EE 179: Introduction to Communications Professor Andrea Goldsmith.
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Transcript of EE 179: Introduction to Communications Professor Andrea Goldsmith.
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EE 179: Introduction to Communications
Professor Andrea Goldsmith
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Outline
Course Information and Policies
Communication Systems Today
Future Systems
Design Challenges
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Course Information(see web or handout for more details)
Instructor: Andrea Goldsmith, Packard 371, andrea@ee, Ext: 56932, OHs: M 1-2pm, W 12-1pm, Th 5:30-6:30.
Class Homepage: www.stanford.edu/class/ee179 (temporary page at www.stanford.edu/class/ee104/index179.html)
TAs: Neil Achtman,[email protected], OHs and Email OHs: TBD Ragiv Agrawal, ragivag@wsl, OHs and Email OHs: TBD
Class mailing list: ee179-students (automatic for registered students), ee179-staff for instructor/TAs, guest list available
Discussion Section: T 6-7pm (tentative) Book: An Introduction to Analog and Digital
Communications
Grading: HWs 30%, Midterm 30%, Final 40% Prerequisites: EE102a or equivalent
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Class Policies Exam policy:
Exams must be taken at their scheduled times.
Exceptions only in very rare circumstances.Midterm: 2/13 from 11-12:30pmFinal: 3/18 from 8:30-11:30am.
HW policy: Assigned Wednesday, due following
Thursday. Lose 25% credit per day late. Up to 3 students can collaborate on 1
writeup. All collaborators must work out all problems.
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Communication Systems
Provide for electronic exchange of multimedia dataVoice, data, video, music, email, web pages, etc.
Communication Systems TodayRadio and TV broadcasting (covered later in the
course)Public Switched Telephone Network (voice,fax,modem)Cellular Phones Computer networks (LANs, WANs, and the Internet)Satellite systems (pagers, voice/data, movie
broadcasts)Bluetooth
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PSTN Design
Local exchange Handles local callsRoutes long distance calls over high-speed lines
Circuit switched network tailored for voice Faxes and modems modulate data for voice
channel DSL uses advanced modulation to get 1.5 Mbps
Local SwitchingOffice (Exchange)
Local SwitchingOffice (Exchange)
Long Distance Lines(Fiber)Local Line
(Twisted Pair)
FaxModem
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Cellular System Basics
Geographic region divided into cells Frequencies/timeslots/codes reused at spatially-separated locations (analog systems use FD, digital
use TD or CD) Co-channel interference between same color cells. Handoff and control coordinated through cell base stations
BASESTATION
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Cell Phone Backbone Network
BSBS
MTSO PSTN MTSO
BS
San Francisco
New York
Internet
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Local Area Networks (LANs)
LANs connect “local” computers Breaks data into packets Packet switching (no dedicated channels) Proprietary protocols (access,routing, etc.)
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1011
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101101011011
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Wireless Local Area Networks (WLANs)
WLANs connect “local” computers (100m range)
Breaks data into packets Channel access is shared (random
access) Backbone Internet provides best-
effort service
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InternetAccessPoint
0101 1011
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Wide Area Networks:The Internet
Many LANs and MANs bridged together
Universal protocol: TCP/IP (packet based).
Guaranteed rates or delays cannot be provided.
Hard to support user mobility. Highly scalable and flexible topology
01011011 Internet
1011
0101
Bridge MANLAN
Satellite andFiber Lines
Bridge LAN
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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
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Paging SystemsBroad coverage for short messagingMessage broadcast from all base
stationsSimple terminalsOptimized for 1-way transmissionAnswer-back hardOvertaken by cellular
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Bluetooth
Cable replacement for electronic devicesCell phones, laptops, PDAs, etc.
Short range connection (10-100 m)1 data (721 Kbps) and 3 voice (56 Kbps)
channelsRudimentary networking capabilities
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Future Systems
Nth Generation CellularNth Generation WLANsNth Generation InternetWireless EntertainmentSensor Networks Smart Homes/AppliancesAutomated Cars/FactoriesTelemedicine/LearningAll this and more…
Ubiquitous Communication Among People and Devices
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Ad-Hoc Networks
Peer-to-peer communications. No backbone infrastructure. Routing can be multihop. Network topology is dynamic.
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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.
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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
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Design Challenges Hardware Design
Precise componentsSmall, lightweight, low powerCheapHigh frequency operation
System DesignConverting and transferring informationHigh data rates Robust to noise and interferenceSupports many users
Network DesignConnectivity and high speedEnergy and delay constraints
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Main Points Communication systems send information
electronically over communication channels
Many different types of systems which convey many different types of information
Design challenges include hardware, system, and network issues
Communication systems recreate transmitted information at receiver with high fidelity
Focus of this class is design and performance of analog and digital communication systems