IEEE MAC and PHY Specifications for Broadband WMAN

Transcription

1 IEEE MAC and PHY Specifications for Broadband WMAN 國立中興大學資工系曾學文 Tel : (04) ext hstseng@nchu.edu.tw NCHU CSE WMAN - 1

2 Resources Part Source : Roger B. Marks, National Institute of Standards and Technology Boulder, Colorado, USA Chair, IEEE Working Group NCHU CSE WMAN - 2

3 Broadband Access to Buildings Wireless Metro Ethernet Wireless Ethernet First/Last mile access Fast local connection to network» 30%-40% Radio/TV pervasion» 5% internet access Target Applications (similar as DSL and CableModem)» Data» Voice / Audio» Video distribution» Real-time videoconferencing High-capacity cable/fiber to every user is expensive Network operators demand it Business and residential customers demand it NCHU CSE WMAN - 3

4 Mobility Comparisons of Wireless Standards Mobile (Vehicular) Pedestrian (Nomadic) Fixed (Stationary) WWAN 2G/2.5G (IMT-2000) Cellular cdma2000 1xEV-DO, cdma2000 1xEV-DV WCDMA HSDPA (Bluetooth) e a (WiMAX) (WLAN) Bandwidth Assumptions 2G/2.5G 1xEV-DO, 1xEVDV, HSDPA Bluetooth UWB a (UWB) Bandwidth (MHz) <= x 1 MHz > Peak Data Rate per User (Mbits/second) Commercial Proposed Source: International Telecommunications Union and WiMAX Forum NCHU CSE WMAN - 4

5 Current Status More Than 350 Operator Trials and Deployments in 65+ countries! List of operators Source: Intel, the WiMAX Forum NCHU CSE WMAN - 5

6 4G (beyond 3G) / IMT Advanced 4G, a term used to describe the next complete evolution in wireless communications, is being developed to accommodate the quality of service (QoS) and rate requirements set by forthcoming applications for "anytime-anywhere". The 4G working group has defined the following as objectives of the 4G wireless communication standard: A nominal data rate of 100 Mbit/s while the client physically moves at high speeds relative to the station, and 1 Gbit/s while client and station are in relatively fixed positions Smooth handoff across heterogeneous networks Seamless connectivity and global roaming across multiple networks High quality of service for next generation multimedia support (real time audio, high speed data, HDTV video content, mobile TV, etc) An all IP, packet switched network. NCHU CSE WMAN - 6

7 Wireless Broadband Evolution to 4G NCHU CSE WMAN - 7

8 Pre-4G Standard Family Radio Tech Downlink (Mbps) Uplink (Mbps) Notes WiBro WiBro OFDMA Mobile range (900 m) e WiMAX MIMO-SOFDMA Quoted speeds only achievable at very short ranges, more practically 10 Mbit/s at 10 km. HIPERMAN HIPERMAN OFDM Flash-OFDM Flash-OFDM Flash-OFDM Mobile range 18miles (30km) extended range 34 miles (55km); mobility up to 200mph (350km/h) iburst iburst HC- SDMA/TDD/MIMO km UMTS W-CDMA HSDPA+HSUPA UMTS/3GSM CDMA/FDD HSDPA widely deployed. Typical downlink rates today 1 2 Mbit/s, ~200 kbit/s uplink; HSPA+ downlink up to Source: Wikipedia NCHU CSE WMAN - 8

9 HSPA (High speed packet access) HSPA+ boosts peak data rates to 42 Mbps on the downlink and 22 Mbps on the uplink Use MIMO and higher order modulation HSDPA (D = downlink) 14.4 Mbps in downlink 174 commercial networks in 76 countries Can be achieved by software upgrade of existing 3G networks HSUPA (U = uplink) 5.76 Mbps in uplink NCHU CSE WMAN - 9

10 LTE (Long term evolution) Third Generation Partnership Project (3GPP) Release 8 Standards in progress (expected 2009) a project within the 3GPP to improve the UMTS mobile phone standard Air interface is a completely new systems based on OFDMA in the downlink and Singlecarrier-FDMA (SC-FDMA has low PAPR) in the uplink that efficiently supports multi-antenna techologies (MIMO). NCHU CSE WMAN - 10

11 Wireless Metropolitan Area Network Relay NCHU CSE WMAN - 11

12 Application NCHU CSE WMAN - 12

13 Fixed WMAN + Mobile WMAN Source : WiMAX Forum NCHU CSE WMAN - 13

14 WiMAX + Wi-Fi for Mobile Internet Outdoors Rural WiMAX Tower Work Hot Spot WiMAX Tower Auto Travel Home WiMAX WiFi Wi-Fi -> best solution for local area connectivity With up to 450 Mbps throughput, MIMO-enabled n enables new local area applications Wi-Fi hotspots easy to find in most places Mobile WiMAX -> metropolitan-wide broadband coverage Offers service providers 3x the latest HSPA (3G) capacity today* Potential to scale to over 20x the capacity of today s HSPA via more antennas over time** NCHU CSE WMAN - 14

15 Network Usage Model Source : WiMAX Forum NCHU CSE WMAN - 15

16 Features (1/2) Broad bandwidth Up to Mbit/s in 28 MHz channel (in 2-66 GHz)» 32Mb/s Mb/s (>=20MHz per channel)» 1.25/2.5/5/10/14/20/25/28MHz per channel (3.5MHz/7MHz) Supports multiple services simultaneously with full QoS Efficiently transport IPv4, IPv6, ATM, Ethernet, etc. Wireless transportation system. Bandwidth on demand (frame by frame) Similar to HIPERLAN Type II (frame-based protocol) and DOCSIS Centralized control MAC designed for efficient used of spectrum Comprehensive, modern, and extensible security ()tensions to mobility are coming next. NCHU CSE WMAN - 16

17 Features (2/2) Supports multiple frequency allocations from 2-66 GHz in (10-66GHz), a (2-11GHz) and e (<6GHz) and 700MHz Single carrier (SC) for line-of-sight situations OFDM and OFDMA (MC) for non-line-of-sight situations» OFDM : orthogonal frequency division multiplexing» OFDMA : orthogonal frequency division multiple access OFDMA = 1.25 MHz, 2.5, 5, 10, 14 and 20 MHz channels Access schemes: TDD (time division duplex) and FDD (frequency division duplex) Link adaptation: Adaptive modulation and coding Point-to-multipoint (star) topology and mesh network extension Support for adaptive antennas and space-time coding (in a) Extensions to mobility. (IEEE e started from Jan and declared in 2005) NCHU CSE WMAN - 17

18 TDMA/OFDM/OFDMA NCHU CSE WMAN - 18

19 Point-to-Multipoint configuration Two components Subscriber Stations (SSs)» SS typically serves a building (business or residence) Base Station (BS)» connected to public networks» BS serves Subscriber Stations» provide SS with first-mile(or last mile) access to public networks Compared to a Wireless LAN Multimedia QoS Not only contention-based Connection-oriented Many more users Much higher data rates Much longer distances NCHU CSE WMAN - 19

20 Mesh Topology (defined in a) Dynamic topology Self-organizing network More complicated NCHU CSE WMAN - 20

21 Relay Topology (defined in j) Mobile Multihop Relay NCHU CSE WMAN - 21

22 Relay Topology (defined in j) NCHU CSE WMAN - 22

23 Adaptive modulation and coding Full featured Standard Source : WiMAX Forum NCHU CSE WMAN - 23

24 WiMAX Forum WiMAX (Worldwide Interoperability for Microwave Access) Like WECA in IEEE WLAN Mission: To promote deployment of BWA by using a global standard and certifying interoperability of products and technologies. Principles: Support IEEE x 2-66 GHz (16a : 2-11GHz, 16 : 10-66GHz and 16e <6GHz) Propose access profiles for the IEEE standard Guarantee known interoperability level Open for everyone to participate Developing & submitting baseline test specs NCHU CSE WMAN - 24

25 WiMAX Evolution j relay Source : Siemens, 2004 NCHU CSE WMAN - 25

26 IEEE vs. ETSI Frequent communications between WG and ETSI (European Telecom Standards Institute) ETSI HIPERACCESS Above 11 GHz (outdoor, 11-40GHz, 5Km, 25Mb/s) ETSI began first, but IEEE finished first has encouraged harmonization ETSI HIPERMAN Below 11 GHz (outdoor) IEEE began first Healthy cooperation Harmonized with a OFDM HIPERMAN ETSI HIPERLAN 5GHz (indoor/outdoor) 6-54Mb/s Irrelative with ETSI HIPERLINK 17GHz (150m, point- 2-point) 155Mb/s (OC3) Irrelative with NCHU CSE WMAN - 26

27 Standard History Membership 55 members 1999 IEEE Working Group Started c System Profiles for GHz LOS Systems (Inactive) Fixed Broadband Wireless Standard (Revised : Covers <11 GHz NLOS & GHz LOS Systems) Fixed Broadband Wireless Standard for GHz LOS Systems (Inactive) members a Fixed Broadband Wireless Standard for 2-11 GHz Non- LOS Systems (Inactive) 343 members e Combined Fixed and Mobile Amendment for <11 GHz Licensed Systems (Formally approved in December 2005) Source: Intel & WiMax Forum Time NCHU CSE WMAN - 27

28 IEEE Standard and amendments Fixed Broadband Wireless Access (FBWA) Systems Air Interface (MAC and PHY) Band 10-66GHz (ranges 1/2/3 : GHz/ GHz/ GHz) 25/28MHz per channel line-of-sight (LOS) requirement One PHY» WirelessMAN-SC (Single Sarrier) Point-to-Multipoint Topology (Star) TDD/FDD option with burst profile (depending on SNR) Completed in October 2001 Published in April 2002 Follow up interoperability projects c (Profiles): published in Jan (PICS)» PICS : Protocol Implementation Conformance Statement ( 10-66GHz Coexistence of FBWA Systems )» Focus on 23.5 to 43.5 GHz (local multipoint distribution service (LMDS), millimeter wave, etc.,) NCHU CSE WMAN - 29

29 IEEE a Standard Medium Access Control Modifications and Additional Physical Layer Specifications for 2 11 GHz Band 2-11GHz Non-line-of-sight (NLOS) requirement and Multi-path issue Near-LOS License-exempt band 5-6 GHz (802.11a and HIPERLAN II) Three PHYs» WirelessMAN-SC2 (single carrier)» WirelessMAN-OFDM (multiple carriers with 256-point transform) is mandatory for license exempt bands» WirelessMAN-OFDMA (multiple carriers with 2048-point transform) Multiple access is provided by addressing a subset of the multiple carriers to individual receivers Scalable : 128, 512, 1024 and 2048 Advanced Antenna Systems (AAS) (optional) Add mesh network topology (MAC) provide automatic repeat request (ARQ) retransmission (MAC) Completed in November 2002 and Approved April 2003 NCHU CSE WMAN - 30

30 IEEE a Standard license-exempt bands below 11 GHz The PHY and MAC introduce mechanisms such as dynamic frequency selection (DFS) to detect and avoid interference. NCHU CSE WMAN - 31

31 IEEE Standard IEEE Std Air Interface for Fixed Broadband Wireless Access Systems - IEEE d Approved 24 June 2004 This standard revises and consolidates IEEE Std , IEEE Std a -2003, and IEEE Std c IEEE Std f MIB IEEE Std i 16e-2005 MIB (baseline only) NCHU CSE WMAN - 32

32 IEEE e Amendment for Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands Focus on 2-6GHz (700MHz is considered now) MHZ per channel Enhance OFDMA PHY (w/ subchannelisation) Data rate 10Mhz/channel, OFDMA-64QAM provides 30Mbps Max. moving speed : 120km/h (vehicle) Range : several Kms Chip appear in 2006 vs. IEEE Below 3.5GHz Max. moving speed : 250Km/h (high-speed train) vs. 3G NCHU CSE WMAN - 33

33 Mobile WiMAX Release 2.0 Release 2.0 is based on the IEEE m System Requirements Document m Mirrors IMT-Advanced Requirements Key Performance Targets are:» Increased DL peak channel & user data rate» Increased UL peak channel & user data rate» 2x DL spectral efficiency of Release 1.0 (2.6 bps/hz)» 2x cell-edge DL user throughput of Release 1.0 (0.09 bps/hz)» 2x UL spectral efficiency of Release 1.0 (1.3 bps/hz)» 2x cell-edge UL user throughput of Release 1.0 (0.05 bps/hz)» Reduction of the connection setup, RAN delay, & handover interruption time» >60 concurrent sessions per MHz per sector for the AMR 12.2 kbps speech codec» Multi-Carrier support for contiguous or non-contiguous channels (up to 100 MHz operating BW with band aggregation)» Mobility support up to 500 km/hr Mobile WiMAX Rel 2.0 is backwards compatible with Rel 1.5 and Rel NCHU CSE WMAN - 34

34 Logical network reference model, control plane e-2005 NCMS IB and A interfaces : Transport protocol is not specified NCHU CSE WMAN - 36

35 Network Model MS Source : Intel IDF NCHU CSE WMAN - 37

36 MS Mode Transition Three Modes: Idle mode» allows an MS to become periodically available for DL broadcast traffic without registration at a specific BS» MS traverses an air link environment populated by multiple BSs» allows the MS to conserve power and operational resources (such as CID, SFID, periodic ranging )» Listen MOB_PAG-ADV with Paging Controller ID» May perform Idle Mode Location Update Process Normal mode (Active mode)» MS transmits and receives packets to/from a BS. Sleep mode» to minimize an MS power usage and decrease usage of serving BS air interface resources by pre-negotiated periods of absence from the serving BS air interface.» Listen MOB_TRF-IND Sleep Mode operation is defined between MS and BS only NCMS does not need to manage Sleep Mode of subscriber NCMS only manages MS in Normal Operation and Idle Mode NCHU CSE WMAN - 38

37 MS Mode Transition (BS view) Bluetooth Park mode Active mode Hold mode NCHU CSE WMAN - 39

38 MS Mode Transition (NCMS view) NCHU CSE WMAN - 40

39 Handover (HO) An mobile station (MS) migrates from the air-interface provided by one BS to the air interface provided by another BS Backbone network: Similar to Distribution System (DS) defined in WLAN connect BSs outside the scope of this standard Two HO variants: break-before-make HO: service with the target BS starts after a disconnection with the previous serving BS. make-before-break HO: service with the target BS starts before disconnecting to the previous serving BS. NCHU CSE WMAN - 41

40 Handover (HO) Two HO methods: Macro diversity handover (MDHO)» migrate to the air-interface provided by other one or more BSs.» diversity combining on uplink and downlink at MS/BSs Fast BS switching (FBSS)» fast switching mechanism to improve link quality» MS is only TX/RX data to/from one active BS (anchor BS) at any given frame.» The anchor BS can change from frame to frame depending on the BS selection scheme. Diversity set: contains a list of active BSs to the MS. is applicable to MDHO and FBSS. NCHU CSE WMAN - 42

41 BS Terms Defined in e Neighbor BS: whose downlink transmission can be received by MS Serving BS: MS has most recently completed registration at initial networkentry or during a handover (HO) Target BS: intends to be registered with at the end of a handover (HO) Active BS: is informed of the MS capabilities, security parameters, service flows and full MAC context information. For macro diversity handover (MDHO), the MS TX/RX data to/from all active BSs in the diversity set. All involving BSs during HO Anchor BS: The MS is registered, synchronized, performs ranging and monitors the downlink (DL) for control information. For FBSS supporting MS, this is the serving BS that is designated to transmit/receive data to/from the MS at a given frame Play the role of active BS, serving BS and Target BS. NCHU CSE WMAN - 43

42 ID Terms Defined in e Paging Controller ID (48-bit : MAC address of BS) is a logical network identifier For the serving BS or other network entity retaining MS service and operational information For administering paging activity for the MS while in Idle Mode Paging Controller ID = BSID when BS is Paging Controller Paging Group ID (16-bit : Cellular Network) One or more logical affiliation grouping of BSs Serving BSID (48-bit) (24 : operator ID) Used for Handover HOID (8-bit) Handover Transaction ID Service Level Prediction Index (2-bit) Predict capability of supporting service flows Power_Saving_Class (6-bit) Associate with sleep parameters Power Saving Class Type (2-bit) Associate with QoS bahavior SLPID (10-bit) Used for traffic indication (directed or bit-mapping) max MS in sleep mode in one BS NCHU CSE WMAN - 44

43 ID Terms Defined in e SPID (2-bit) Subpacket ID used in HARQ Temp BSID (3-bit) BS index in BS_NBR-ADV List Diversity Set Member ID Used for MDHO and FBSS Also used for fast Anchor BS selection feedback MBS_Zone ID NCHU CSE WMAN - 45

44 Resource Frequency Assignment frequency assignment (FA) index is used in combination with operator specific configuration information provided to the MS outside the scope of this standard frequency assignment (FA) a logical assignment of downlink DL center frequency and channel bandwidth programmed to the BS NCHU CSE WMAN - 46

45 Mobile WiMAX Roadmap Mobile WiMAX Release 2.0 Certification WiMAX Forum Certification Mobile WiMAX Release 1.5 Certification Mobile WiMAX Release 1 Certification (W1 & W2) Network Specifications WiMAX Network Release 1.0 WiMAX Network Release 1.5 WiMAX Network Release 2.0 Air Interface Profile Specifications WiMAX System Profile Release 1.0 (TDD) Wave 1 and Wave 2 WiMAX System Profile Release 1.5 (TDD & FDD) WiMAX System Profile Release 2.0 (TDD & FDD) WiMAX Forum MAC/PHY Standards In IEEE IEEE (802.16e Cor g) IEEE802.16REV2 IEEE802.16m IEEE NCHU CSE WMAN - 49

46 Worldwide License and License Exempt Band Note : 700MHz allocated for DTV broadcasting is now considered used by 16e WMAN NCHU CSE WMAN - 51