24.3.2.1 Buildings from Terrestrial Laser Data, Mobile Scanners, Ground-Based LiDAR

Chapter Contents (Back)
Lidar. Terrestrial Laser.
See also Register Terrestrial Laser Scanner Point Cloud Data, TLS.
See also Building Footprints.
See also Building Facades, Ground Level Images.

Sequeira, V.[Vítor], Ng, K.[Kia], Wolfart, E.[Erik], Gonçalves, J.G.M.[João G.M.], Hogg, D.C.[David C.],
Automated reconstruction of 3D models from real environments,
PandRS(54), No. 1, 15-February 1999, pp. 1-22.
Elsevier DOI Award, ISPRS. BibRef 9902

Wolfart, E.[Erik], Sequeira, V.[Vítor], Ng, K.[Kia], Butterfield, S.[Stuart], Gonçalves, J.G.M.[João G.M.], Hogg, D.C.[David C.],
Hybrid Approach to the Construction of Triangulated 3D Models of Building Interiors,
CVS99(489 ff.).
Springer DOI 0209
BibRef

Klein, K.[Konrad], Sequeira, V.[Vitor],
The View Cube: An Efficient Method of View Planning for 3d Modelling from Range Data,
WACV00(186-191).
IEEE DOI 0010
Partly planning approach. Use the faces of the cube as image planes to render the 3-D surfaces. Fast index method to find out where you need to go to look. BibRef

Boström, G., Fiocco, M., Gonçalves, J.G.M., Sequeira, V.,
Urban 3D modelling using terrestrial laserscanners,
IEVM06(xx-yy).
PDF File. 0609
BibRef
Earlier: A2, A1, A3, A4:
Multisensor fusion for volumetric reconstruction of large outdoor areas,
3DIM05(47-54).
IEEE DOI 0508
BibRef

Bostrom, G., Fiocco, M., Puig, D., Rossini, A., Goncalves, J.G.M., Sequeira, V.,
Acquisition, modelling and rendering of very large urban environments,
3DPVT04(191-198).
IEEE DOI 0412
BibRef

Zhao, H.J.[Hui-Jing], Shibasaki, R.[Ryosuke],
Reconstructing a textured CAD model of an urban environment using Vehicle-borne Laser Range Scanners and Line Cameras,
MVA(14), No. 1, 2003, pp. 35-41.
Springer DOI 0304
BibRef
Earlier:
Reconstructing Textured CAD Model or Urban Environment using Vehicle-borne Laser Range Scanners and Line Cameras,
CVS01(284-297).
Springer DOI 0106
BibRef

Zhao, H.J.[Hui-Jing], Shibasaki, R.[Ryosuke],
A vehicle-borne urban 3-D acquisition system using single-row laser range scanners,
SMC-B(33), No. 4, August 2003, pp. 658-666.
IEEE Abstract. 0308
BibRef
Earlier:
Reconstructing urban 3D model using vehicle-borne laser range scanners,
3DIM01(349-356).
IEEE DOI 0106
BibRef
Earlier:
Reconstruction Textured Urban 3d Model by Fusing Ground-based Laser Range Image and CCD Image,
MVA98(xx-yy). BibRef

Zhao, H.J.[Hui-Jing], Shibasaki, R.[Ryosuke],
Updating A Digital Geographic Database using Vehicle-borne Laser Scanners and Line Cameras,
PhEngRS(71), No. 4, April 2005, pp. 415-424. Fuse the output of a mobile mapping system with laser scanners and line cameras with an existing geographic database.
WWW Link. 0509
BibRef

Zhang, Q.S.[Quan-Shi], Song, X.[Xuan], Shao, X.W.[Xiao-Wei], Zhao, H.J.[Hui-Jing], Shibasaki, R.[Ryosuke],
Learning Graph Matching: Oriented to Category Modeling from Cluttered Scenes,
ICCV13(1329-1336)
IEEE DOI 1403
BibRef
And: A1, A2, A3, A5, A4:
Category Modeling from Just a Single Labeling: Use Depth Information to Guide the Learning of 2D Models,
CVPR13(193-200)
IEEE DOI 1309
Attributed Relational Graphs; Learning Graph Matching; Model Learning. Graph matching; Object detection; RGBD images BibRef

Monserrat, O., Crosetto, M.,
Deformation measurement using terrestrial laser scanning data and least squares 3D surface matching,
PandRS(63), No. 1, January 2008, pp. 142-154.
Elsevier DOI 0711
Laser scanning; TLS; Point cloud; Estimation; Matching; Error; Landslides BibRef

Monserrat, O., Crosetto, M., Pucci, B.,
TLS Deformation Measurement Using LS3D Surface and Curve Matching,
ISPRS08(B5: 591 ff).
PDF File. 0807
BibRef

Crosetto, M., Monserrat, O., Jungner, A., Crippa, B.,
Persistent Scatterer Interferometry: potential and limits,
HighRes09(xx-yy).
PDF File. 0906
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 1001
Building reconstruction; Terrestrial laser scanning; Feature extraction
See also Reconstruction of 3D building models from aerial images and maps. 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 1003
Facade; Reconstruction; Knowledge; Image sequence BibRef

Tian, Y., Zhu, Q., Gerke, M., Vosselman, G.,
Knowledge-based topological reconstruction for building facade surface patches,
3DARCH09(xx-yy).
PDF File. 0902
BibRef

Kim, E.[Eunyoung], Medioni, G.[Gerard],
Urban scene understanding from aerial and ground LIDAR data,
MVA(22), No. 4, July 2011, pp. 691-703.
WWW Link. 1107
BibRef
Earlier:
Dense Structure Inference for Object Classification in Aerial LIDAR Dataset,
ICPR10(3049-3052).
IEEE DOI 1008
BibRef

Kim, E.[Eunyoung], Medioni, G.,
Scalable Object Classification Using Range Images,
3DIMPVT11(65-72).
IEEE DOI 1109
BibRef

Zhu, L.L., Hyyppä, J., Kukko, A., Kaartinen, H., Chen, R.,
Photorealistic Building Reconstruction from Mobile Laser Scanning Data,
RS(3), No. 7, July 2011, pp. 1406-1426.
DOI Link 1203
BibRef

Zhu, L.L.[Ling-Li], Lehtomäki, M.[Matti], Hyyppä, J.[Juha], Puttonen, E.[Eetu], Krooks, A.[Anssi], Hyyppä, H.[Hannu],
Automated 3D Scene Reconstruction from Open Geospatial Data Sources: Airborne Laser Scanning and a 2D Topographic Database,
RS(7), No. 6, 2015, pp. 6710.
DOI Link 1507
BibRef

Zhu, L.L.[Ling-Li], Hyyppa, J.[Juha],
The Use of Airborne and Mobile Laser Scanning for Modeling Railway Environments in 3D,
RS(6), No. 4, 2014, pp. 3075-3100.
DOI Link 1405

See also Fully-Automated Power Line Extraction from Airborne Laser Scanning Point Clouds in Forest Areas. BibRef

Zhu, L.L.[Ling-Li], Jaakkola, A., Hyyppa, J.[Juha],
The Use of Mobile Laser Scanning Data and Unmanned Aerial Vehicle Images for 3D Model Reconstruction,
UAV-g13(419-423).
DOI Link 1311
BibRef

Alba, M., Barazzetti, L., Scaioni, M., Rosina, E., Previtali, M.,
Mapping Infrared Data on Terrestrial Laser Scanning 3D Models of Buildings,
RS(3), No. 9, September 2011, pp. 1847-1870.
DOI Link 1203
BibRef

Nothegger, C.[Clemens], Dorninger, P.[Peter],
3D Filtering of High-Resolution Terrestrial Laser Scanner Point Clouds for Cultural Heritage Documentation,
PFG(2009), No. 1, 2009, pp. 53-63.
WWW Link. 1211
BibRef
Earlier: A2, A1:
3D Segmentation of Unstructured Point Clouds for Building Modelling,
PIA07(191).
PDF File. 0711
BibRef

González-Aguilera, D.[Diego], Gómez-Lahoz, J.[Javier],
Laserscanning or image-based modeling? A comparative through the modelization of San Nicolas Church,
IEVM06(xx-yy).
PDF File. 0609
BibRef

González-Aguilera, D.[Diego], Gómez-Lahoz, J.[Javier], Finat, J., Martinez-Rubio, J., Fernandez-Martin, J.J., San José-Alonso, J.I.,
Terrestrial laserscanning and low-cost aerial Photogrammetry in the archaeological modelling of a Jewish tanneries,
IEVM06(xx-yy).
PDF File. 0609
BibRef

Serna, A.[Andrés], Marcotegui, B.[Beatriz],
Urban accessibility diagnosis from mobile laser scanning data,
PandRS(84), No. 0, 2013, pp. 23-32.
Elsevier DOI 1309
Accessibility BibRef

Virtanen, J.P.[Juho-Pekka], Hyyppä, H.[Hannu], Kurkela, M.[Matti], Vaaja, M.[Matti], Alho, P.[Petteri], Hyyppä, J.[Juha],
Rapid Prototyping: A Tool for Presenting 3-Dimensional Digital Models Produced by Terrestrial Laser Scanning,
IJGI(3), No. 3, 2014, pp. 871-890.
DOI Link 1407
BibRef

Wang, Z.[Zhen], Zhang, L.Q.[Li-Qiang], Fang, T.[Tian], Mathiopoulos, P.T., Tong, X.H.[Xiao-Hua], Qu, H.M.[Hua-Min], Xiao, Z.Q.[Zhi-Qiang], Li, F.[Fang], Chen, D.[Dong],
A Multiscale and Hierarchical Feature Extraction Method for Terrestrial Laser Scanning Point Cloud Classification,
GeoRS(53), No. 5, May 2015, pp. 2409-2425.
IEEE DOI 1502
buildings (structures) BibRef

Yang, B.S.[Bi-Sheng], Dong, Z.[Zhen], Zhao, G.[Gang], Dai, W.X.[Wen-Xia],
Hierarchical Extraction of Urban Objects from Mobile Laser Scanning Data,
PandRS(99), No. 1, 2015, pp. 45-57.
Elsevier DOI 1502
Mobile laser scanning BibRef

Wang, Y.[Yu], Cheng, L.[Liang], Chen, Y.M.[Yan-Ming], Wu, Y.[Yang], Li, M.C.[Man-Chun],
Building Point Detection from Vehicle-Borne LiDAR Data Based on Voxel Group and Horizontal Hollow Analysis,
RS(8), No. 5, 2016, pp. 419.
DOI Link 1606

See also Extraction of Urban Power Lines from Vehicle-Borne LiDAR Data. BibRef

Mahmoudabadi, H.[Hamid], Olsen, M.J.[Michael J.], Todorovic, S.[Sinisa],
Efficient terrestrial laser scan segmentation exploiting data structure,
PandRS(119), No. 1, 2016, pp. 135-150.
Elsevier DOI 1610
Terrestrial laser scanning. Laser, range, normals, and color. BibRef

Li, Y.[Yan], Hu, Q.W.[Qing-Wu], Wu, M.[Meng], Liu, J.M.[Jian-Ming], Wu, X.[Xuan],
Extraction and Simplification of Building Façade Pieces from Mobile Laser Scanner Point Clouds for 3D Street View Services,
IJGI(5), No. 12, 2016, pp. 231.
DOI Link 1612
BibRef

Kurazume, R.[Ryo], Oshima, S.[Souichiro], Nagakura, S.[Shingo], Jeong, Y.J.[Yong-Jin], Iwashita, Y.[Yumi],
Automatic large-scale three dimensional modeling using cooperative multiple robots,
CVIU(157), No. 1, 2017, pp. 25-42.
Elsevier DOI 1704
Laser measurement BibRef

Kurazume, R.[Ryo], Tobata, Y.[Yukihiro], Iwashita, Y.[Yumi], Hasegawa, T.[Tsutomu],
3D laser measurement system for large scale architectures using multiple mobile robots,
3DIM07(91-98).
IEEE DOI 0708
BibRef

Xiao, W.[Wen], Vallet, B.[Bruno], Brédif, M.[Mathieu], Paparoditis, N.[Nicolas],
Street environment change detection from mobile laser scanning point clouds,
PandRS(107), No. 1, 2015, pp. 38-49.
Elsevier DOI 1508
Change detection BibRef

Xiao, W.[Wen], Vallet, B.[Bruno], Schindler, K.[Konrad], Paparoditis, N.[Nicolas],
Street-side vehicle detection, classification and change detection using mobile laser scanning data,
PandRS(114), No. 1, 2016, pp. 166-178.
Elsevier DOI 1604
Feature extraction BibRef

Hammoudi, K.[Karim], Dornaika, F.[Fadi], Paparoditis, N.[Nicolas],
Extracting Building Footprints from 3D Point Clouds using Terrestrial Laser Scanning at Street Level,
CMRT09(65-70).
PDF File. 0909
BibRef

Hammoudi, K.[Karim], Dornaika, F.[Fadi], Soheilian, B.[Bahman], Paparoditis, N.[Nicolas],
Extracting wire-frame models of street façades from 3D point clouds and the corresponding cadastral map,
PCVIA10(A:91).
PDF File. 1009
BibRef

Feng, C.C.[Chen-Chieh], Guo, Z.[Zhou],
Automating Parameter Learning for Classifying Terrestrial LiDAR Point Cloud Using 2D Land Cover Maps,
RS(10), No. 8, 2018, pp. xx-yy.
DOI Link 1809
BibRef

Xia, S.B.[Shao-Bo], Wang, R.S.[Rui-Sheng],
Extraction of Residential Building Instances in Suburban Areas from Mobile LiDAR Data,
PandRS(144), 2018, pp. 453-468.
Elsevier DOI 1809
Mobile LiDAR, Individual buildings, Hypotheses and selection, Point cloud segmentation, Shape prior BibRef

Kumar, B.[Bhavesh], Pandey, G.[Gaurav], Lohani, B.[Bharat], Misra, S.C.[Subhas C.],
A multi-faceted CNN architecture for automatic classification of mobile LiDAR data and an algorithm to reproduce point cloud samples for enhanced training,
PandRS(147), 2019, pp. 80-89.
Elsevier DOI 1901
Convolutional Neural Network (CNN), Automatic classification, Mobile Laser Scanning (MLS), Sample reproduction BibRef

Zheng, M.X.[Ming-Xue], Wu, H.Y.[Hua-Yi], Li, Y.[Yong],
An Adaptive End-to-End Classification Approach for Mobile Laser Scanning Point Clouds Based on Knowledge in Urban Scenes,
RS(11), No. 2, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Luo, H.F.[Hai-Feng], Khoshelham, K.[Kourosh], Fang, L.[Lina], Chen, C.C.[Chong-Cheng],
Unsupervised scene adaptation for semantic segmentation of urban mobile laser scanning point clouds,
PandRS(169), 2020, pp. 253-267.
Elsevier DOI 2011
Mobile laser scanning point clouds, Semantic segmentation, Unsupervised scene adaptation, Deep learning, Transfer learning BibRef

Zhang, Z.Y.[Zhen-Yao], Zheng, J.Y.[Jian-Ying], Xu, H.[Hao], Wang, X.[Xiang], Fan, X.L.[Xue-Liang], Chen, R.[Rong],
Automatic Background Construction and Object Detection Based on Roadside LiDAR,
ITS(21), No. 10, October 2020, pp. 4086-4097.
IEEE DOI 2010
Laser radar, Laser beams, Measurement by laser beam, traffic data BibRef

Li, Y.[Yuan], Wu, B.[Bo],
Relation-Constrained 3D Reconstruction of Buildings in Metropolitan Areas from Photogrammetric Point Clouds,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Chen, M.L.[Mao-Lin], Liu, X.J.[Xiang-Jiang], Zhang, X.[Xinyi], Wang, M.W.[Ming-Wei], Zhao, L.[Lidu],
Building Extraction from Terrestrial Laser Scanning Data with Density of Projected Points on Polar Grid and Adaptive Threshold,
RS(13), No. 21, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Zou, J.J.[Jian-Jun], Zhang, Z.X.[Zhen-Xin], Chen, D.[Dong], Li, Q.H.[Qing-Hua], Sun, L.[Lan], Zhong, R.F.[Ruo-Fei], Zhang, L.Q.[Li-Qiang], Sha, J.H.[Jing-Han],
GACM: A Graph Attention Capsule Model for the Registration of TLS Point Clouds in the Urban Scene,
RS(13), No. 22, 2021, pp. xx-yy.
DOI Link 2112
BibRef

Gonçalves, D.[Diogo], Gonçalves, G.[Gil], Pérez-Alvávez, J.A.[Juan Antonio], Andriolo, U.[Umberto],
On the 3D Reconstruction of Coastal Structures by Unmanned Aerial Systems with Onboard Global Navigation Satellite System and Real-Time Kinematics and Terrestrial Laser Scanning,
RS(14), No. 6, 2022, pp. xx-yy.
DOI Link 2204
BibRef

Tebaldini, S.[Stefano], Manzoni, M.[Marco], Tagliaferri, D.[Dario], Rizzi, M.[Marco], Monti-Guarnieri, A.V.[Andrea Virgilio], Prati, C.M.[Claudio Maria], Spagnolini, U.[Umberto], Nicoli, M.[Monica], Russo, I.[Ivan], Mazzucco, C.[Christian],
Sensing the Urban Environment by Automotive SAR Imaging: Potentials and Challenges,
RS(14), No. 15, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Klapa, P.[Przemyslaw], Gawronek, P.[Pelagia],
Synergy of Geospatial Data from TLS and UAV for Heritage Building Information Modeling (HBIM),
RS(15), No. 1, 2023, pp. xx-yy.
DOI Link 2301
BibRef

Kuprowski, M.[Mateusz], Drozda, P.[Pawel],
Feature Selection for Airbone LiDAR Point Cloud Classification,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Kuras, A.[Agnieszka], Brell, M.[Maximilian], Liland, K.H.[Kristian Hovde], Burud, I.[Ingunn],
Multitemporal Feature-Level Fusion on Hyperspectral and LiDAR Data in the Urban Environment,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Sevgen, E.[Eray], Abdikan, S.[Saygin],
Classification of Large-Scale Mobile Laser Scanning Data in Urban Area with LightGBM,
RS(15), No. 15, 2023, pp. xx-yy.
DOI Link 2308
BibRef


Cao, Y.W.[Yu-Wei], Previtali, M.[Mattia], Barazzetti, L.[Luigi], Scaioni, M.[Marco],
Integration of Point Clouds from 360° Videos and Deep Learning Techniques for Rapid Documentation and Classification in Historical City Centers,
AI4DH22(254-265).
Springer DOI 2208
BibRef

Ruiz, P.R.S., Almeida, C.M., Schimalski, M.B., Liesenberg, V., Mitishita, E.A.,
TLS and Short-range Photogrammetric Data Fusion for Buildings 3d Modeling,
ISPRS21(B3-2021: 279-284).
DOI Link 2201
BibRef

Franzini, M., Casella, V., Marchese, P., Marini, M., della Porta, G., Felletti, F.,
Validation of a UAV-derived Point Cloud By Semantic Classification and Comparison with TLS Data,
ISPRS21(B2-2021: 83-90).
DOI Link 2201
BibRef

Murtiyoso, A., Lhenry, C., Landes, T., Grussenmeyer, P., Alby, E.,
Semantic Segmentation for Building FaÇade 3d Point Cloud From 2d Orthophoto Images Using Transfer Learning,
ISPRS21(B2-2021: 201-206).
DOI Link 2201
BibRef

Morbidoni, C., Pierdicca, R., Quattrini, R., Frontoni, E.,
Graph CNN with Radius Distance for Semantic Segmentation of Historical Buildings TLS Point Clouds,
GeoInfo20(95-102).
DOI Link 2012
BibRef

Sadeghi, F., Arefi, H.,
Occluded Area Removing From Handheld Laser Scanner Data During 3d Building Modelling,
SMPR19(935-939).
DOI Link 1912
BibRef

Zakaria, M.H., Idris, K.M., Majid, Z., Ariff, M.F.M., Darwin, N., Abbas, M.A., Zainuddin, K., Shukor, R.A., Aziz, M.A.,
Practical Terrestrial Laser Scanning Field Procedure and Point Cloud Processing for BIM Application: TNB Control and Relay Room 132/22kv,
GGT19(705-710).
DOI Link 1912
BibRef

Li, Z.[Zheng], Li, Y.S.[Yong-Shu], Liu, K.M.[Kun-Ming],
The research of 3D parametric modeling method along railways based on cylindrical projection,
ICIVC17(550-554)
IEEE DOI 1708
Buildings, Data models, Laser radar, Parametric statistics, Rail transportation, Solid modeling, DOM, LiDAR point cloud, automatic, railway, three-dimensional, modeling BibRef

Yu, X.Q.[Xue-Qin], Zhang, T.[Tao],
Application of terrestrial 3D laser scanning technology in spatial information acquisition of urban buildings,
ICIVC17(1107-1111)
IEEE DOI 1708
Buildings, Data mining, Publishing, Solid modeling, Visualization, patial information of urban buildings, point cloud data, terrestrial 3D laser scanning technology, three, dimensional, modeling of urban buildings BibRef

Colleu, T., Benitez, S.,
Ray-based Detection Of Openings In Urban Areas Using Mobile Lidar Data,
ISPRS16(B3: 591-598).
DOI Link 1610
BibRef

Faltýnová, M., Matoušková, E., Šedina, J., Pavelka, K.,
Building Facade Documentation Using Laser Scanning And Photogrammetry And Data Implementation Into Bim,
ISPRS16(B3: 215-220).
DOI Link 1610
BibRef

Kedzierski, M., Fryskowska, A., Wierzbicki, D., Dabrowska, M., Grochala, A.,
Impact of the method of registering Terrestrial Laser Scanning data on the quality of documenting cultural heritage structures,
CIPA15(245-248).
DOI Link 1508
BibRef

Yousefzadeh, M., Leurink, F.H.M., Beheshti jou, M.,
A general data-driven algorithm for façade structure modeling using ground based laser data,
PCV14(381-386).
DOI Link 1404
BibRef

Babahajiani, P.[Pouria], Fan, L.X.[Li-Xin], Kämäräinen, J.K., Gabbouj, M.[Moncef],
Comprehensive Automated 3D Urban Environment Modelling Using Terrestrial Laser Scanning Point Cloud,
LS3D16(652-660)
IEEE DOI 1612
BibRef

Babahajiani, P.[Pouria], Fan, L.X.[Li-Xin], Gabbouj, M.[Moncef],
Object Recognition in 3D Point Cloud of Urban Street Scene,
BD3DCV14(177-190).
Springer DOI 1504
BibRef
Earlier:
Semantic Parsing of Street Scene Images Using 3D LiDAR Point Cloud,
BD3DCV13(714-721)
IEEE DOI 1403
decision trees BibRef

Awan, S., Muhamad, M., Kusevic, K.[Kresimir], Mrstik, P.[Paul], Greenspan, M.,
Object Class Recognition in Mobile Urban Lidar Data Using Global Shape Descriptors,
3DV13(350-357)
IEEE DOI 1311
Kalman filters BibRef

Arachchige, N.H., Perera, S.N., Maas, H.G.,
Automatic Processing Of Mobile Laser Scanner Point Clouds For Building Façade Detection,
ISPRS12(XXXIX-B5:187-192).
DOI Link 1209
BibRef

Oniga, E.,
A New Approach For The Semi-automatic Texture Generation Of The Buildings Facades, From Terrestrial Laser Scanner Data,
ISPRS12(XXXIX-B6:161-166).
DOI Link 1209
BibRef

Demantké, J., Vallet, B., Paparoditis, N.,
Streamed Vertical Rectangle Detection In Terrestrial Laser Scans For Facade Database Production,
AnnalsPRS(I-3), No. 2012, pp. 99-104.
DOI Link 1209
BibRef

Berényi, A., Lovas, T., Barsi, A.,
Terrestrial Laser Scanning: Civil Engineering Applications,
CloseRange10(xx-yy).
PDF File. 1006
BibRef

Luo, C.[Chao], Sohn, G.[Gunho],
Deriving structural knowledge from terrestrial laser scanning data for 3d façade reconstruction,
CGC10(195).
PDF File. 1006
BibRef

Lam, J.[Joseph], Greenspan, M.[Michael], Harrap, R.[Robin], Kusevic, K.[Kresimir], Mrstik, P.[Paul],
Urban Scene Extraction from Mobile Ground Based LiDAR Data,
3DPVT10(xx-yy).
WWW Link. 1005
BibRef

Gao, J.Z.[Ji-Zhou], Yang, R.G.[Rui-Gang],
Online Building Segmentation from Ground-Based LiDAR Data in Urban Scenes,
3DV13(49-55)
IEEE DOI 1311
buildings (structures) BibRef

Wang, Y., Wang, G.,
Quality Monitoring Of Large Steel Buildings Using Terrestrial Lidar Technique,
ISPRS12(XXXIX-B3:173-178).
DOI Link 1209
BibRef

Denis, E., Baillard, C.,
Refining Existing 3d Building Models With Terrestrial Laser Points Acquired From A Mobile Mapping Vehicle,
CloseRange10(xx-yy).
PDF File. 1006
BibRef

Becker, S.[Susanne], Haala, N.[Norbert],
Grammar Supported Facade Reconstruction from Mobile Lidar Mapping,
CMRT09(229-234).
PDF File. 0909
BibRef
Earlier:
Refinement of Building Facades by Integrated Processing of LIDAR and Image Data,
PIA07(7).
PDF File. 0711
BibRef
And:
Combined Feature Extraction for Façade Reconstruction,
Laser07(44).
PDF File. 0709
BibRef

Zureiki, A.[Ayman], Roux, M.[Michel],
Ortho-Rectified Facade Image by Fusion of 3D Laser Data and Optical Images,
Laser09(305). 0909
BibRef

Alshawa, M., Boulaassal, H., Landes, T.[Tania], Grussenmeyer, P.[Pierre],
Acquisition and automatic extraction of facade elements on large sites from a low cost laser mobile mapping system,
3DARCH09(xx-yy).
PDF File. 0902
BibRef

Lovas, T., Barsi, A., Detrekoi, A., Dunai, L., Csak, Z., Polgar, A., Berenyi, A., Kibedy, Z., Szocs, K.,
Terrestrial Laser Scanning in Deformation Measurement of Structures,
ISPRS08(B5: 527 ff).
PDF File. 0807
BibRef

Schindler, F.[Falko], Förstner, W.[Wolfgang],
Fast Marching for Robust Surface Segmentation,
PIA11(147-158).
Springer DOI 1110
Laser data, aerial, etc. BibRef

Pu, S.[Shi],
Generating Building Outlines from Terrestrial Laser Scanning,
ISPRS08(B5: 451 ff).
PDF File. 0807
BibRef

Pu, S., Vosselman, G.,
Automatic extraction of building features from terrestrial laserscanning,
IEVM06(xx-yy).
PDF File. 0609
BibRef

Zhang, X.W.[Xue-Wen], Zhao, X.A.[Xi-An], Wei, S.Y.[Shi-Yan],
A Multi-Direction Extracting Method of the Building Contour Based on Point Cloud of the Terrestrial Laser Scanner,
ISPRS08(B5: 523 ff).
PDF File. 0807
BibRef

Milev, I., Gruendig, L.,
Terrestrial Laser Scanning Applied for Reverse Engineering and Monitoring of Historical Buildings,
ISPRS08(B3b: 381 ff).
PDF File. 0807
BibRef

Zheng, J.H.[Jiang-Hua], Mccarthy, T.[Tim], Fotheringham, A.S.[A. Stewart], Yan, L.[Lei],
Linear Feature Extraction of Buildings from Terrestrial LIDAR Data with Morphological Techniques,
ISPRS08(B1: 241 ff).
PDF File. 0807
BibRef

Briese, C.[Christian], Pfeifer, N.[Norbert],
Towards Automatic Feature Line Modeling from Terrestrial Laser Scanner Data,
ISPRS08(B5: 463 ff).
PDF File. 0807
BibRef

Gandolfi, S., Barbarella, M., Ronci, E., Burchi, A.,
Close Photogrammetry and Laser Scanning Using a Mobile Mapping System for the High Detailed Survey of a Height Density Urban Area,
ISPRS08(B5: 909 ff).
PDF File. 0807
BibRef

Briese, C.[Christian],
Structure line modelling based on terrestrial laserscanner data,
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Boulaassal, H., Landes, T.[Tania], Grussenmeyer, P.[Pierre], Tarsha-Kurdi, F.[Fayez],
Automatic Segmentation of Building Facades Using Terrestrial Laser Data,
Laser07(65).
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Sternberg, H.,
Deformation measurements at historical buildings with terrestrial laserscanners,
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Zhao, H.J.[Hui-Jing], Shibaski, R.[Ryosuke],
Surface Modelling of Urban 3D Objects from Vehicle-Borne Laser Range Data,
PCV02(A: 412). 0305
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Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
Buildings DSM, DEM, Elevation, Surface Models .


Last update:Mar 16, 2024 at 20:36:19