Scattered Data Interpolation in Complex...
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Scattered Data Interpolation inComplex Domains
Oliver Kreylos
Center for Image Processing and Integrated Computing (CIPIC)
Department of Computer Science
University of California, Davis
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Outline
• Sensor networks as scattered data problem• Overview of existing scattered data
interpolation methods• Representation of complex domains• A distance metric for complex domains• Visualizing sensor network data
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Sensor Networks as Scattered DataProblem
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Scattered Data Problem
• Given: A vector S = ((p1, v1), . . . , (pN , vN )) ofN samples• pi: Sample position (site) in some
domain D
• vi: Sample value in some range R
• Samples are assumed to be measurementsof some (unknown) function F : D → R, i. e.,∀i = 1, . . . , N : F (pi) = vi
• Scattered data problem: Reconstruction of F
based only on sample vector S
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Interpreting Sensor Network Data
• pi are sensor positions, vi are sensormeasurements
• For time-varying sensor data: S istime-varying, but the pi stay fixed
• For mobile sensors: The pi vary as well• Analysis of sensor data requires
reconstructing the measured field first
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Interpreting Sensor Network Data
• Leads to three levels of scattered dataproblems• Static sites and static values• Static sites and dynamic values• Dynamic sites and dynamic values
• Additional fourth level: Optimizing sensorplacement based on reconstruction result
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Existing Scattered Data Methods
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Scattered Data Interpolation
• Defined by distance metric d: D × D → R+
• Several classifications possible• Direct (gridless) methods: Rely only on d
• Indirect (grid-based) methods: Constructgrid on D (based on d), and use grid toreconstruct F
• Global methods: Use all samples toevaluate F (p)
• Local methods: Use only samples “close”to p to evaluate F (p)
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Example Data Set
• Interpret color image as trivariate scattereddata by sampling at 1600 “random” positions
• Source image: Digital photo (400 × 300 pixel)
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Shepard’s Global Method
• Shepard’s formula:
F (p) :=
N∑
i=1
1
d2(p, pi)vi
N∑
i=1
1
d2(p, pi)
F (p) :=
vi if ∃ i : d(pi, p) = 0N
∑
i=1
1
d2(p, pi)vi
N∑
i=1
1
d2(p, pi)
otherwise
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Shepard’s Global Method
• Shepard’s formula:
F (p) :=
vi if ∃ i : d(pi, p) = 0N
∑
i=1
1
d2(p, pi)vi
N∑
i=1
1
d2(p, pi)
otherwise
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Shepard’s Global Method
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Shepard’s Local Method
• Find k nearest neighbours of point p in S
• Evaluate Shepard’s formula for those k points
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Shepard’s Local Method
k = 1:
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Shepard’s Local Method
k = 10:
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Shepard’s Local Method
k = 100:
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Hardy’s Global Method
• Construct N × N -matrix H := ((hij)),hij := (d2(pi, pj) + R2)α for parameters R2, α
• Solve linear system(v1, . . . , vN) = H · (c1, . . . , cN)
• Hardy’s formula:
F (p) :=N
∑
i=1
(d2(p, pi) + R2)αci
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Hardy’s Global Method
R2 = 1.0, α = 0.5:
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Hardy’s Global Method
R2 = 10.0, α = 0.5:
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Hardy’s Global Method
R2 = 100.0, α = 0.5:
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Hardy’s Global Method
R2 = 1.0, α = 0.5:
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Hardy’s Global Method
R2 = 1.0, α = 0.1:
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Hardy’s Local Method
• Find k nearest neighbours of point p in S
• Construct matrix H for those k points• Solve linear system for (c1, . . . , ck)
• Evaluate Hardy’s formula for those k
coefficients
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Hardy’s Local Method
R2 = 1.0, α = 0.5, k = 10:
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Hardy’s Local Method
R2 = 1.0, α = 0.5, k = 100:
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Sibson’s Method
• Create Voronoï diagram V of points pi
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Sibson’s Method
• “Tentatively” insert point p into V
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Sibson’s Method
• “Tentatively” insert point p into V
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Sibson’s Method
• Calculate areas Aj of intersecting p’s Voronoï tilewith tiles of k surrounding points pij
pi1
A1
A4
A3
A2
pi2
pi3
pi4
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Sibson’s Method
• Sibson’s formula:
F (p) =
k∑
j=1
Ajvij
k∑
j=1
Aj
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Sibson’s Method
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Triangulation Method
• Create (Delaunay) triangulation T of points pi
• Find triangle ti containing point p
• Linearly interpolate values at vertices of ti atposition p
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Triangulation Method
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Optimal Triangulation Method
• Reconstruct F using triangulation of sites• Optimize site positions based on estimated
reconstruction error• Can yield superior approximation quality
using same number of samples
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Optimal Triangulation Method
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Limitations of Previous Methods
• Described methods are based on Euclideanmetric d(p, q) := (p − q)2
• Methods assume compact convex domain D,i. e., no obstacles
• Wrong assumption for building interiors!• Solution: Define distance metric for buildings• First: Need to represent complex domains
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Representation of ComplexDomains
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Representing Complex Domains
• Example domain: Hallway with offices
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Representing Complex Domains
• Fundamental idea: Represent domain as unionof convex polyhedral sectors explicitly connectedby portal polygons
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Representing Complex Domains
• Fundamental idea: Represent domain as unionof convex polyhedral sectors explicitly connectedby portal polygons
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Representing Complex Domains
• Leads to representation of domain as undirectedgraph
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Current State and Outlook
• Domain representation data structure in place• Need tool to generate domain representation
from• Architectural blueprints• CAD models• . . .
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Distance Metric for Complex Domains
• Calculating distance between two query points
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Distance Metric for Complex Domains
• Euclidean metric would ignore boundaries
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Distance Metric for Complex Domains
• Determine sector(s) containing query points
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Distance Metric for Complex Domains
• Consider graph to find path between sectors
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Distance Metric for Complex Domains
• Graph traversal yields sequence of portals tocross
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Distance Metric for Complex Domains
• Cross portals through their centroids initially
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Distance Metric for Complex Domains
• Optimize placement of intermediate points
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Distance Metric for Complex Domains
• Optimize placement of intermediate points
Sensorwebs-CITRIS seminar – p.28
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Metric Properties
• If there exists a direct line-of-sight betweentwo query points, the described metric agreeswith the Euclidean metric⇒ Artificial (and arbitrary) boundaries
introduced by domain decomposition donot influence distances
• Metric can be computed efficiently
Sensorwebs-CITRIS seminar – p.29
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Metric Properties
• Metric can be used as drop-in replacementfor Euclidean metric in Shepard’s and Hardy’smethod
• Metric defines Voronoï diagram (andDelaunay triangulation) for Sibson’s andtriangulation method• Shape of Voronoï tiles?• Efficient computation?
Sensorwebs-CITRIS seminar – p.30
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Current State and Outlook
• One graduate student working onoptimization algorithm
• One undergraduate student will soon startworking on scattered data methodscompatible with metric
Sensorwebs-CITRIS seminar – p.31
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Visualizing Sensor Network Data
Sensorwebs-CITRIS seminar – p.32
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Visualization Strategy
• Basic idea: To visualize sensor data incontext, combine rendering of domainboundaries with data visualization
• Domain representation is also efficient forinteractive walk-throughs
• Sensor data can be reconstructed andvisualized separately in each sector
• Since each sector is a convex polyhedron,standard visualization methods can be used
Sensorwebs-CITRIS seminar – p.33
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Per-Sector Visualization
• Single sector is convex polyhedron
Sensorwebs-CITRIS seminar – p.34
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Per-Sector Visualization
• Overlay sector with regular grid
Sensorwebs-CITRIS seminar – p.34
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Per-Sector Visualization
• Generate isosurface using Marching Cubes
Sensorwebs-CITRIS seminar – p.34
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Per-Sector Visualization
• Generate slices for volume rendering
Sensorwebs-CITRIS seminar – p.34
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Visualizing Entire Domain
Sensorwebs-CITRIS seminar – p.35
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Visualizing Entire Domain
Sensorwebs-CITRIS seminar – p.35
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Visualizing Entire Domain
Sensorwebs-CITRIS seminar – p.35
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Visualizing Entire Domain
Sensorwebs-CITRIS seminar – p.35
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Visualizing Entire Domain
Sensorwebs-CITRIS seminar – p.35
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Current State and Outlook
• Walk-throughs of complex domains will be
done Real Soon NowTM
• Walk-through will double as tool to “polish”sensor data input
• Sensor data visualization will be integratedwhen metric and scattered data method arein place
• Visualization will run in desktop and VirtualReality environment
Sensorwebs-CITRIS seminar – p.36
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Conclusions
Sensorwebs-CITRIS seminar – p.37
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Short-Term Goal
• Combine• domain representation• distance metric calculation• (direct) scattered data interpolation method
to visualize static sensor network data insidebuildings
Sensorwebs-CITRIS seminar – p.38
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Long-Term Goals
• Analyze sensor network data based onreconstruction
• Move to indirect (grid-based) scattered datamethods
• Move to time-varying and dynamic sensordata
• Optimize sensor placement based onreconstruction
Sensorwebs-CITRIS seminar – p.39
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The End
Sensorwebs-CITRIS seminar – p.40