Download - CS647 - Advanced Topics in Wireless Networks
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CS 647 1.1
CS647 - Advanced Topics in Wireless Networks
Introduction – Part II
Drs. Baruch Awerbuch & Amitabh MishraComputer Science Department
Johns Hopkins University
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CS 647 1.2
A case for mobility – many aspectsHistory of mobile communicationMarketWireless Networks
Cellular NetworksAd hoc NetworksSensor Networks
Areas of research
Outline
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CS 647 1.3
Classical Mail Forwarding Technique?
Baltimore Main Post Office
JH Univ Post Office
Mail from the world
Baltimore JH Univ
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CS 647 1.4
Ideal cell area (2-10 km radius)
Fundamentals of Cellular Systems
Illustration of a cell with a mobile station and a base station
BS
MS
CellMS
Alternative shape of a cell Hexagonal cell area
used in most models
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CS 647 1.5
Control and Traffic Channels
Base Station (BS)
Forward (downlink)
control ch
annel
Mobile Host (MH)
Reverse (u
plink) contro
l channel
Forward (downlink) tr
affic ch
annel
Reverse (u
plink) traffic
channel
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CS 647 1.6
PSTNMS
HomeMobile
Switching Center
HLR Home network
Visitingarea
Caller
VisitingMobile
Switching Center
VLR
MS
1
Location update request Using Bacon Signals
Update location Info. sent to HLR
2
Automatic Location Update
Baltimore
JHU
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CS 647 1.7
PSTN
MS
homeMobile
Switching Center
HLR Home Network
VisitingArea
Caller
Mobile Switching
Center
VLR
Automatic Call Forwarding using HLR-VLR
1 Call sent to home location
2Home MSC checksHLR; gets current location of MSin visiting area
3
Home MSC forwardscall to visiting MSC
4
MSC in visiting area sendscall to BS and connects MS
Baltimore
JHU
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CS 647 1.8
Call Setup from MH (Cell Phone) to BS?
BS MS
1. Need to establish path
2. Frequency/time slot/code assigned(FDMA/TDMA/CDMA)
3. Control Information Acknowledgement4. Start communication
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CS 647 1.9
Mobility and Handoff
BSi
Signal strength due to BSi
X2MS
X4
Pmin
Pi(x)
E
Signal strength due to BSj
X1 X3 X5 XthBSj
Pj(x)
By looking at the variation of signal strength from either base station it is possible to decide on the optimum area where handoff can take place
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CS 647 1.10
Handoff Scenarios with Different Mobility Locations
PSTN
Paging Area 1
MSC2
c
MSC3
d
MSC4
Paging Area 2
e
MS
MSC1
a b
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CS 647 1.11
A case for mobility – many aspectsHistory of mobile communicationMarketWireless Networks
Cellular NetworksAd hoc NetworksSensor Networks
Areas of research
Outline
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CS 647 1.12
MANETs: Mobile Ad hoc Networks
Applications: Military applications (battlefield), disaster situations, etc.
Collection of wireless mobile nodes dynamically forming a distributed network without any pre-existing infrastructure
From DARPA Website
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CS 647 1.13
An autonomous system of nodes (MHs) connected by wireless links
Lack of fixed infrastructure relays
Absence of centralized authority
Peer-to-peer connectivity Multi-hop forwarding to ensure network connectivity
Topology may change dynamically
Random Multi-hop Graph
Energy-constrained
Bandwidth-constrained, variable capacity links
Mobile Ad Hoc Networks - Characteristics:
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CS 647 1.14
Mobile Ad Hoc Network (MANET)
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CS 647 1.15
Applications of MANETsDefense applications: On-the-fly communication set up for soldiers on the ground, fighter planes in the air, etc.
Crisis-management applications: Natural disasters, where the entire communication infrastructure is in disarray
Tele-medicine: Paramedic assisting a victim at a remote location can access medical records, can get video conference assistance from a surgeon for an emergency intervention
Tele-Geoprocessing applications: Combines geographical information system, GPS and high capacity MS, Queries dependent of locationinformation of the users, and environmental monitoring using sensors
Virtual navigation: A remote database contains geographical representation of streets, buildings, and characteristics of large metropolis and blocks of this data is transmitted in rapid sequence to a vehicle to visualize needed environment ahead of time
Education via the internet: Educational opportunities on Internet to K-12 students and other interested individuals and it is possible to have last-mile wireless Internet access
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CS 647 1.16
A case for mobility – many aspectsHistory of mobile communicationMarketWireless Networks
Cellular NetworksAd hoc NetworksSensor Networks
Areas of research
Outline
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CS 647 1.17
Embedded Networked Sensing
Micro-sensors, on-board processing, and wireless interfaces all feasible at very small scale
can monitor phenomena “up close”
Will enable spatially and temporally denseenvironmental monitoringEmbedded Networked Sensing will reveal previously unobservable phenomena
Seismic Structure response
Contaminant Transport
Marine Microorganisms
Ecosystems, Biocomplexity
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CS 647 1.18
Example use of a Sensor Network
Measuring pollutant concentration
Pass on information to monitoring station
Predict current location of pollutant contour based on various parameters
Take corrective action
Pollutants monitored by sensors in the river
Sensors report to the base monitoring station
ST
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CS 647 1.19
Wireless Sensor Networks – Architecture
Sensor Field
Internet & Satellite
Sensor Node
C
Task ManagerNode
SINK
A
D
B
User
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CS 647 1.20
Portable and self-sustained (power, communication, intelligence)Capable of embedded complex data processingNote: Power consumed in transmitting 1Kb data over 100m is equivalent to executing 30M Instructions on 10MIPS processorTechnology trends predict small memory footprint may not be a limitation in future sensor nodesEquipped with multiple sensing, programmable computing and communication capability
What is a Sensor and a Sensor Network?
Transceiver
Embedded Processor
Sensor
Battery
Memory
Transceiver
Embedded Processor
Sensor
Battery
Memory
1Kbps- 1Mbps3m - 300m
Lossy Transmission
8 bit, 10 MHzSlow Computation
Limited LifetimeRequires
SupervisionMultiple sensors
128Kb - 1MbLimited Storage
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CS 647 1.21
Sensors and Wireless Radio
Types of sensors: -Pressure,-Temperature-Light-Biological-Chemical-Strain, fatigue-Tilt
• Capable of surviving harsh environments (heat, humidity, corrosion, pollution, radiation, etc)
• Could be deployed in large numbers
Wireless Wireless RadioRadio
SensorsSensors
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CS 647 1.22
Wireless Sensor NetworksWireless sensor networks are a collection of tiny disposable and low power devices
A sensor node is a device that converts a sensed attribute (e.g. temperature, vibration) into a form understandable by users
Wireless sensor networks have been used for years for a number of applications
The number of sensors can be large to cover as much area as desirable
Sensor networks are usually unattended and some degree of fault-tolerance needed
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CS 647 1.23
Characteristics of Wireless Sensor Networks
Advantages:Ease of deploymentExtended rangeFault toleranceMobility (some)
Limitations:Low-bandwidthError-prone transmissionsNeed for collision-free channel accessLimited amount of energy availableUsually sensors placed where it is difficult to replace their batteries
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CS 647 1.24
Areas of research in mobile communication
Wireless Communicationtransmission quality (bandwidth, error rate, delay)modulation, coding, interferencemedia access, regulations...
Mobilitylocation dependent serviceslocation transparencyquality of service support (delay, jitter, security)Routing...
Portabilitypower consumptionlimited computing power, sizes of display, ...
Security..