WiMAX (IEEE 802.16) : Wireless Broadband Networks 1.

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Presentation transcript:

WiMAX (IEEE ) : Wireless Broadband Networks 1

行動通信標準演進 2

Evolution of Wireless Access Technologies n (smart antennas) Mesh extns. Local Area Fixed Wide Area Mobile Coverage/Mobility Metro Area Nomadic (Fixed LOS) a/d (Fixed NLOS) b/a/g Mobile Industry Fixed Wireless Industry 4G Air Interfaces Data Rates (kbps) 100, GPP2 CDMA X HRPDA 1x EVDO 1x EVDV Rel. C 1x EVDV Rel. D GSM UMTS HSPA GPRSEDGE LTE 3GPP MOBILE BROADBAND DSL Experience Dial Up Higher Data Rate / Lower Cost per Bit e (Mobile WIMAX)

WiMAX vs 3GPP 發展時程 4

Operator’s Service Stack 5 IMS Layer Application services Mobility, Policy and Administration Services EPC Core network Access technologies connection gateways Access Technologies WiMAXLTE DSLAM WiFi Devices

WiMAX Market Position 6 Mobile (GSM / GPRS / 3G /HSPA /LTE) Mobile (GSM / GPRS / 3G /HSPA /LTE) xDSL / FTTx

現有無線接取技術比較 7 Technical Winner Market Winner = ?

8 WiMAX 市場現況

9 Source : Ovum 2008/12 Population penetration of mobile, fixed and broadband across Asia-Pacific

WiMAX Markets in Developed Country 10 Fix and Nomadic broadband access  Broadband Penetration > 50%  Broadband Infrastructure is Developed  vs. xDSL / FTTx No Significant Technical advantage except Nomadic Incumbent Operator cost advantage  High Initial CAPX needed Mobile (Voice & Data)  Mobile Voice Penetration : Saturation  Mobile Data Penetration : 20% ~80 %  vs. 3G / HSPA Narrow advantage in Bandwidth Great Disadvantage in Eco-System No Significant advantage in Cost & Price  High Initial CAPX needed Niche Market  Rural : Low ARPU  Bundle Service Triple play Killer Application ? WiMAX is Still Looking for Business Model

WiMAX Markets in Emerging Country 11 Fix and Nomadic broadband access  Broadband Penetration < 5%  Broadband Infrastructure is Low  vs. xDSL / FTTx Significant CAPX advantage Significant Deploying time advantage  Demand Growing Mobile (Voice & Data)  Mobile Voice Penetration : Growing rapidly (prepaid dominated)  Mobile Data Penetration : < 5%  vs. 3G / HSPA Narrow advantage in Bandwidth Great Disadvantage in Eco-System No Significant advantage in Cost & Price WiMAX Opportunity ?

Markets in Emerging Country 12 越南,胡志明市 具備 WiMAX 市場機會但卻選擇 3GPP 陣營

台灣 WiMAX 產業鏈 13

主要 WiMAX Vendors 市佔率 14 Source : 工研院 IEK 2010/3

15 TOP5 WiMAX Vendors Strategy Source: Ovum 2009/9

Looking into WiMAX from Operator’s point of view WiMAX Market  In Developed Country  In Emerging Country  Top5 Vendors Strategy An Industry War 16

An Industry War 17

3GPP 是市場主流 18

19 IEEE std

20 Standard Roadmap IEEE IEEE a/b/c  Amendments to IEEE  Compatibility issue with HIPERMAN of ETSI  d project  Replace previous standards  Fixed site access IEEE e, 16f (amendment)  Extend to mobility  MIB IEEE g-2007(amendment)  Management Plane Procedures and Services IEEE j – 2008

21 Features Broad Bandwidth  Up to 134.4Mbit/s  Transit over 50KM Typical Architecture  1 BS + n SSs  PMP or MESH Spectrums  From 2 to 66 GHz  NLOS and LOS Duplexing Techniques  TDD or FDD WiMAX Forum  Conformance and Interoperability

22 Scope of Standard PHY SAP MAC SAP CS SAP Service-Specific Convergence Sublayer ( MAC CS ) Common Part Sublayer ( MAC CPS ) Security Sublayer ( MAC SS ) Physical Layer (PHY) MAC PHY Scheduliing Services QoS Parameters Bandwidth Allocation

23 TDMA/OFDM/OFDMA

24 IEEE j-2008 One MR-BS (Multi-hop Relay - Base Station) and many RS (Relay Station) Transparent mode  Only data are relayed via RS  Remove obstruction Non-Transparent mode  Expand service coverage  Both signaling and data are relayed via RS  Increase utilization/throughput

IEEE j WiMAX 25

IEEE j Configuration 26

Transparent RS 27

Non-Transparent RS 28

IEEE j Multi-hopTopology 29

30 IEEE j Independent Scheduling Zones

31 OFDMA Symbol and Transparent RS Frame

32 OFDMA Symbol and Non-Transparent RS Frame

33 Bandwidth Request: Store-and-Forward Mode

34 Bandwidth Request: End-to-End Mode

Centralized vs Distributed Scheduling Centralized Scheduling  For small size of networks  Only BS to do bandwidth allocations Distributed Scheduling  For networks with hops greater than 2  Both RS and BS do bandwidth allocations 35

36 Centralized Scheduling

37 Distributed Scheduling

38 Modules for Distributed Scheduling in BS/RS

39 Classification & Addressing SSBS Uplink Downlink SFID SFID : Service Flow Identifier (32 bits) CID : Connection Identifier (16 bits)

40 Scheduling Services Priority ServiceType e-2005 ServiceType Typical Appcations 1stUGS T1/E1 transport VoIP without silence suppression 2ndertPSERT-VR VoIP with silence suppression 3rdrtPSRT-VR MPEG Video 4thnrtPSNRT-VR FTP with guaranteed minimum throughput 5thBE HTTP

41 QoS ParamSet UGS : Maximum Sustained Traffic Rate Minimum Reserved Traffic Rate Maximum Latency Tolerated Jitter Uplink Grant Scheduling Type Request/Transmission Policy ERT-VR : Maximum Sustained Traffic Rate Minimum Reserved Traffic Rate Maximum Latency Uplink Grant Scheduling Type Request/Transmission Policy RT-VR : Maximum Sustained Traffic Rate Minimum Reserved Traffic Rate Maximum Latency Uplink Grant Scheduling Type Request/Transmission Policy NRT-VR : Maximum Sustained Traffic Rate Minimum Reserved Traffic Rate Traffic Priority Uplink Grant Scheduling Type Request/Transmission Policy BE : Maximum Sustained Traffic Rate Traffic Priority Request/Transmission Policy QoS ParamSet

42 Bandwidth Allocation Uplink Packet Scheduler ( Frame Maker) CIDs & QoS-ParamSets INPUTOUTPUT UL-MAP UL-MAP :Uplink Map

43 Summary of MAC and the undefined part of IEEE INPUT OUTPUT

44 Modulations & Channel Size Access Range: QPSK > QAM16 > QAM 64 Data Rate: QAM64 > QAM16 > QPSK US European Uplink Mandarory Downlink Mandarory

45 Frame Durations with TDD Frame Structure 0.5/1/2 ms

46 Number of PS in 16-QAM Frame duration = 1ms Signal (Baud) rate = 16 Mbauds/sec Data bit rate = 64 Mbps  4 bits in a signal (baud) using 16-QAM Number of PS  (64 Mbps x 1 ms) / 16 bits = 4000  Assume every PS = 16 bits