1 IEEE 802.16 Wireless MAN "Air Interface for Fixed Broadband Wireless Access Systems"

IEEE 802.16Wireless MAN

"Air Interface for Fixed Broadband Wireless Access Systems"

Outline

Introduction Physical Layer MAC Layer QoS

Introduction (1)

Goal: Provide high-speed Internett access to home and business subscribers, without wires.

Base stations (BS) can handle thousands of subscriber stations (SS)

Access control prevents collisions. Supports

Legacy voice systems Voice over IP TCP/IP Applications with different QoS requirements.

Introduction (2) 802.16 standards:

802.16.1 (10-66 GHz, line-of-sight, up to 134Mbit/s)

802.16.2 (minimizing interference between coexisting WMANs.)

802.16a (2-11 Ghz, Mesh, non-line-of- sigth)

802.16b (5-6 Ghz) 802.16c (detailed system profiles) P802.16e (Mobile Wireless MAN)

Will focus on 802.16.1

Introduction Physical Layer MAC Layer QoS

Physical layer (1)

”Burst single-carrier” modulation Allows use of directional antennas Allows use of two different duplexing

schemes: Frequency Division Duplexing (FDD) Time Division Duplexing (TDD)

Support for both full and half duplex stations

Time Division Duplexing (TDD)

Frequency Division Duplexing (FDD)

Figure 7.4, page 123

Physical layer (2) Adaptive Data Burst Profiles

Transmission parameters (e.g. modulation and FEC settings) can be modified on a frame-by-frame basis for each SS.

Profiles are identified by ”Interval Usage Code” (DIUC and UIUC)

Physical Layer (3) Using both

TDM (Time Division Multiplexing) and TDMA (Time Division Multiple Access)

What is the difference, you ask.. I have no idea, But each TDMA burst is preceded by a preamble

TDM TDMA

Introduction Physical Layer

MAC Layer QoS

Media Acces Control (MAC) Connection orienteded

Connection ID (CID), Service Flows(FS)

Channel access: UL-MAP

Defines uplink channel access Defines uplink data burst profiles

DL-MAP Defines downlink data burst profiles

UL-MAP and DL-MAP are both transmitted in the beginning of each downlink subframe (FDD and TDD).

TDD Downlink subframe

FDD burst framing

FDD Downlink subframe

Uplink subframe

Upplink periods Initial Maintenance opportunities

Ranging To determine network delay and to request power or

profile changes. Collisions may occur in this interval

Request opportunities SSs request bandwith in response to polling from BS. Collisions may occur in this interval aswell.

Data grants period SSs transmit data bursts in the intervals granted by

the BS. Transition gaps between data intervals for

synchronization purposes.

Bandwidth request and allocation (1)

SSs may request bw in 3 ways: Use the ”contention request opportunities”

interval upon being polled by the BS (multicast or broadcast poll).

Send a standalone MAC message called ”BW request” in an allready granted slot.

Piggyback a BW request message on a data packet.

Bandwidth request and allocation (2)

BS grants/allocates bandwidth in one of two modes:

Grant Per Subscriber Station (GPSS) Grant Per Connection (GPC)

Decision based on requested bw and QoS requirements vs available resources.

Grants are realized through the UL-MAP.

Unicast Polling

1. BS allocates space for the SS in the uplink subframe.

2. SS uses the allocated space to send a bw request.

3. BS allocates the requested space for the SS (if available).

4. SS uses allocated space to send data.

Poll(UL-MAP)

RequestAlloc(UL-MAP)

4 types of Scheduling Service Unsolicited Grant Service (UGS)

Real-time, periodic fixed size packets (e.g. T1 or VoIP) Restrictions on bw requests (Poll-Me bit) Slip Indicator (SI)

Real-Time Polling Service (rtPS) Real-time, periodic variable sizes packets (e.g MPEG) BS issues periodic unicast polls. Cannot use contention requests, but piggybacking is ok.

Non-Real-Time Polling Service (nrtPS) Variable sized packets with loose delay requirements (e.g.

FTP) BS issues unicast polls regularly (not necessarily periodic). Can also use contention requests and piggybacking.

Best Effort Service Never polled individually Can use contention requests and piggybacking

Scheduling types

Introduction Physical Layer MAC Layer

The QoS Object Model

Scheduling type

QoS mechanisms

Classification Mapping from MAC SDU fields (e.g destination IP

address or TOS field) to CID and SFID

Scheduling Downlink scheduling module

Simple, all queues in BS Uplink scheduling module

Queues are distributed among SSs. Queue states and QoS requirements are

obtained through BW requests. Algorithms not defined in standard

Summary of the 802.16 QoS architecture

Figure 7.13, Page 137

Keywords on the 802.16a extension

Mesh topology Line-of-sight not required 2-11 GHz ARQ support (Automatic repeat request)

More QoS signaling Dynamic Frequency Selection, to

avoid interference with WLAN.

1 IEEE 802.16 Wireless MAN "Air Interface for Fixed Broadband Wireless Access Systems"

Documents

Transcript of 1 IEEE 802.16 Wireless MAN "Air Interface for Fixed Broadband Wireless Access Systems"

IEEE 802.16 Working Group on Broadband Wireless Access ... · NAME OF WORKING GROUP: 802.16 Working Group on Broadband Wireless Access 7. NAME AND ADDRESS OF SUBMITTER Roger B. Marks

Project IEEE 802.16 Broadband Wireless Access Working Groupgrouper.ieee.org/groups/802/16/tg1/mac/contrib/802161mc...1 IEEE 802.16.1mc-00/09 2000-02-25 Project IEEE 802.16 Broadband

C80216m-08_218r1 ProjectIEEE 802.16 Broadband Wireless Access Working Group Title16m Resource Block Indexing Schemes Evaluation Date.

Wireless Communications: Assignment 1 (By Akshay … analog phones. American cellular networks ... are many proposed systems for mobile ... "IEEE 802.16 for Broadband Wireless Local

Broadband Wireless David Aeschbacher 4/6/2007 What is Broadband Wireless? 802.16 WiMAX Motorola Canopy 802.11 StarOS Summary of Current Solutions Obstacles.

Quality of Service Scheduling for 802.16 Broadband Wireless Access Systems

Broadband Wireless Access Focus Broadband Wireless …Broadband Wireless Access Focus Broadband Wireless Access Focus Amphenol LTW Broadband Wireless Access Market Spec Size Pin #

IEEE 802.16 Wireless MAN

C80216m-08_218r2 ProjectIEEE 802.16 Broadband Wireless Access Working Group Title16m Resource Block Indexing Schemes Evaluation Date.

Business Case Models for Fixed Broadband Wireless Access Based on Wimax Technology and the 802.16 Standard

The Evolution of IEEE 802.16 and Mobile WiMAXs3.amazonaws.com/sdieee/132-IEEE_VTS_SD_Marks.pdf– Wireless Personal Area Networks IEEE 802.11 ... – 802.20: “Mobile Broadband Wireless

802.16 – A Worldwide Broadband Mobile Internet Standardkambing.ui.ac.id/onnopurbo/library/library-ref-eng/ref-eng-3... · 802.16 – A Worldwide Broadband Mobile Internet Standard

Wireless Broadband with 802.16/WiMax: Current ... - IEEEewh.ieee.org/r5/central_texas/com_sp/presentations/april2005.pdf · Link Level Simulations • Link level simulations characterize

The IEEE 802.16 WirelessMAN Standard for …...1 The IEEE 802.16 WirelessMAN Standard for Broadband Wireless Metropolitan Area Networks ITU-APT Regional Seminar Busan, Republic of

IEEE 802.16 Air Interface for Fixed Broadband Wireless Access Systems

2000-03-30 IEEE 802.16.3c-00/00 Project IEEE 802.16 Broadband Wireless Access Working ... · 2000. 4. 3. · Project IEEE 802.16 Broadband Wireless Access Working Group Title Changes

IEEE 802.16 Working Group on Broadband Wireless Access (BWA)grouper.ieee.org/groups/802/16/docs/10/80216-10_0036r1.pdf · Welcome IEEE 802.16 Working Group on Broadband Wireless Access"

Future Wireless Broadband Networks: Challenges and Possibilities IEEE 802.16 Presentation Submission Template (Rev. 9) Document Number: IEEE C802.16-10/0009.

The IEEE 802.16 WirelessMAN Standard for Broadband ... · for Broadband Wireless Access, 2002.” Assumptions 802.16a MAN standard is adopted < $350 subscriber station LAN (Hot Spot)

IEEE 802.16/WiMAX Broadband Wireless Access · IEEE 802.16/WiMAX Broadband Wireless Access ... -Maintenance TG-Liaison: ITU-R WP8A, 8F, ... Will start mobile WiMAX trial and plan