Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data

Johanna Beatríz Prieto Garzón; Álvaro Muriel Lima-Machado; Fabiano Scheer-Hainosz

doi:10.15446/dyna.v86n209.74248

Publicado

2019-04-01

Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data

Detección y classificación de cambios en edificaciones por comparación directa de datos multi-temporales de Sistemas LIDAR

DOI:

https://doi.org/10.15446/dyna.v86n209.74248

Palabras clave:

LIDAR, change detection, buildings, raster and vector (en)
LIDAR, detección de cambios, edificaciones, raster y vector (es)

Descargas

Autores/as

Johanna Beatríz Prieto Garzón Universidad Federal de Paraná https://orcid.org/0000-0003-2861-594X
Álvaro Muriel Lima-Machado https://orcid.org/0000-0002-7371-3461
Fabiano Scheer-Hainosz https://orcid.org/0000-0002-7955-2398

Resumen (en)
Resumen (es)

This study consists in the detection of changes in buildings with LIDAR technology, for which, changes in buildings are identified,
classified and quantified of two study areas mapped by LIDAR sensors, using the direct comparison of multi-temporal points clouds obtained from mapping. The process begins with the correction of errors in point cloud records after two detection methods are applied:
the first one is called indirect method due to the transformation of the raster data; the second one is called direct method, of vector type.
When quantifying the detected buildings, an important approximation was obtained from both methods concerning the locations of these buildings and, when estimating height and area, the direct method presented higher accuracy. In conclusion, both methods are efficient tools for observation of the real estate dynamics through different time intervals.

Este estudio consiste en la detección de cambios en edificaciones con tecnología LIDAR, para lo cual, se identifican, clasifican y cuantifican
cambios en edificaciones de dos áreas de estudio mapeadas con sensores LIDAR, usando la comparación directa de las nubes de puntos multi-temporales obtenidas en los mapeamientos. El proceso comienza con la corrección de errores en el registro de las nubes de puntos para después ser aplicados dos métodos de detección: el primero, denominado método indirecto por la transformación de los datos en raster,
y el segundo, de tipo vectorial, denominado método directo. Al cuantificar las edificaciones detectadas, se obtuvo en ambos métodos una
gran aproximación de la localización de tales edificaciones y, al estimar los atributos altura y área, se determinó mejor precisión con el método directo. Se concluye que los dos métodos son herramientas eficientes para la observación de la dinámica inmobiliaria a través de
diferentes intervalos de tiempo.

Referencias

Rymasheuskaya, M., Land cover change detection in Northern

Belarus, in: The 11th Scandinavian Research Conference on

Geographical Information Science, Proceedings of ScanGIS’2007,

pp. 255-260, 2007.

Murakami, H., Nakagawa K., Hasegawa H., Shibata T. and Iwanami,

E., Change detection of buildings using an airborne laser scanner.

ISPRS Journal of Photogrammetry and Remote Sensing, 54, pp 148-

, 1999.

Vögtle, T. and Steinle, E., Detection and recognition of changes in

building geometry derived from multi-temporal laser scanning data.

International Archives of Photogrammetry and Remote Sensing, 34,

pp 428-433, 2004.

Rottensteiner, F., Building change detection from digital surface

models and multi-spectral images. International Archives of

Photogrammetry and Remote Sensing, 36, pp 145-150, 2007.

Rutzinger, M., Rüf, B., Höfle, B. and Vetter, M., Change detection of

building footprints from airborne laser scanning acquired in short time

intervals. International Archives of Photogrammetry and Remote

Sensing, 38, pp 475-480, 2010.

Hebel, M., Arens, M. and Stilla, U., Change detection in urban areas

by direct comparison of multi-view and multi-temporal ALS Data.

ISPRS Conference on Photogrammetric Image Analysis, PIA2011,

LNCS 6952, pp. 185-196, 2011. DOI: 10.1007/978-3-642-24393-

_16

Korzeniowska, K. and Pfeifer, N., 3D building change detection on

the basis of airborne laser scanning data, 17th AGILE Conference on

Geographic Information Science: Connecting a Digital Europe

through Location and Place, 2014.

Xu, S., Vosselman, G. and Oude-Elberink, S., Detection and

classification of changes in buildings from airborne laser scanning

data, ISPRS Annals of the Photogrammetry, Remote Sensing and

Prieto-Garzón et al / Revista DYNA, 86(209), pp. 206-214, April - June, 2019.

Spatial Information Sciences, pp 343-348, 2013. DOI:

5194/isprsannals-II-5-W2-343-2013

Xu, S., Vosselman, G. and Oude-Elberink, S., Detection and

classification of changes in buildings from airborne laser scanning

data. Remote Sensing, 7, pp 17051-17076, 2015. DOI:

3390/rs7121586

Wagner, W., Ullrich, A., Melzer, T., Briese, C. and Kraus, K., From

single-pulse to full-waveform airborne laser scanners: potential and

practical challenges, International Archives of Photogrammetry and

Remote Sensing, 35, pp. 414-419, 2004.

Centeno, J.S., Remote sensing and digital image processing. Federal

University of Paraná, Curitiba, Brazil, 2004.

Schaer, P., In-flight quality assessment and data processing for

airborne laser scanning. Institute of Geodesy and Photogrammetry,

Vol. 79, 2010.

Brandalize, A.A. Perfilamento a laser: comparação com métodos

fotogramétricos, XX Congresso Brasileiro de Cartografia, 2002.

Baltsavias, E.P., Introduction to airborne LIDAR and physical

principles of LIDAR technology. International School on LIDAR

Technology, ITT, 2008.

Machado, A.M., Extração automática de contornos de edificações

com LIDAR, Ph.D. Dissertation, Setor de Ciências da Terra,

Universidade Federal do Paraná, Curitiba, Brasil, 2006.

Botelho, M.F., Modelagem tridimensional de edificações usando

dados do sistema laser scanner e imagem orbital de alta resolução

espacial. MSc. These, Setor de Ciências da Terra, Universidade

Federal do Paraná, Curitiba, Brasil, 2007.

Mitishita, E.A., Monorestituição digital de aerofotos, associada com

sistema de computação gráfica C.A.D., para fins de mapeamento na

área florestal, PhD. dissertation, Setor de Ciências da Terra,

Universidade Federal do Paraná, Curitiba, Brasil, 1997.

Namikawa, L., Felgueiras, C.A., Mura, J.C., Rosim, S. and Lopes,

E.S., Modelagem numérica de terreno e aplicações. Instituto Nacional

de Pesquisas Espaciais - INPE, 2003.

Centeno, J.S. and Mitishita, E.A., Laser scanner aerotransportado no

estudo de áreas urbanas: a experiência da UFPR, Anais XIII Simpósio

Brasileiro de Sensoriamento Remoto - INPE, Florianópolis, Brasil,

pp. 3645-3652, 2007.

Araki, H., Fusão de informações espectrais, altimétricas e de dados

auxiliares na classificação de imagens de alta resolução especial, PhD.

Dissertation, Setor de Ciências da Terra, Universidade Federal do

Paraná, Curitiba, Brasil, 2005.

Steinbruch, A. and Winterle, P., Geometria Analítica. Makron Books

Editora Ltda, 1987.

Boulos, P. and Camargo, I., Geometria Analítica: um tratamento

vetorial. Editora McGraw-Hill Ltd, 1987.

Gonzalez, R.C. and Woods, R.E., Digital image processing. Second

Edition. Prentice Hall, 2002.

Cómo citar

IEEE

[1]

J. B. Prieto Garzón, Álvaro M. Lima-Machado, y F. Scheer-Hainosz, «Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data», DYNA, vol. 86, n.º 209, pp. 206–214, abr. 2019.

ACM

[1]

Prieto Garzón, J.B., Lima-Machado, Álvaro M. y Scheer-Hainosz, F. 2019. Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data. DYNA. 86, 209 (abr. 2019), 206–214. DOI:https://doi.org/10.15446/dyna.v86n209.74248.

ACS

(1)

Prieto Garzón, J. B.; Lima-Machado, Álvaro M.; Scheer-Hainosz, F. Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data. DYNA 2019, 86, 206-214.

APA

Prieto Garzón, J. B., Lima-Machado, Álvaro M. & Scheer-Hainosz, F. (2019). Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data. DYNA, 86(209), 206–214. https://doi.org/10.15446/dyna.v86n209.74248

ABNT

PRIETO GARZÓN, J. B.; LIMA-MACHADO, Álvaro M.; SCHEER-HAINOSZ, F. Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data. DYNA, [S. l.], v. 86, n. 209, p. 206–214, 2019. DOI: 10.15446/dyna.v86n209.74248. Disponível em: https://revistas.unal.edu.co/index.php/dyna/article/view/74248. Acesso em: 4 abr. 2026.

Chicago

Prieto Garzón, Johanna Beatríz, Álvaro Muriel Lima-Machado, y Fabiano Scheer-Hainosz. 2019. «Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data». DYNA 86 (209):206-14. https://doi.org/10.15446/dyna.v86n209.74248.

Harvard

Prieto Garzón, J. B., Lima-Machado, Álvaro M. y Scheer-Hainosz, F. (2019) «Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data», DYNA, 86(209), pp. 206–214. doi: 10.15446/dyna.v86n209.74248.

MLA

Prieto Garzón, J. B., Álvaro M. Lima-Machado, y F. Scheer-Hainosz. «Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data». DYNA, vol. 86, n.º 209, abril de 2019, pp. 206-14, doi:10.15446/dyna.v86n209.74248.

Turabian

Prieto Garzón, Johanna Beatríz, Álvaro Muriel Lima-Machado, y Fabiano Scheer-Hainosz. «Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data». DYNA 86, no. 209 (abril 1, 2019): 206–214. Accedido abril 4, 2026. https://revistas.unal.edu.co/index.php/dyna/article/view/74248.

Vancouver

1.

Prieto Garzón JB, Lima-Machado Álvaro M, Scheer-Hainosz F. Detection and classification of changes in buildings by direct comparison of multi-temporal LIDAR Systems data. DYNA [Internet]. 1 de abril de 2019 [citado 4 de abril de 2026];86(209):206-14. Disponible en: https://revistas.unal.edu.co/index.php/dyna/article/view/74248

Descargar cita

CrossRef Cited-by

0

Dimensions

PlumX

Visitas a la página del resumen del artículo

514

Descargas

Los datos de descargas todavía no están disponibles.

Licencia

Derechos de autor 2019 DYNA

Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-SinDerivadas 4.0.

El autor o autores de un artículo aceptado para publicación en cualquiera de las revistas editadas por la facultad de Minas cederán la totalidad de los derechos patrimoniales a la Universidad Nacional de Colombia de manera gratuita, dentro de los cuáles se incluyen: el derecho a editar, publicar, reproducir y distribuir tanto en medios impresos como digitales, además de incluir en artículo en índices internacionales y/o bases de datos, de igual manera, se faculta a la editorial para utilizar las imágenes, tablas y/o cualquier material gráfico presentado en el artículo para el diseño de carátulas o posters de la misma revista.