venkat padmanabhan · geotrack location info often embedded in router dns names...
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Locating Internet Hosts
Venkat PadmanabhanMicrosoft Research
Harvard CS Colloquium
20 June 2001
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OutlineWhy is user or host positioning interesting?
Solving the problem in two different domainsRADAR: wireless LAN environmentIP2Geo: wide-area Internet environment
Geography as a tool for studying the Internet
Summary
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Motivation
Location-aware services help users interact better with their environment
Navigational services (in-building, metro area)Resource location (nearest restaurant, nearest printer)Targeted advertising (sales, election canvassing)Notification services (buddy alert, weather alert)
User positioning is a prerequisite to location-aware services
But this is a challenging problem
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Our WorkWe have built host location systems for two different environments
RADAR: wireless LANsmobile clients (laptops, PDAs) that connect via a wireless LANtypically within buildings
IP2Geo: wide-area Internettypically fixed hosts (e.g., desktop machines, home PCs)
Goal: leverage existing infrastructure
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RADAR
(Joint work with P. Bahl and A. Balachandran)
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BackgroundFocuses on the indoor environmentLimitations of current solutions
global positioning system (GPS) does not work indoorsline-of-sight operation (e.g., IR-based Active Badge)dedicated technology (e.g., ultrasound-based Bats)
Our goal: leverage existing infrastructureuse off-the-shelf RF-based wireless LANintelligence in softwarebetter scalability and lower cost than dedicated technology
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RADAR BasicsKey idea: signal strength matching
Offline calibration: tabulate <location,SS> to construct radio mapempirical method or mathematical method
Real-time location and tracking:extract SS from base station beaconsfind table entry that best matches the measured SS
Benefits:little additional costno line-of-sight restriction ⇒ better scalingautonomous operation ⇒ user privacy maintained
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Determining LocationFind nearest neighbor in signal space (NNSS)
default metric is Euclidean distance
Physical coordinates of NNSS ⇒ user location
Refinement: k-NNSSaverage the coordinates of k nearest neighbors
N1
T
GN2 N3
N1, N2, N3: neighborsT: true location of userG: guess based on averaging
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Experimental SettingDigital RoamAbout (WaveLAN)
2.4 GHz ISM band
2 Mbps data rate
3 base stations
70x4 = 280 (x,y,d) tuples
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How well does signal strength correlate with location?
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Distance along walk (meters)
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BS 1 BS 2 BS 3
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RADAR Performance
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Error distance (meters)
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RADAR Strongest BS
Median error distance is 2.94 m. Averaging (k=3) brings this down to 2.13 m
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Dynamic RADAR SystemEnhances the base system in several ways
mobile userschanges in the radio propagation environmentmultiple radio channels
DRS incorporates new algorithmscontinuous user trackingenvironment profilingchannel switching
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Continuous User Tracking
1 2 h
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NNSS NNSS-AVG CUT
Mean Median 90th %tile
History-based model that captures physical constraints
Find the lowest cost path (à la Viterbi algorithm)
Addresses the problem of signal strength aliasing
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Environment ProfilingAddresses problem of changing RF environmentSystem maintains multiple radio mapsMaps indexed by environment profiles created by APs APs probe the environment and pick the best map
Mobile User
Access Point 1
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W ithout Env.Profiling
With Env. Profiling
Mean Median 90th %tile
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Summary of RADARRADAR: a software approach to user positioning
leverages existing wireless LAN infrastructure ⇒ low costenables autonomous operation ⇒ user privacy maintained
Base system radio map constructed either empirically or mathematicallyNNSS algorithm matches signal strength against the radio map
Enhanced systemcontinuous user trackingenvironment profiling
Median error: ~2 metersPublications:
Base system: INFOCOM 2000 paperEnhanced system: Microsoft Technical Report MSR-TR-2000-12
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IP2Geo
(Joint work with L. Subramanian)
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Motivation
Much focus on location-aware services in wireless and mobile contexts
Such services are relevant in the Internet context tootargeted advertisingevent notificationterritorial rights managementnetwork diagnostics
Locating the user or host is a prerequisite
But this is a challenging problemIP address does not inherently contain an indication of location
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Existing ApproachesUser input
burdensome, error-prone
User registration/cookies: e.g., Hotmailbetter, but many services do not require the user to log incookie information may not be always availableregistered location may be incorrect or stale
Whois database: e.g., NetGeoregistered location may correspond to headquartersmanual updates, inconsistent databases
Proprietary technologyTraceware (Digital Island), EdgeScape (Akamai)country/state resolutionexhaustive tabulation of IP address space exploiting view from within ISP networks?
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IP2GeoMulti-pronged approach that exploits various “properties” of
the InternetDNS names of router interfaces often indicate locationnetwork delay tends to correlate with geographic distancehosts that are aggregated for the purposes of Internet routing also tend to be clustered geographically
GeoTrackdetermine location of closest router with a recognizable DNS name
GeoPinguse delay measurements to estimate location
GeoClusterextrapolate partial (and possibly inaccurate) IP-to-location mapping information using BGP prefix clusters
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GeoTrackLocation info often embedded in router DNS names
ngcore1-serial8-0-0-0.Seattle.cw.net, 184.atm6-0.xr2.ewr1.alter.net
GeoTrack operationdo a traceroute to the target IP addressdetermine location of last recognizable router along the path
Key ideas in GeoTrackpartitioned city code database to minimize chance of false matchISP-specific parsing rulesdelay-based correction
Limitationsrouters may not respond to tracerouteDNS name may not contain location information or lookup may failtarget host may be behind a proxy or a firewall
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GeoTrack ExampleTraceroute from Berkeley to Dartmouth
snr46.CS.Berkeley.EDU Berkeley,CA UnitedStatesgig10-cnr1.EECS.Berkeley.EDU Berkeley,CA UnitedStatesgigE5-0-0.inr-210-cory.Berkeley.EDU Berkeley,CA UnitedStatesfast1-0-0.inr-001-eva.Berkeley.EDU Berkeley,CA UnitedStatespos0-0.inr-000-eva.Berkeley.EDU Berkeley,CA UnitedStatespos3-0.c2-berk-gsr.Berkeley.EDU Berkeley,CA UnitedStatesSUNV--BERK.POS.calren2.net Sunnyvale,CA UnitedStatesabilene--QSV.POS.calren2.net Sunnyvale,CA UnitedStatesdnvr-scrm.abilene.ucaid.edu Denver,CO UnitedStateskscy-dnvr.abilene.ucaid.edu KansasCity,MO UnitedStatesipls-kscy.abilene.ucaid.edu Indianapolis,IN UnitedStatesclev-ipls.abilene.ucaid.edu Cleveland,OH UnitedStatesnycm-clev.abilene.ucaid.edu NewYork,NY UnitedStates192.5.89.101 192.5.89.54 bb.berry1-rt.dartmouth.edu UnitedStateswebster.dartmouth.edu UnitedStates
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Delay-based Location EstimationDelay-based triangulation is conceptually simple
delay ⇒ distancedistance from 3 or more non-collinear points ⇒ location
But there are practical difficultiesnetwork path may be circuitoustransmission & queuing delays may corrupt delay estimateone-way delay is hard to measure
one-way delay ≠ round-trip delay/2 because of routing asymmetry
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A
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T10 ms
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GeoPingMeasure the network delay to the target host from several geographically distributed probes
typically more than 3 probes are usedround-trip delay measured using ping utilitysmall-sized packets ⇒ transmission delay is negligiblepick minimum among several delay samples
Nearest Neighbor in Delay Space (NNDS)akin to Nearest Neighbor in Signal Space (NNSS) in RADARconstruct a delay map containing (delay vector,location) tuplesgiven a vector of delay measurements, search through the delay map for the NNDSlocation of the NNDS is our estimate for the location of the target hostMore robust that directly trying to map from delay to distance
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1 Redmond, WA
2 Berkeley, CA
3 Stanford, CA
4 San Diego, CA
5 Madison, WI
6 Urbana, IL
7 St. Louis, MO
8 Dallas, TX
9 Austin, TX
10 Boston, MA
11 New Brunswick, NJ
12 Baltimore, MD
4000 km
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13 Durham, NC
14 Chapel Hill, NC
Delay map constructed using measured delays to 265 hosts on university campuses
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Validation of Delay-based Approach
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Geographic Distance (kilometers)
Cu
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5-15 ms 25-35 ms 65-75 ms
Delay tends to increase with geographic distance
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Performance of GeoPing
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Error distance (kilometers)
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9 probes used. Error distance: 177 km (25th), 382 km (50th), 1009 km (75th)
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Performance of GeoPing
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Highest accuracy when 7-9 probes are used
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GeoClusterA passive technique unlike GeoTrack and GeoPingBasic idea:
divide up the space of IP addresses into clustersextrapolate partial IP-to-location mapping information to assign a location to each clustergiven a target IP address, first find the matching cluster usinglongest-prefix match. location of matching cluster is our estimate of host location
Example: consider the cluster 128.95.0.0/16 (containing 65536 IP addresses)suppose we know that the location corresponding to a few IP addresses in this cluster is Seattlethen given a new address, say 128.95.4.5, we deduce that it is likely to be in Seattle too
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Clustering IP addressesExploit the hierarchical nature of Internet routing
we use the approach proposed by Krishnamurthy & Wang (SIGCOMM 2000)inter-domain routing in the Internet uses the Border Gateway Protocol (BGP)BGP operates on address aggregateswe treat these aggregates as clustersin all we had about 100,000 clusters of different sizes
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IP-to-location MappingIP-to-location mapping information
partial information (i.e., only for a small subset of addresses)possibly inaccurate (e.g., manual input from user)
We obtained mapping information from a variety of sources
Hotmail: combined anonymized user registration information with client IP addressOnline TV guide: combined zip code submitted in user query with client IP addressbCentral: derived location information from cookies
How would this information be obtained in general?likely location (not necessarily accurate) may be inferred from user queries (e.g., TV guide)location information from small number of registered users couldbe extrapolated to a much larger number of casual users
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Extrapolating IP-to-location Mapping
Determine location most likely to correspond to a clustermajority polling“average” locationdispersion is an indicator of our confidence in the location estimate
What if there is a large geographic spread in locations?some clusters correspond to large ISPs and the internal subdivisions are not visible at the BGP levelsub-clustering algorithm: keep sub-dividing clusters until there is sufficient consensus in the individual sub-clusters some clients connect via proxies or firewalls (e.g., AOL clients)
sub-clustering may help if there are local or regional proxiesotherwise large dispersion ⇒ no location estimate mademany tools fail in this regard
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Geographically Localized Clusters
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Geographically Dispersed Clusters
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Performance of GeoCluster
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Error distance (kilometers)
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GeoTrack GeoPing GeoCluster
Median error: GeoTrack: 102 km, GeoPing: 382 km, GeoCluster: 28 km
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Performance of GeoCluster
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IP address sequence num ber (1000s)
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Error Dis tance Dispers ionbCentral clients
Dispersion is on average a good indicator of accuracy
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Using IP2Geo to Study Internet connectivity
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Linearized Distance/Geographic Distance
Cum
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Aus tin, TX Redm ond, WA Palo Alto, CA
Path from TX to KY: TX → CA → NJ → IN → KY
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Summary of IP2GeoA variety of techniques that depend on different sources of information
GeoTrack: DNS namesGeoPing: network delayGeoCluster: address aggregates used for routing
Median error varies 20-400 kmEven a 30% success rate is useful especially since we can tell when the estimate is likely to be accuratePaper to appear in ACM SIGCOMM 2001
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ConclusionsRADAR and IP2Geo try to solve the same problem in very different contexts
wireless versus wirelineindoor environment versus global scaleaccuracy of a few meters versus tens or hundreds of kilometers
Interesting but challenging problem!
For more information visit: http://www.research.microsoft.com/~padmanab/