TY - GEN
T1 - Concept of semi-automated façade mapping for 3D building models with personal mobile computing devices
AU - Wang, Sendo
PY - 2011
Y1 - 2011
N2 - Reconstructing the 3D geometric model of buildings from photogrammetric images, from LiDAR point cloud, or from both of them has raised extensive researches in the past decade. However, the façade mapping is still the bottle neck in the photo-realistic building modeling process. With the rapid development of personal mobile computing devices, such as smartphones and tablet PCs, it has become easier to directly geo-referencing the taken picture. The concept of a semi-automated approach to modeling photo-realistic 3D buildings using a personal mobile computing device is proposed in this paper. The built-in GPS receiver provides approximate 3D coordinates while the G-sensors deliver three rotation angles of the camera at the shooting moment. However, these parameters are not precise enough for the further photogrammetric operations. Therefore, a model-image fitting algorithm is necessary to determine precise image orientation. By introducing the "Floating Models" concept, the object modeling and image orientation problem can be solved efficiently through the semi-automated procedures based on the Least-squares Model-image fitting (LSMIF). Since the object model can be extracted and the photo orientation can be determined, the creation of realistic texture image, which is also called inverse mapping, can be automated by coordinate transforming and image resampling. Finally, a photo-realistic building 3D model is reconstructed through these semi-automated procedures.
AB - Reconstructing the 3D geometric model of buildings from photogrammetric images, from LiDAR point cloud, or from both of them has raised extensive researches in the past decade. However, the façade mapping is still the bottle neck in the photo-realistic building modeling process. With the rapid development of personal mobile computing devices, such as smartphones and tablet PCs, it has become easier to directly geo-referencing the taken picture. The concept of a semi-automated approach to modeling photo-realistic 3D buildings using a personal mobile computing device is proposed in this paper. The built-in GPS receiver provides approximate 3D coordinates while the G-sensors deliver three rotation angles of the camera at the shooting moment. However, these parameters are not precise enough for the further photogrammetric operations. Therefore, a model-image fitting algorithm is necessary to determine precise image orientation. By introducing the "Floating Models" concept, the object modeling and image orientation problem can be solved efficiently through the semi-automated procedures based on the Least-squares Model-image fitting (LSMIF). Since the object model can be extracted and the photo orientation can be determined, the creation of realistic texture image, which is also called inverse mapping, can be automated by coordinate transforming and image resampling. Finally, a photo-realistic building 3D model is reconstructed through these semi-automated procedures.
KW - Façade mapping
KW - Floating models
KW - Least-squares model-image fitting
KW - Photo-realistic building model
UR - http://www.scopus.com/inward/record.url?scp=84865694805&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84865694805&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84865694805
SN - 9781618394972
T3 - 32nd Asian Conference on Remote Sensing 2011, ACRS 2011
SP - 259
EP - 263
BT - 32nd Asian Conference on Remote Sensing 2011, ACRS 2011
T2 - 32nd Asian Conference on Remote Sensing 2011, ACRS 2011
Y2 - 3 October 2011 through 7 October 2011
ER -