Lechervy, Y.,
Louis, C.,
Monga, O.,
Crestlines Contribution to the Automatic Building Extraction,
Ascona97(161-172).
Use a stereo pair, and a DSM. Crestlines correspond to ridges on roofs.
BibRef
9700
Frere, D.,
Hendrickx, M.,
Vandekerckhove, J.,
Moons, T.,
Van Gool, L.J.,
On the Reconstruction of Urban House Roofs from Aerial Images,
Ascona97(87-96).
See also Automatic Extraction of Generic House Roofs from High Resolution Aerial Imagery. Generate polygons that are uniform, with shapes that correspond
to roofs.
BibRef
9700
Moons, T.[Theo],
Frère, D.[David],
Vandekerckhove, J.[Jan],
Van Gool, L.J.[Luc J.],
Automatic Modelling and 3-D Reconstruction of Urban House Roofs
from High Resolution Aerial Imagery,
ECCV98(I: 410-425).
WWW Version.
BibRef
9800
Kriegel, H.P.[Hans-Peter],
Seidl, T.[Thomas],
Approximation-Based Similarity Search for 3-D Surface Segments,
GeoInfo(2), No. 2, June 1998, pp. 113-147.
WWW Version.
BibRef
9806
Baillard, C.,
Maître, H.,
3-D Reconstruction of Urban Scenes from Aerial Stereo Imagery:
A Focusing Strategy,
CVIU(76), No. 3, December 1999, pp. 244-258.
WWW Version.
0001
BibRef
Dissard, O.,
Baillard, C.,
Maitre, H.,
Jamet, O.,
Above-Ground Objects in Urban Scenes from Medium Scale Aerial Imagery,
Ascona97(183-192).
See also Extraction and Textural Characterization of Aboveground Areas from Aerial Stereo Pairs: A Quality Assessment.
BibRef
9700
Baillard, C.[Caroline],
Dissard, O.,
A Stereo Matching Algorithm for Urban Digital Elevation Models,
PhEngRS(66), No. 9, September 2000, pp. 1119-1128.
0010
BibRef
Earlier:
Segmentation of Urban Scenes from Aerial Stereo Imagery,
ICPR98(Vol II: 1405-1407).
IEEE DOI Link
9808
BibRef
Baillard, C.[Caroline],
A Hybrid Method for Deriving DTMs from Urban DEMs,
ISPRS08(B3b: 109 ff).
PDF Version.
0807
BibRef
Earlier:
Production of Urban DSMs Combining 3D Vector Data and Stereo Aerial
Imagery,
PIA05(xx-yy).
PDF Version.
0509
BibRef
Brandou, V.[Vincent],
Baillard, C.[Caroline],
Gable Roof Detection in Terrestrial Images,
PIA11(97-108).
Springer DOI Link
1110
BibRef
Baillard, C.[Caroline],
Zisserman, A.[Andrew],
Automatic Reconstruction of Piecewise Planar Models from Multiple Views,
CVPR99(II: 559-565).
IEEE Abstract.
IEEE DOI Link
See also Surface Reconstruction from Multiple Aerial Images in Dense Urban Areas.
BibRef
9900
Zisserman, A.,
Schaffalitzky, F.,
Werner, T.,
Fitzgibbon, A.W.,
Automated reconstruction from multiple photographs,
ICIP02(III: 517-520).
IEEE Abstract.
0210
Generate a depth model and take regions in front or
behind the main surface for windows.
BibRef
Werner, T.,
Zisserman, A.,
New Techniques for Automated Architectural Reconstruction from
Photographs,
ECCV02(II: 541 ff.).
HTML Version.
0205
BibRef
And:
Model selection for automated reconstruction from multiple views,
BMVC02(Reconstruction).
0208
Similar to Facade approach (
See also Modeling and Rendering Architecture from Photographs: A Hybrid Geometry- and Image-Based Approach. ).
BibRef
Schmid, C.[Cordelia],
Zisserman, A.[Andrew],
The Geometry and Matching of Lines and Curves Over Multiple Views,
IJCV(40), No. 3, December 2000, pp. 199-233.
WWW Version. line, curve matching, curve, conic transfer
0102
BibRef
Earlier:
The geometry and matching of curves in multiple views,
ECCV98(I: 394).
WWW Version.
BibRef
Schmid, C.,
Zisserman, A.,
Automatic Line Matching Across Views,
CVPR97(666-671).
IEEE Abstract.
IEEE DOI Link
9704
Both 2- and 3-frame constraints. Correlation based match technique.
BibRef
Baillard, C.,
Schmid, C.,
Zisserman, A.,
Fitzgibbon, A.W.,
Automatic Line Matching and 3D Reconstruction of Buildings
from Multiple Views,
ISPRSGIS99(69-80).
The IMPACT Project
Works with 6 images, but 4 (3 in a line, 1 above/below) would
probably work. Very high resolution data.
Find matching lines in 3-D. Generate surfaces as half-planes. Generate
new lines from intersections of these surfaces.
BibRef
9900
Heuel, S.,
Förstner, W.,
Topological and Geometrical Models for Building Reconstruction from
Multiple Images,
Ascona01(13-24).
Use topology and uncertainity. Reason about polyhedral surfaces.
0201
BibRef
Heuel, S.[Stephan],
Förstner, W.[Wolfgang],
Matching, Reconstructing and Grouping 3D Lines From Multiple Views
Using Uncertain Projective Geometry,
CVPR01(II:517-524).
IEEE Abstract.
HTML Version.
0110
BibRef
Heuel, S.[Stephan],
Uncertain Projective Geometry:
Statistical Reasoning for Polyhedral Object Reconstruction,
Springer2004.
ISBN: 978-3-540-22029-9
BibRef
0400
LNCS3008.
WWW Version.
Geometric Reasoning. Book from his thesis.
BibRef
Heuel, S.,
Points, Lines and Planes and their Optimal Estimation,
DAGM01(xx-yy).
HTML Version.
BibRef
0100
Maas, H.G.[Hans-Gerd],
Vosselman, G.[George],
Two algorithms for extracting building models from raw laser altimetry
data,
PandRS(54), No. 2-3, July 1999, pp. 153-163.
BibRef
9907
Maas, H.G.[Hans-Gerd],
Closed Solutions for the Determination of Parametric Building Models
from Invariant Moments of Airborne Laserscanner Data,
ISPRSGIS99(193-200).
Same data as Vosselman (
See also Building Reconstruction Using Planar Faces in Very High Density Height Data. ),
but solves parametric models of roofs from
the data. Finds small dormer windows.
BibRef
9900
Maas, H.G.,
The Suitability for Airborne Laser Scanner Data for Automatic 3D Object
Reconstruction,
Ascona01(291-296).
Data is well suited to digital analysis, but image data is still important.
0201
BibRef
Suveg, I.[Ildiko],
Vosselman, G.[George],
Reconstruction of 3D building models from aerial images and maps,
PandRS(58), No. 3-4, January 2004, pp. 202-224.
WWW Version.
0411
BibRef
Earlier:
Mutual information based evaluation of 3D building models,
ICPR02(III: 557-560).
IEEE DOI Link
0211
BibRef
Earlier:
Localization and Generation of Building Models,
PCV02(A: 356).
0305
BibRef
Earlier:
Knowledge based reconstruction of buildings,
CIAP01(484-489).
IEEE Top Reference.
0210
BibRef
Earlier:
3D Building Reconstruction by Map Based Generation and Evaluation of
Hypotheses,
BMVC01(Session 7: Geometry &. Structure).
HTML Version. Delft University of Technology
0110
BibRef
Vosselman, G.,
Suveg, I.,
Map Based Building Reconstruction from Laser Data and Images,
Ascona01(231-239).
Use large scale maps for approximate descriptions. Roof faces from laser
data.
0201
BibRef
Pu, S.[Shi],
Vosselman, G.[George],
Knowledge based reconstruction of building models from terrestrial
laser scanning data,
PandRS(64), No. 6, November 2009, pp. 575-584.
Elsevier DOI Link
WWW Version.
1001
Building reconstruction; Terrestrial laser scanning; Feature extraction
BibRef
Tian, Y.X.[Yi-Xiang],
Gerke, M.[Markus],
Vosselman, G.[George],
Zhu, Q.[Qing],
Knowledge-based building reconstruction from terrestrial video
sequences,
PandRS(65), No. 4, July 2010, pp. 395-408.
Elsevier DOI Link
WWW Version.
1003
Facade; Reconstruction; Knowledge; Image sequence
BibRef
Vosselman, G.[George],
Building Reconstruction Using Planar Faces in Very High Density Height
Data,
ISPRSGIS99(87-92).
Cluster planer faces, find connected components, generate 2D building outline,
generate planar (polygonal) roof faces.
BibRef
9900
Vosselman, G.[George],
On the Estimation of Planimetric Offsets in Laser Altimetry Data,
PCV02(A: 375).
0305
BibRef
Brunn, A.[Ansgar],
Statistical Interpretation of DEM and Image Data for Building
Extraction,
Ascona01(171-180).
0201
BibRef
Earlier:
A step towards semantic-based building reconstruction using
Markov-random-fields,
ISPRS00(3A, pp.117 - 124).
Refinement of data.
Bayes analysis.
BibRef
Brunn, A.[Ansgar],
Semantik-basierte Gebäudeerfassung mit verkoppelten
Markoff-Zufallsfeldern,
Ph.D.Thesis, 2000.
Institut für Photogrammetrie der Universität Bonn.
HTML Version.
BibRef
0001
Scholze, S.[Stephan],
Moons, T.[Theo],
Van Gool, L.J.[Luc J.],
A Probabilistic Approach to Building Roof Reconstruction Using Semantic
Labelling,
DAGM02(257 ff.).
HTML Version.
0303
BibRef
And:
A Probabilistic Approach to Roof Extraction and Reconstruction,
PCV02(B: 231).
0305
BibRef
Earlier:
A Probabilistic Approach to Roof Patch Extraction and Reconstruction,
Ascona01(195-204).
Planar patches from DEM. Initial patches, verified, combined.
Turn patches into polygons.
0201
BibRef
Khoshelham, K.[Kourosh],
Li, Z.L.[Zhi-Lin],
A Split-and-Merge Technique for Automated Reconstruction of Roof Planes,
PhEngRS(71), No. 7, July 2005, pp. 855-863.
A new technique for automated reconstruction of planar building roofs by fusion of image and height data.
WWW Version.
0509
BibRef
Khoshelham, K.,
Region Refinement and Parametric Reconstruction of Building Roofs by
Integration of Image and Height Data,
CMRT05(xx-yy).
PDF Version.
0508
BibRef
Avrahami, Y.[Yair],
Raizman, Y.[Yuri],
Doytsher, Y.[Yerach],
A Polygonal Approach for Automation in Extraction of Serial Modular
Roofs,
PhEngRS(74), No. 11, November 2008, pp. 1365-1378.
WWW Version.
0804
BibRef
Earlier:
Extraction of 3D Spatial Polygons Based on the Overlapping Criterion
for Roof Extraction from Aerial Images,
CMRT05(xx-yy).
PDF Version.
0508
A novel approach for automation in roof extraction from aerial images
based on the assumption that roofs are composed of several spatial
polygons, and automation in extracting these polygons can lead to
automation in roof extraction.
See also Reconstruction of Complex Shape Buildings from Lidar Data Using Free Form Surfaces.
BibRef
Kim, K.H.[Kyo-Hyouk],
Shan, J.[Jie],
Building roof modeling from airborne laser scanning data based on level
set approach,
PandRS(66), No. 4, July 2011, pp. 484-497.
Elsevier DOI Link
WWW Version.
1107
LiDAR (Light Detection And Ranging); Level set; Multiphase level set;
Segmentation; Building reconstruction
BibRef
El Merabet, Y.[Youssef],
Meurie, C.[Cyril],
Ruichek, Y.[Yassine],
Sbihi, A.[Abderrahmane],
Touahni, R.[Rajaa],
Orthophotoplan Segmentation and Colorimetric Invariants for Roof
Detection,
CIAP11(II: 394-403).
Springer DOI Link
1109
BibRef
Hazelhoff, L.[Lykele],
de With, P.H.N.[Peter H. N.],
Robust Model-Based Detection of Gable Roofs in Very-High-Resolution
Aerial Images,
CAIP11(I: 598-605).
Springer DOI Link
1109
BibRef
Bannehr, L.,
Luhmann, T.,
Piechel, J.,
Roelfs, T.,
Schmidt, A.,
Extracting Roof Parameters and Heat Bridges over the City of Oldenburg
from Hyperspectral-, Thermal-, and Airborne Laser Scanning Data,
HighRes11(xx-yy).
PDF Version.
1106
BibRef
Rottensteiner, F.[Franz],
Roof plane segmentation by combining multiple images and point clouds,
PCVIA10(A:245).
PDF Version.
1009
BibRef
Krauss, T.[Thomas],
Reinartz, P.[Peter],
Enhancement of dense urban digital surface models from VHR optical
satellite stereo data by pre-segmentation and object detection,
CGC10(29).
PDF Version.
1006
BibRef
Wang, Q.C.[Qiong-Chen],
Jiang, Z.G.[Zhi-Guo],
Yang, J.L.[Jun-Li],
Zhao, D.[Danpei],
Shi, Z.W.[Zhen-Wei],
Gable Roof Description by Self-Avoiding Polygon,
ACCV09(III: 162-171).
Springer DOI Link
0909
BibRef
Izadi, M.[Mohammad],
Saeedi, P.[Parvaneh],
Automatic Building Detection in Aerial Images Using a Hierarchical
Feature Based Image Segmentation,
ICPR10(472-475).
IEEE DOI Link
1008
BibRef
Nosrati, M.S.[Masoud S.],
Saeedi, P.[Parvaneh],
Rooftop detection using a corner-leaping based contour propagation
model,
IPTA10(264-269).
IEEE DOI Link
1007
BibRef
Earlier:
A novel approach for polygonal rooftop detection in satellite/aerial
imageries,
ICIP09(1709-1712).
IEEE DOI Link
0911
BibRef
Shi, F.H.[Fan-Huai],
Xi, Y.J.[Yong-Jian],
Li, X.L.[Xiao-Ling],
Duan, Y.[Ye],
Rooftop Detection and 3D Building Modeling from Aerial Images,
ISVC09(II: 817-826).
Springer DOI Link
0911
BibRef
Lu, T.[Tong],
Yang, Y.[Yubin],
Su, F.[Feng],
Sun, Z.X.[Zheng-Xing],
Semi-automatic Roof Reconstruction,
ICDAR09(723-727).
IEEE DOI Link
0907
Based on drawings?
BibRef
Drauschke, M.[Martin],
Roscher, R.[Ribana],
Läbe, T.[Thomas],
Förstner, W.[Wolfgang],
Improving Image Segmentation using Multiple View Analysis,
CMRT09(211-216).
PDF Version.
0909
Use depth from multiple views. E.g. planar roof structures from
multiple images.
BibRef
Engels, J.,
Arefi, H.,
Hahn, M.,
Generation of Roof Topologies Using Plane Fitting with RANSAC,
ISPRS08(B3a: 119 ff).
PDF Version.
0807
BibRef
Huang, X.F.[Xian-Feng],
A Competition Based Roof Detection Algorithm from Airborne LIDAR Data,
ISPRS08(B3b: 319 ff).
PDF Version.
0807
BibRef
Jaw, J.J.,
Cheng, C.C.,
Building Roof Reconstruction by Fusing Laser Range Data and Aerial
Images,
ISPRS08(B3b: 707 ff).
PDF Version.
0807
BibRef
Song, Z.Y.[Zong-Ying],
Pan, C.H.[Chun-Hong],
Yang, Q.,
Li, F.X.[Fu-Xin],
Li, W.[Wei],
Building Roof Detection from a Single High-Resolution Satellite Image
in Dense Urban Area,
ISPRS08(B3a: 271 ff).
PDF Version.
0807
BibRef
Song, Z.Y.[Zong-Ying],
Pan, C.H.[Chun-Hong],
Yang, Q.,
A Region-Based Approach to Building Detection in Densely Build-Up High
Resolution Satellite Image,
ICIP06(3225-3228).
IEEE DOI Link
0610
BibRef
Earlier:
A Bayesian Approach for Building Detection in Densely Build-Up High
Resolution Satellite Image,
ICIAR06(II: 710-721).
Springer DOI Link
0610
BibRef
Manea, G.,
Calin, A.,
Architectural photogrammetry an extension of conventional surveying,
IEVM06(xx-yy).
PDF Version.
0609
BibRef
Jutzi, B.[Boris],
Stilla, U.[Uwe],
Precise Range Estimation on Known Surfaces by Analysis of Full-Waveform
Laser,
PCV06(xx-yy).
PDF Version.
0609
BibRef
Jutzi, B.[Boris],
Stilla, U.[Uwe],
Laser Pulse Analysis for Reconstruction and Classification of Urban
Objects,
PIA05(xx-yy).
PDF Version.
0509
BibRef
Rottensteiner, F.,
Trinder, J.,
Clode, S.,
Kubik, K.,
Automated delineation of roof planes from LiDAR data,
Laser05(xx-yy).
PDF Version.
0509
BibRef
Lin, S.Y.,
Mills, J.P.,
A non-contact monitoring system for investigating as-built membrane
roof structures,
IEVM06(xx-yy).
PDF Version.
0609
BibRef
Fisher, R.B.,
Solving architectural modelling problems using knowledge,
3DIM03(343-351).
IEEE Abstract.
0311
BibRef
Cantzler, H.,
Fisher, R.B.,
Devy, M.,
Improving architectural 3D reconstruction by plane and edge
constraining,
BMVC02(Reconstruction).
0208
BibRef
Edinburgh
BibRef
Bignone, F.,
Henricsson, O.,
Fua, P.,
Stricker, M.,
Automatic Extraction of Generic House Roofs from
High Resolution Aerial Imagery,
ECCV96(I:83-96).
Springer DOI Link
Data Fusion. Complex (house) roof extraction. Combine 2-D edges, photometric,
color, and 3-D information.
BibRef
9600
Chapter on Cartography, Aerial Images, Remote Sensing, Buildings, Roads, Terrain, ATR continues in
Buildings from Single Image, Shape Analysis, Color, Shadows .