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W-CDMA Air Interface Fundamentals

Prepared By: Rupy Sikka

E-mail: Rsikka@lucent.com

Ph: +1 (630) 2240 192

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OBJECTIVES

• Describe the requirements and drivers behinds the W-CDMA Air Interface.

• List the layers UMTS radio Air Interface protocol stack and the responsibility of each layer

• UMTS Channel Types and their purpose• Gain understanding of UMTS Modes: FDD and TDD• Protection in UMTS:Describe the forward error correction

employed by UMTS Air interface• Channelizations in UMTS• Source Identification: Scrambling codes/Gold Codes

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W-CDMA OVERVIEW-ARCHITECTURE

RNC

Iub Iub

RNS

Uu Uu

Node B Node B

Iu-CS

3G-MSC SGSN

Iu-PS

GGSN PDN/InternetPSTN

Core Network

UTRAN

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WCDMA OVERVIEW-UTRAN FUNCTIONS

• UTRAN Functions:– Overall System Access Control

– Security and Privacy

– Handover

– Radio Resource Management and Control

• RNC Functions:

– Intra UTRAN Handover

– Frame Synchronization

– Radio Resource Management: Radio Bearer Control

– Outer Loop Power Control

– Radio Resource Allocation

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UTRAN FUNCTIONS

• Node B

– Termination of Iub Interface from RNC

– Conduct Radio Environment Survey (BER estimate, Rx signal strength etc..)

– Inner Loop Power Control

– Open loop power control

– Radio Channel Coding/decoding

– Mapping of coded composite transport channels on physical channel

– modulation and spreading/dispreading of physical channels

– Frequency and time Synchronization

– Error detection on transport channels and indication to higher layers

– Termination of Uu interface from the UE etc..

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3G SERVICES

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3G CHARACTERISTICS - Asymmetric

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3G CHARACTERISTICS– Concurrent Services

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3G CHARACTERISTICS – ALWAYS “ON”

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W-CDMA INTERFACE

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SPECTRUM FOR UMTS

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UMTS MODES

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UMTS RADIO PROTOCOL STACK

Layer-1

Layer-2L

Layer-2U

Layer-3

OSI

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RADIO PROTOCOL STACK FUNCTIONS

• Physical Layer Functions (Layer-1)– Forward error correction, coding,interleaving– Measurements– Soft handover execution– Multiplexing/mapping of services on dedicated physical code channels– Modulation, spreading, demodulation, dispreading of physical channels– Frequency and time synchronization– Fast closed-loop power control– RF processing

• MAC Layer Function (Layer-2L)– Selection of appropriate transport format– Service multiplexing on RACH, FACH and dedicated channels– Scheduling– Access resolution on RACH– Contention resolution on RACH etc..

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RADIO PROTOCOL STACK FUNCTIONS

• RLC Functions (Layer-2U):– Segmentation and assembly– Transfer of user data– Error correction through retransmission optimized for physical layer– Sequence integrity– Flow control

• PDCP Function (Layer-2U)– Service specific. Exists only in the User Plane and only for services from PS

domain. Contains compression methods needed for better spectral efficiency

• RRC Functions:– Broadcast of system information– Radio Resource handling– Control of requested QOS – UE measurements reporting and control of the reporting

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W-CDMA Channel Architecture

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OBJECTIVE

• UMTS W-CDMA Channels Structure

• Map channels to radio interface protocol stack

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CHANNELS OVERVIEW

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Gift ANALOGY

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Channel Overview Cont…

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UMTS RADIO INTERFACE CHANNELS

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LOGICAL CHANNELS

Traffic Channels - Dedicated Traffic Channel (DTCH)- Common Traffic Channel (CTCH)

Control Channels - Dedicated Control Channel (DCCH)- Common Control Channel (CCCH)- Broadcast Control Channel (BCCH)- Paging Control Channel (PCCH)

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TRANSPORT CHANNELS

Dedicated Channels - Dedicated Channel (DCH)

Common Channels - Random Access Channel (RACH) - Forward Access Channel (FACH) - Broadcast Channel (BCH) - Paging Channel (PCH)

- Common Packet Channel (CPCH) - Downlink Shared Channel (DSCH)

(CPCH & DSCH are optional channels and

are not supported in Lucent’s initial release)

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PHYSICAL CHANNELS

• Uplink– Dedicated Channels

• Dedicated Physical Data Channel (DPDCH)• Dedicated Physical Control Channel (DPCCH)

– Common Channels• Physical Random Access Channel (PRACH)• Physical Common Packet Channel (PCPCH)

• Downlink– Dedicated Channel

• Dedicated Physical Channel (DPCH)– Common Channels

• Common Pilot Channel (CPICH)• Primary Common Control Physical Channel (P-CCPCH)• Secondary Common Control Physical Channel(S-CCPCH)• Synchronization Channel (SCH)• Physical Downlink Shared Channel (PDSCH)• Acquisition Indication Channel (AICH)• Page Indication Channel (PICH)

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UMTS RADIO CHANNEL MAPPING

BCCH

PCCH

CCCH

DCCH

DTCH

CTCH

BCH

CPCH

DSCH

DCH

RACH

FACH

PCH

P-CCPCH

S-CCPCH

P-CPICH

PRACH

DPDCH

DPCCH

PDSCH

PICH

P-SCH

S-SCH

AICH

S-CPICH

PCPCH

Logical Channels Transport Channels Physical Channels

DPCHKey: Uplink

Downlink

Bidirectional

Data Transfer

Association

Control Ch

Traffic Ch

Common Ch (no FPC)

Common Ch (FPC)

Dedicated Ch (FPC)

Info Channels

Assoc Channels

Fixed Channels

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W-CDMA PHYSICAL LAYER PROCESSING

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W-CDMA PHYSICAL LAYER PROCESSING

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W-CDMA PHYSICAL LAYER PROCESSING

• Protecting Data/User Information:– Forward error correction mechanism are applied to allow adding information to the

data streams enabling receiver to correct the errors during decoding process.– Achieved by digital coding techniques such as:

• Convolution coding: – Can use ½ or 1/3 rating coders. – Used for services 19.2Kbps or less e.g. Voice

• Turbo Coding: – Uses two convolution coder working in parallel.– Turbo coder defined as 1/3 rate. – Additional processing relative to convolution coder.– Added delay due to additional processing makes it perfect for non real-time

services such as WEB browsing. – Used for services data rate 19.2Kbps or higher.

• Interleaving:– Reorder original coded data streams to help error correction

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W-CDMA PHYSICAL LAYER PROCESSING

• Channel Separation– Uses OVSF codes

– OVSF is applied to achieve 3.84Mcps fixed channel rate

• Source Identification– Scrambling codes are used for

Node-B and UE identification

– The set of scrambling codes are known as Gold codes

– 2-24 Gold codes for UL (UE)

– 512 are assigned for DL(Node-B)