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Wireless Communication and Networks

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Wireless Communication and Networks. Applications of Wireless Communication. Wireless Communication Technologies. Wireless Networking and Mobile IP. Wireless Local Area Networks. Student Presentations and Research Papers. Introductory Lecture. - PowerPoint PPT Presentation
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Applications of Wireless Communication Student Presentations and Research Papers Wireless Communication Technologies Wireless Networking and Mobile IP Wireless Local Area Networks Wireless Communication and Networks Introductory Lecture Introductory Lecture http://web.uettaxila.edu.pk/CMS/ AUT2012/teWCNms/
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Page 1: Wireless Communication and Networks

Applications of Wireless Communication

Student Presentations and Research Papers

Wireless Communication Technologies

Wireless Networking and Mobile IP

Wireless Local Area Networks

Wireless Communication and Networks

Introductory LectureIntroductory Lecturehttp://web.uettaxila.edu.pk/CMS/AUT2012/teWCNms/

Page 2: Wireless Communication and Networks

Outline

Course Basics Course Syllabus The Wireless Vision Technical Challenges Current Wireless Systems Emerging Wireless Systems Spectrum Regulation Standards

Page 3: Wireless Communication and Networks

Prof. Dr. Adeel Akram Dean, Faculty of Telecom & Information Engineering

Course material and announcements on course website http://web.uettaxila.edu.pk/cms/aut2012/teWCNms mailto: [email protected] SMS: 0323-5030-712

Student will have to do: Presentations by students on anything related to wireless

Literature survey, analysis, or simulation of existing research papers

Write own research papers on area of interest

Course Information

Page 4: Wireless Communication and Networks

Course Syllabus Overview of Wireless Communications

Networks Review of Physical Media issues Power issue Routing Algorithms Security Innovations in the field Advance Topics in Wireless Networking Review of Research papers and theses

Page 5: Wireless Communication and Networks

Is there a future for wireless?

Some history

Radio invented in the 1880s by Marconi Many sophisticated military radio

systems were developed during and after WW2 Cellular has enjoyed exponential growth since 1988, with almost 1 billion users worldwide today Ignited the recent wireless revolution Growth rate tapering off 3G (voice+data) roll-out disappointing Many spectacular failures recently 1G Wireless LANs/Iridium/Metricom

RIP

WirelessRevolution

1980-2003

Ancient Systems: Smoke Signals, Carrier Pigeons, …

Page 6: Wireless Communication and Networks

Glimmers of Hope

Internet and laptop use exploding2G/3G wireless LANs growing rapidlyLow rate data demand is highMilitary and security needs require

wirelessEmerging interdisciplinary

applications

Page 7: Wireless Communication and Networks

Future Wireless Networks

Wireless Internet accessNth generation CellularWireless Ad Hoc NetworksSensor Networks Wireless EntertainmentSmart Homes/SpacesAutomated HighwaysAll this and more…

Ubiquitous Communication Among People and Devices

•Hard Delay Constraints•Hard Energy Constraints

Page 8: Wireless Communication and Networks

Design Challenges

Wireless channels are a difficult and capacity-limited broadcast communications medium

Traffic patterns, user locations, and network conditions are constantly changing

Applications are heterogeneous with hard constraints that must be met by the network

Energy and delay constraints change design principles across all layers of the protocol stack

Page 9: Wireless Communication and Networks

Multimedia Requirements

Voice VideoData

Delay

Packet Loss

BER

Data Rate

Traffic

<100ms - <100ms

<1% 0 <1%

10-3 10-6 10-6

8-32 Kbps 1-100 Mbps 1-20 Mbps

Continuous Bursty Continuous

One-size-fits-all protocols and design do not work well

Wired networks use this approach, with poor results

Page 10: Wireless Communication and Networks

Wireless Performance Gap

WIDE AREA CIRCUIT SWITCHING

User Bit-Rate (kbps)

14.4digitalcellular

28.8 modem

ISDN

ATM

9.6 modem

2.4 modem2.4 cellular

32 kbps PCS

9.6 cellular

wired- wireless bit-rate "gap"

1970 200019901980YEAR

LOCAL AREA PACKET SWITCHING

User Bit-Rate (kbps)

Ethernet

FDDI

ATM100 M Ethernet

Polling

Packet Radio

1st genWLAN

2nd genWLAN

wired- wirelessbit-rate "gap"

1970 200019901980.01

.1

1

10

100

1000

10,000

100,000

YEAR

.01

.1

1

10

100

1000

10,000

100,000

Page 11: Wireless Communication and Networks

Evolution of Current Systems

Wireless systems today2G Cellular: ~30-70 Kbps.WLANs: ~10 Mbps.

Next Generation3G Cellular: ~300 Kbps.WLANs: ~70 Mbps.

Technology Enhancements Hardware: Better batteries. Better

circuits/processors.Link: Antennas, modulation, coding, adaptivity, DSP,

BW.Network: Dynamic resource allocation. Mobility

support.Application: Soft and adaptive QoS.

“Current Systems on Steroids”

Page 12: Wireless Communication and Networks

Future Generations

Rate

Mobility

2G

3G

4G802.11b WLAN

2G Cellular

Other Tradeoffs: Rate vs. Coverage Rate vs. Delay Rate vs. Cost Rate vs. Energy

Fundamental Design Breakthroughs Needed

Page 13: Wireless Communication and Networks

Crosslayer Design

Hardware

Link

Access

Network

Application

Delay ConstraintsRate Constraints

Energy Constraints

Adapt across design layersReduce uncertainty through scheduling

Provide robustness via diversity

Page 14: Wireless Communication and Networks

Current Wireless Systems

Cellular SystemsWireless LANsSatellite Systems

Paging SystemsBluetooth

Page 15: Wireless Communication and Networks

Cellular Systems:Reuse channels to maximize

capacity Geographic region divided into cells Frequencies/timeslots/codes reused at spatially-separated locations. Co-channel interference between same color cells. Base stations/MTSOs coordinate handoff and control functions Shrinking cell size increases capacity, as well as networking burden

BASESTATION

MTSO

Page 16: Wireless Communication and Networks

Cellular Phone Networks

BSBS

MTSOPSTN

MTSO

BS

Islamabad

TaxilaInternet

Page 17: Wireless Communication and Networks

3G Cellular Design: Voice and Data

Data is bursty, whereas voice is continuousTypically require different access and routing

strategies

3G “widens the data pipe”:384 Kbps.Standard based on wideband CDMAPacket-based switching for both voice and data

3G cellular struggling in Europe and Asia Evolution of existing systems (2.5G,2.6798G):

GSM+EDGE IS-95(CDMA)+HDR 100 Kbps may be enough

What is beyond 3G?

The trillion dollar question

Page 18: Wireless Communication and Networks

WLANs connect “local” computers (100m range)

Breaks data into packets Channel access is shared (random

access) Backbone Internet provides best-effort

servicePoor performance in some apps (e.g.

video)

01011011

InternetAccessPoint

0101 1011

Wireless Local Area Networks (WLANs)

Page 19: Wireless Communication and Networks

Wireless LAN Standards

802.11b (Previous Generation) Standard for 2.4GHz ISM band (80 MHz) Frequency hopped spread spectrum 1.6-10 Mbps, 500 ft range

802.11a (Current Generation) Standard for 5GHz NII band (300 MHz) OFDM with time division 20-70 Mbps, variable range Similar to HiperLAN in Europe

802.11g (Current Standard) Standard in 2.4 GHz OFDM Speeds up to 54 Mbps

802.11n (New Standard) Standard for 2.4GHz and 5 GHz bands Speeds up to 400 Mbps

Since 2011,all WLAN cardshave all 3 standards

Page 20: Wireless Communication and Networks

Satellite Systems

Cover very large areas Different orbit heights

GEOs (39000 Km) versus LEOs (2000 Km)

Optimized for one-way transmissionRadio (XM, DAB) and movie (SatTV) broadcasting

Most two-way systems struggling or bankruptExpensive alternative to terrestrial systemA few ambitious systems on the horizon

Page 21: Wireless Communication and Networks

Paging SystemsBroad coverage for short messagingMessage broadcast from all base

stationsSimple terminalsOptimized for 1-way transmissionAnswer-back hardOvertaken by cellular

Page 22: Wireless Communication and Networks

8C32810.61-Cimini-7/98

Bluetooth

Cable replacement RF technology (low cost)

Short range (10m, extendable to 100m)2.4 GHz band (crowded)1 Data (700 Kbps) and 3 voice channels

Widely supported by telecommunications, PC, and consumer electronics companies

Few applications beyond cable replacement

Page 23: Wireless Communication and Networks

Emerging Systems

Ad hoc wireless networks

Sensor networks

Distributed control networks

Page 24: Wireless Communication and Networks

Ad-Hoc Networks

Peer-to-peer communications. No backbone infrastructure. Routing can be multihop. Topology is dynamic. Fully connected with different link

SINRs

Page 25: Wireless Communication and Networks

Design Issues Ad-hoc networks provide a flexible network

infrastructure for many emerging applications.

The capacity of such networks is generally unknown.

Transmission, access, and routing strategies for ad-hoc networks are generally ad-hoc.

Crosslayer design critical and very challenging.

Energy constraints impose interesting design tradeoffs for communication and networking.

Page 26: Wireless Communication and Networks

Sensor NetworksEnergy is the driving

constraint

Nodes powered by nonrechargeable batteriesData flows to centralized location.Low per-node rates but up to 100,000 nodes.Data highly correlated in time and space.Nodes can cooperate in transmission,

reception, compression, and signal processing.

Page 27: Wireless Communication and Networks

Energy-Constrained Nodes

Each node can only send a finite number of bits.Transmit energy minimized by maximizing bit timeCircuit energy consumption increases with bit time Introduces a delay versus energy tradeoff for each bit

Short-range networks must consider transmit, circuit, and processing energy.Sophisticated techniques not necessarily energy-

efficient. Sleep modes save energy but complicate networking.

Changes everything about the network design:Bit allocation must be optimized across all protocols.Delay vs. throughput vs. node/network lifetime tradeoffs.Optimization of node cooperation.

Page 28: Wireless Communication and Networks

Distributed Control over Wireless Links

Packet loss and/or delays impacts controller performance. Controller design should be robust to network faults. Joint application and communication network design.

Automated Vehicles - Cars - UAVs - Insect flyers

Page 29: Wireless Communication and Networks

Joint Design Challenges

There is no methodology to incorporate random delays or packet losses into control system designs.

The best rate/delay tradeoff for a communication system in distributed control cannot be determined.

Current autonomous vehicle platoon controllers are not string stable with any communication delay

Can we make distributed control robust to the network?

Yes, by a radical redesign of the controller and the network.

Page 30: Wireless Communication and Networks

Spectrum Regulation

Spectral Allocation in US controlled by FCC (commercial) or OSM (defense)

FCC auctions spectral blocks for set

applications.

Some spectrum set aside for universal use

Worldwide spectrum controlled by ITU-R

Regulation can stunt innovation, cause economicdisasters, and delay system rollout

Page 31: Wireless Communication and Networks

Standards Interacting systems require standardization

Companies want their systems adopted as standardAlternatively try for de-facto standards

Standards determined by TIA/CTIA in USIEEE standards often adopted

Worldwide standards determined by ITU-TIn Europe, ETSI is equivalent of IEEE Standards process fraught with

inefficiencies and conflicts of interest

Page 32: Wireless Communication and Networks

Main Points

The wireless vision encompasses many exciting systems and applications

Technical challenges transcend across all layers of the system design

Wireless systems today have limited performance and interoperability

Standards and spectral allocation heavily impact the evolution of wireless technology

Page 33: Wireless Communication and Networks

Q&A

?


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