

    • Overview Advantages and Disadvantages
      - Higher peak data rate
      - Better resource utilization
      - Blind choice of modulation scheme
      - High SNIR requirement
      - More TX power requirement
      - Low range
      - Small cell environment
      - Restrictions of use for high UE moving speeds

    • Channel Estimation Algorithms
      - Normal Algorithm
      - Gathering pilot information
      - Channel estimation
      - Data detection
      - Advantage
      - Disadvantage
      - Advanced Algorithms
      - Shorter channel estimation window
      - Moving channel estimation window
      - Adaptive detection
      - Turbo detection
      - Advantages
      - Disadvantages

    • Performance16-QAM in the UL
      - Performance on Link Level 16-QAM in the UL
      - Performance of BPSK compared to 4-PAM
      - Influence of non-linearity of the power amplifier
      - Performance on System Level
      - Behavior with increasing load
      - Maximum versus average throughput

    • Higher Order Modulation Testing
      - Test Setup for 16-QAM in the UL
      - RF components
      - Discussion of the setup
      - Selected Performance Requirements for 16-QAM in the UL
      - BPSK vs. 4-PAM
      - Effect of RX diversity
      - Effect of high degree of multipath
      - Effect of high UE moving speed

  • MIMO

    • Introduction to MIMO Technology
      - The Basics: Signal Fading Physics between TX and RX
      - Scattering
      - Refraction
      - Reflection
      - Diffraction
      - Multiplexing Dimensions
      - The Multipath Dimension
      - MIMO General Operation

    • MIMO Feedback Procedure (PCI)
      - Motivation of Spatial Precoding
      - Plain MIMO
      - Multiple rank beamforming
      - Spatial Precoding
      - Codebook, PCI and CQI Loop
      - Codebook
      - PCI and CQI loop

    • MIMO Algorithms
      - Linear MIMO Algorithms (Preparation work, Equalizer at the end of the processing chain,
      - Equalizer at the beginning of the processing chain), Non-Linear MIMO Algorithms

    • MIMO Performance
      - MIMO Performance on Link Level (SISO vs. SIMO, SIMO vs. MIMO, 2x2 MIMO vs. 4x2
      - MIMO, 16-QAM vs. 64-QAM), Performance on System Level (MIMO vs. SIMO, 50% vs.
      - 75% power allocation, 0% vs. 4% feedback errors)

    • MIMO Tests
      - Official Test Setups (Test NodeB, Fading simulator, Noise generator, UE under test, Single stream test setup, Double stream test setup), Quick and Easy Test Setups (The
      easiest test setup, A more reliable test setup: The MIMO circle), Selected Performance
      - Requirement Figures (Conditions, 64-QAM performance, Dual stream MIMO
      performance, Single stream MIMO performance)

  • Continuous Packet Connectivity (CPC)

    • Basic features
      - Uplink Discontinuous Transmission (DTX), Downlink Discontinuous Reception (DRX)

    • RRC message ID’s
      - DTX and DRX Information

    • CPC Timing
      - Uplink CQI transmission

    • Example for Uplink DPCCH Burst Pattern for 10 ms E-DCH TTI
      - Uplink DRX, Downlink DRX

    • Uplink DPCCH preamble and postamble
      - Uplink DPCCH preamble and postamble for the DPCCH only transmission, Uplink DPCCH preamble and postamble for the E-DCH transmission, Uplink DPCCH preamble and postamble for the HS-DPCCH transmission

    • Example of simultaneous Uplink DTX and Downlink DRX

    • CPC and Enhanced F-DPCH
      - Timing Implications for CPC + Enhanced F-DPCCH

  • Upgraded L1 Signaling

    • HS-SCCH Review of Rel. 5 and 6
      - HS-SCCH Frame Structure, HS-SCCH Part 1 and 2 Forward Error Coding Chain, UE
      specific masking of Part 1 and Part 2, HS-PDSCH Code Allocation through Part1 of HSSCCH,
      - Transport Block Size Determination – TFRI Mapping

    • HS-SCCH of Rel. 7
      - HS-SCCH Overview of Rel. 7 (HS-SCCH type 1, No HS-SCCH, HS-SCCH type 2, HSSCCH
      type 3), HS-SCCH Type 1 (HS-SCCH Type 1, HS-SCCH Type 1 for Configured 64-QAM Operation, HS-SCCH Orders, 64-QAM Constellation Versions), HS-SCCH Type 2 (for HS-SCCH less operation) (Use of the HS-SCCH-less operation, Procedure HSSCCH-less operation), HS-SCCH Type 3 (HS-SCCH Type 3 Overview, Modulation and
      Transport Block Number , HARQ Process Number, Redundancy Version and
      Constellation Version)

    • HS-DPCCH of Rel. 7
      - HS-DPCCH ACK/NACK (ACK-NACK of primary TB in R5, Preamble and postamble in
      R6, ACK-NACK of 2 TB’s in R7), HS-DPCCH PCI and CQI type A and B (CQI in case of
      no MIMO operation, PCI and CQI in case of MIMO with 1 TB (CQI type A), PCI and CQI
      in case of MIMO with 2 TB’s (CQI type B))

    • E-AGCH and E-DPCCH
      - Changes in the E-TFCI tables, Changes in the AG tables, Changes in the SG tables

  • MAC-ehs Entity versus MAC-hs

    • UTRAN side MAC-hs Details – CELL_DCH only
      - Flow Control, Scheduling/Priority Handling, HARQ, TFRC selection

    • UE side MAC-hs Details – CELL_DCH only
      - HARQ, Reordering Queue distribution, Reordering, Disassembly

    • UTRAN side MAC-ehs Details
      - Some advantages of MAC-ehs compared to MAC-hs , Flow Control, HARQ, TFRC
      selection (~ TFRI), LCH-ID mux, Segmentation

    • UE side MAC-ehs Details
      - HARQ , Disassembly, Reordering queue distribution, Reordering, Reassembly, LCH-ID demultiplexing

    • Differences in the MAC-ehs and MAC-hs Header
      - MAC-hs Header Parameter Description
      - MAC-hs SDU , , MAC-hs Header of MAC-hs PDU), MAC-ehs Header Parameter Description
      - MAC-ehs Header Parameter Details
      - HARQ Process Work Flow in UE – MAC-hs / MAC-ehs
      - Split HS-DSCH Block Functionality
      - Practical Exercise: MAC-hs contra MAC-ehs
      - MAC-hs / MAC-ehs Stall Avoidance
      - Timer-Based Scheme
      - Window Bases Scheme
      - MAC-(e)hs Reordering Functionality – Timer / Window based

  • Flexible RLC PDU Sizes

    • The RLC AMD PDU – Rel. 7 Enhancements
      - The Poll (POLL) super-field
      - RLC AMD Header Fields
      - Release 7 Enhancement of the HE-Field and LI

    • Comparison of RLC-AM between Rel. 6 and Rel. 7
      - RLC-AM Overhead using fixed or flexible PDU size
      · RRC State Operation Enhancements

    • Transport Channel Type Switching with HSPA in R6
      - Transport Channel Combinations between UL and DL, Radio Bearer Multiplexing Options in Rel. 6

    • Operation of UTRA RRC States in Release 7
      - UE Idle mode, CELL_DCH state

    • HS-DSCH Reception in CELL_FACH and XXX_PCH
      - Overview (UE dedicated paging in CELL_DCH, CELL_FACH and CELL_PCH, BCCH
      reception in CELL_FACH, FACH measurement occasion calculation, Measurement
      reporting procedure), (1) Operation in the CELL_FACH state (DCCH / DTCH reception in
      CELL_FACH state , User data on HS-DSCH in Enhanced CELL_FACH state), (2) Operation in the CELL_FACH state – Cell Update, (3) RRC Idle to transient CELL_FACH
      (Common H-RNTI selection in CELL_FACH (FDD only), H-RNTI selection when entering
      Connected mode (FDD only) ), Operation in the URA_PCH or CELL_PCH state (Data
      Transfer in CELL_PCH with dH-RNTI, State Transision from CELL_PCH to CELL_FACH
      to CELL_DCH, CELL_PCH and URA_PCH enhanced Paging Procedure)

HSPA+ Features in Release 8

  • Overview of HSPA+ Related Work Items in R8

    • Requirements for two branch IC

    • CS voice over HSPA

    • Performance req. for 15 HSDPA codes

    • MIMO + 64-QAM

    • Enhanced DRX

    • Improved L2 for UL

    • Enhanced UL for CELL_FACH

    • R3 Enhancements for HSPA

    • Enhanced SRNS relocation

  • MIMO combined with 64-QAM

    • New UE Categories
      - Data Rate, Soft IR memory

    • L1 Signaling of MIMO and 64-QAM
      - Modulation Schemes and TB Sizes (Signaling on the HS-SCCH type 3, Dilemma to signal
      on the modulation schema and TB number field, Solution), CQI Signaling, CQI Tables
      used


Interested readers can refer to Alcatel-Lucent presentation in HSPA+ Summit here.

There is also an interesting Qualcomm paper titled, "Release 7 HSPA+ For Mobile Broadband Evolution" available here.

2 comments:

  1. There's a link a t the 3GPP website http://www.3gamericas.org/index.cfm?fuseaction=page&sectionid=234

    And has a paper titled: Overview of Rel-6 and Rel-7 features

    however the link is broken. Wonder if anyone may know if there's another link to that paper?

    ReplyDelete
  2. hey..i was wondering if any one could tell me if the required HS-PDCH codes is higher than the available ones,how can we change the TBS accordingly?!

    ReplyDelete