Theoretical Foundations for ad hoc Wireless Networks · ad hoc Wireless Networks WINLAB Research...
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Theoretical Foundations for ad hoc Wireless Networks
WINLAB Research ReviewNov 14, 2006
Roy Yates
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Radio Resource Management
WINLAB Research ReviewNov 14, 2006
Roy Yates
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Trends in Wireless Foundations I
• Scaling Laws– n nodes on a unit disk– each node communicates to a random
destination at rate R(n)– Total rate T(n)=nR(n)– How does T(n) grow as n→∞?
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Trends in Wireless Foundations II
• Cooperation– M ≥ 2 nodes cooperate as a MIMO
antenna and/or receiver– Nodes with partial information act as
relays
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Scaling: Discouraging Results
• Gupta and Kumar [2000]– Conventional single-user decoding– Interfering signals act as noise
• Total Rate T(n) = O(n1/2)
• User Rate R(n) = O(n-1/2) →0
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Cooperation:Discouraging Results
• Small M=3 Relay Networks– Diversity gains in fading
channels– Capacity unsolved
• M node transmit antenna clusters– Rate =O(log M)– Good perf needed
coherent signaling
source
destination
sourcedestination
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Nearest Neighbor Multihop
• Gupta-Kumar Strategy– Multihop forwarding– nearest neighbor
transmission• wired APs
⇒ scalable networks– [Liu,Liu, Towsley 03]
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Three Stage “MIMO”[Ozgur, Leveque, Tse 2006]
Bit distribution in each M
node cluster
Cluster to ClusterMIMO
M Tx to M RxM bits sent
(n TD stages)
Bit collection in each M
node cluster
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Network Throughput Boost[Ozgur, Leveque, Tse 2006]
M nodecluster rate
T(M) = O(Mb)M=ng(b)
⇒n node
network rateT(n) = O(ng(b))
bb
bg ≥−
=2
1)(
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Network Throughput Boost[Ozgur, Leveque, Tse 2006]
b=0T(n)=O(1)
b1=1/2T(n) = O(n1/2)
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Recursive Network Construction![Ozgur, Leveque, Tse 2006]
nnn b
bgb−
==+ 21)(1
b0=0O(1)
b1=1/2O(n1/2)
b2=2/3O(n2/3)
Throughput T(n)=nb
b3=3/4O(n3/4)
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Questions/Issues
• How does the recursive network construction really work?– Routing, addressing?
• Mobility?• Security?
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RRM Research at WINLAB
• All Investigators• Frenkiel, Gajic, Greenstein, Gruteser,
Mandayam, Paul, Raychaudhuri, Rose, Spasojevic, Trappe, Yates, Zhang
• All networks • cellular, infostations, (hierarchical)
sensors, multihop ad hoc, vehicular networks
• 33 Student Projects
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33 WINLAB Projects• The Truth About Spectrum Servers: Greedy Users and Resource Allocation
Advisory Services• Christopher Rose and Jasvinder Singh• Network Formation Among Selfish Wireless Devices• Narayan Mandayam, Roy Yates and Hithesh Nama• Dynamic Spectrum Access Models for Bridging the Divide between Open
Access and Property Rights• Narayan Mandayam and Omer Ileri• Capacity Theorems and Cooperative Strategies for a Multiaccess Relay
Channel• Narayan Mandayam and Lalitha Sankaranarayanan• Distributed Scheduling Algorithms for Dynamic Spectrum Access• Narayan Mandayam, Roy Yates, Chandrasekharan Raman and Jasvinder Singh• Fingerprints in the Ether: Using the Physical Layer for Wireless
Authentication• Larry Greenstein, Narayan Mandayam, Wade Trappe and Liang Xiao• A Framework for Dynamic Spectrum Sharing between Cognitive Radios• Roy Yates and Joydeep Acharya• A Cache-and-Forward Architecture for the Future Internet• Roy Yates and Umut Akyol• Pathloss Interpolation for ORBIT Testbed Calibration• Roy Yates, Larry Greenstein and Jing Lei• BeSpoken Protocol for Data Dissemination in Wireless Sensor Networks• Roy Yates, Predrag Spasojevic and Silvija Kokalj-Filipovic• Information Security for Multi-Terminal Networks• Predrag Spasojevic, Roy Yates, Ruoheng Liu and Ivana Maric (Stanford
University)• Characterization of the ORBIT Indoor Testbed Radio Environment• Ivan Seskar, Larry Greenstein, Predrag Spasojevic and Haris Kremo• Cognitive Radio: Spectrum Sensing and Signal Identification• Predrag Spasojevic, Ivan Seskar and Goran Ivkovic• System Performance and Scalability of Hierarchical Hybrid Wireless
Networks• Dipankar Raychaudhuri and Suli Zhao• CLAP: A Cross Layer Aware Transport Protocol for Time-Varying Wireless
Links• Sanjoy Paul, Dipankar Raychaudhuri and Sumathi Gopal• A Distributed Naming and Addressing Scheme for Cognitive Radio Networks• Dipankar Raychaudhuri and Xiangpeng Jing• IRMA: Integrated Routing and MAC Scheduling in Multi-hop Wireless Mesh
Networks• Dipankar Raychaudhuri and Zhibin Wu
• DCMA: Interface Contained Forwarding for Efficient Data Transfers in Multi-hop Wireless Networks
• Dipankar Raychaudhuri, Arup Acharya, Archan Misra and Sachin Ganu• Modeling and Interference Evaluation of Overhead Medium-Voltage Broadband • Power Line (BPL) Systems• Dipankar Raychaudhuri, Larry Greenstein and Song Liu• Is User-Cooperation in Wireless Networks Always Beneficial?• Narayan Mandayam, Suhas Mathur and Lalitha Sankaranarayanan• A QoS Routing and Admission Control Scheme for 802.11 Ad Hoc Networks• Marco Gruteser, Dipankar Raychaudhuri and Lin Luo• Packet Probes for Available Bandwidth Estimation in Wireless Ad Hoc
Networks• Marco Gruteser, Dipankar Raychaudhuri and Mesut Ali Ergin• Experimental Scalability Analysis of Rate Adaptation Techniques in Dense
IEEE 802.11 Networks• Marco Gruteser, Predrag Spasojevic, Ivan Seskar, Kishore Ramachandran and
Haris Kremo• Enhancing Security and Privacy in GPS-Based Traffic Monitoring Systems• Marco Gruteser and Baik Hoh• Creating Multi-hop Topologies Through Noise Generation on ORBIT• Marco Gruteser and Sanjit Krishnan Kaul• Precise Channel Modeling in Vehicle to Vehicle Communication• Marco Gruteser and Sangho Oh• An Efficient Secure Ad Hoc on Demand Routing Algorithm for Wireless
Networks• Wade Trappe and Qing Li• Channel Surfing: Defending Wireless Sensor Networks from Jamming and
Interference• Wade Trappe, Yanyong Zhang and Wenyuan Xu• An Identity-Based Security Framework for Vehicular Networks• Wade Trappe, Pandurang Kamat and Arati Baliga• Secrecy Capacity of Independent Parallel Channels• Wade Trappe, Roy Yates and Zang Li• Power-Modulated Challenge-Response Schemes for Verifying Location Claims• Wade Trappe, Yu Zhang and Zang Li• Managing the Mobility of a Mobile Sensor Network• Yanyong Zhang, Wade Trappe and Ke Ma• DADA: A Two-Dimensional Adaptive Node Schedule to Provide Smooth Sensor• Network Services against Random Failures• Yanyong Zhang, Shengchao Yu and Antony Yang
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WINLAB RRM Research
3G/4GRRM
3G/4GRRM
InterferenceAvoidance/Spectrum
Mgmt
InterferenceAvoidance/Spectrum
Mgmt
Infostations-II
Infostations-II
Ad-Hoc MobileNetworks
Ad-Hoc MobileNetworks
Mobile ContentDelivery
Mobile ContentDelivery
Self-OrganizingRadio Systems
Self-OrganizingRadio Systems
SensorNetworksSensor
Networks
IAB 2002
Ad-Hoc MobileNetworks
Ad-Hoc MobileNetworks
VehicularNetworks
VehicularNetworks
Self-OrganizingRadio Systems
Self-OrganizingRadio Systems
SensorNetworksSensor
Networks
IAB 2006
SecureWireless
PHY
SecureWireless
PHY
SpectrumMgmt
SpectrumMgmt
ORBITgrid
modeling
ORBITgrid
modeling
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Common ThemesMethods for Efficient Systems
• Power Conservation– Conserve Battery, Reduce Interference
• Cooperation– Multihop Forwarding, Multi-antenna Signal
Combining, Cooperative Detection • Distributed Protocols/Algorithms
– Local Measurements• Security
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PHY Layer Projects I• Spectrum
– The Truth About Spectrum Servers: Greedy Users and Resource Allocation Advisory Services
• Christopher Rose and Jasvinder Singh– Dynamic Spectrum Access Models for Bridging the Divide between Open
Access and Property Rights• Narayan Mandayam and Omer Ileri
– Distributed Scheduling Algorithms for Dynamic Spectrum Access• Narayan Mandayam, Roy Yates, Chandrasekharan Raman and Jasvinder Singh
– A Framework for Dynamic Spectrum Sharing between Cognitive Radios• Roy Yates and Joydeep Acharya
– Cognitive Radio: Spectrum Sensing and Signal Identification• Predrag Spasojevic, Ivan Seskar and Goran Ivkovic
• Cooperation– Network Formation Among Selfish Wireless Devices
• Narayan Mandayam, Roy Yates and Hithesh Nama– Capacity Theorems and Cooperative Strategies for a Multiaccess Relay
Channel• Narayan Mandayam and Lalitha Sankaranarayanan
– Is User-Cooperation in Wireless Networks Always Beneficial?• Narayan Mandayam, Suhas Mathur and Lalitha Sankaranarayanan
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PHY Layer Projects II• ORBIT Grid Characterization
– Pathloss Interpolation for ORBIT Testbed Calibration• Roy Yates, Larry Greenstein and Jing Lei
– Characterization of the ORBIT Indoor Testbed Radio Environment• Ivan Seskar, Larry Greenstein, Predrag Spasojevic and Haris Kremo
– Creating Multi-hop Topologies Through Noise Generation on ORBIT• Marco Gruteser and Sanjit Krishnan Kaul
• Wireless PHY Security– Fingerprints in the Ether: Using the Physical Layer for Wireless
Authentication• Larry Greenstein, Narayan Mandayam, Wade Trappe and Liang Xiao
– Information Security for Multi-Terminal Networks• Predrag Spasojevic, Roy Yates, Ruoheng Liu and Ivana Maric (Stanford University)
– Channel Surfing: Defending Wireless Sensor Networks from Jamming and Interference
• Wade Trappe, Yanyong Zhang and Wenyuan Xu– Power-Modulated Challenge-Response Schemes for Verifying Location Claims
• Wade Trappe, Yu Zhang and Zang Li– Secrecy Capacity of Independent Parallel Channels
• Wade Trappe, Roy Yates and Zang Li
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Secure Wireless PHY
• Wireless = easy eavesdropping & jamming
• Unique properties of wireless medium can be exploited
Alice
Bob
Eve
• Information Theoretic Basis–– The Wiretap Channel [The Wiretap Channel [WynerWyner 1975]1975]– Broadcast channel [Csiszar & Korner 78]
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Gaussian Broadcast Channel
1WXbY +=AliceBob
Eve
X
2WXgZ +=
( )++−+=−= )1log()1log(21);();(max
)(gPbPZXIYXIC
xPAWGN
(Leung-Yan-Cheong & Hellman 78, Van Dijk 97)
Secrecy capacity is
W1,W2 ~ N(0,1)
CAWGN = 0 if Eve’s channel is better
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Fading Channels• Secrecy Capacity of Independent Parallel Channels
[Z. Li, R. Yates, W. Trappe]– Fading channel state γ = (b,g)– Opportunistic transmission when Bob > Eve
• Effective even if Eve > Bob on average
[ ][ ]))(,(max
)(:)(sec γγγγγ γ
SCECSSES =
=
+
⎟⎟⎟
⎠
⎞
⎜⎜⎜
⎝
⎛⎟⎟⎠
⎞⎜⎜⎝
⎛+−⎥
⎦
⎤⎢⎣
⎡−⎟⎟
⎠
⎞⎜⎜⎝
⎛−+⎟⎟
⎠
⎞⎜⎜⎝
⎛+=
gbgbbggbWS 1111114112
)(2
*
λγ
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Uniform vs. Optimal Power Allocation
0 2 4 6 8 100
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
C
P[C
M >
C]
M = 16, Ptot = 10
E[g] = -10 dB, optimalE[g] = -10 dB, uniformE[g] = 0 dB, optimalE[g] = 0 dB, uniformE[g] = 10 dB, optimalE[g] = 10 dB, uniform
0 2 4 6 8 100
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
CP
[CM
> C
]
E[g] = 0 dB, Ptot = 10
M = 16, optimalM = 16, uniformM = 32, optimalM = 32, uniform
• Uniform power allocation results in significant secrecy capacityloss comparing to optimal power allocation, especially at large M– Loss of about 1~1.5 bits/channel use for M=16– Loss of about 2~3 bits/channel use for M=32
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Coordinated Cellular Networks[Karakayali, Foschini, Valenzuela, Yates]
• Conventional Networks:– Each mobile served by a unique BS. Mobiles suffer interference.
• Inter-base Coordinated Networks:– Base stations act together, all users are served by all BSs.– Coordinated BS transmissions mitigate interference
• Problem: How to coordinate?– What is the value of BS coordination? Multiple antennas?
Goal: Achieve maximum spectral efficiency
signalinterference
signaluseful signal
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Mitigation of Out-of-cell Interference
• Objective: Mute inter-cell interference to enhance per antennaspectral efficiency:1. Networks with just single antenna bases and mobiles 2. Multiple antennas at both bases and mobiles.
• Context: Cellular Downlink– Equal rate (ER), to emphasize fairness to users.
signal
NUMBER OF RECEIVE ANTENNAS0 10 20 30 40
150
100
50
24dB 18 dB12dB
6 dB
0 dB∗⇐
8
ORIGINAL BLAST EXPERIMENT 1998
CA
PAC
ITY
IN B
ITS
PER
SY
MB
OL
noise+interferenceSINR: ~ 0 dB (with interference)
~18dB (without interference)
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Downlink Transmission Methods with Single Antenna Mobiles and Base Stations
MULTIBASE COHERENTLY COORDINATED TRANSMISSION (CCT)
• Channel magnitude, phase information needed• Signals coherently add at the receivers.• Means for mitigating interference
- Zero Forcing (ZF) - Dirty Paper Coding (DPC) Coherent addition
of signals
signal
SINGLE BASE TRANSMISSION (SBT)• Phase information not required.• Neighboring base transmissions cause interference• Means for mitigating interference:
- Power Control ⇐ BASELINE- Transmit at Full Power (FP)
interference
signaluseful signal
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Network Coordination Gains with Multiple Antennas
bits
/sec
/Hz/
base
(1,1) (2,2) (4,4)
Full Power
Power Control
Zero Forcing
DPC
(# of transmit antennas per base, # of receive antennas per user)
0
5
10
15
20
25
30
ConventionalNetworks
Inter-baseCoordinated
Networks
A factor of ~15 improvement
in spectral efficiency
Upper bound within 1 bits/symbol/base of ZF&DPC
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Summary
• Promising recent results
• Lots of interesting problems