Page 30 - Surveyor 54.3 and 4
P. 30
PEER REVIEW
PEER REVIEW
The Malaysian Surveyor
Acknowledgements Desmond, L. G. (1994). A Feasibility Luhmann, T. (2010). Panorama
Study of Close-range Photogrammetry Photogrammetry for Architectural
Faculty of Architecture, Planning, and for the Survey of Building Facades Applications. ISPRS Annals of
Surveying UniversitiTeknologi MARA along canals in Venice, Italy. Photogrammetry, Remote Sensing and
(UiTM), Research Management Spatial Information Sciences.
Institute (RMi) and Ministry of Frastia, M. (2005). Possibilities of Moe, D., Sampath, A., Christopherson,
Higher Education (MOHE) are Using Inexpensive Digital Cameras J., & Benson, M. (2010). Self-calibration
greatly acknowledged for providing in Applications of Close-range of small and medium format digital
the fund BESTARI 600-IRMI/MyRA Photogrammetry. Slovak University of cameras. na.
5/3/BESTARI (001/2017) to enable Civil Engineering.
this research to be carried out. The Guidi, G., & Remondino, F. (2012). 3D Ordonez, C., Riveiro, B., Arias, P., &
authors would also like to thank the Modelling from Real Data. Modeling Armesto, J. (2009). Application of
people who were directly or indirectly and Simulation in Engineering, InTech, Close-range Photogrammetry to Deck
involved in this research. Measurement in Recreational Ships.
Haggrén, H., Junnilainen, H., Open Acces Library Journal.
References Järvinen, J., Nuutinen, T., Laventob, Parian, J. A., & Gruen, A. (2010). An
M., & Huotarib, M. (2004). The use
Arias, P., Lorenzo, H., & Ordoñez, of panoramic images for the 3D Advanced Sensor Model for Panoramic
Cameras. International Society for
C. (2006). Simple Methods for archaeological survey. International Photogrammetry and Remote Sensing.
Close Range Photogrammetry Archives of Photogrammetry and
Surveying of Rural Industrial Remote Sensing, 958-963. Remondino, F., Guarnieri, A., & Vettore ,
Constructions. International Society for Hanke, K., & Ebrahim, M. A.-B. (1997). A. (2005). 3D modeling of close-range
Photogrammetry and Remote Sensing. objects: photogrammetry or laser
A Low-Cost 3D Measurement tool scanning? Electronic Imaging 2005,
Belbachir, A., Pflugfelder, R., & Gmeiner, for Architectural and Archaeological 216-225.
R. (2010). A Neuromorphic Smart Applications. International Archives of Schneider, D., & Maas, H.-G. (2003).
Camera for Real-time 360 Distortion Photogrammetry and Remote Sensing. Geometric Modeling and Calibration of
Free Panoramas. Fourth ACM/IEEE Hanke, K., & Grussenmeyer, P. (2002). a High-Resolution Panoramic Camera.
International Conference, 221-226.
Architectural Photogrammetry: basic Institute of Photogrammetry and
Browne, M., & Lowe, D. (2003). theory, procedures, tools. ISPRS Remote Sensing.
Recognizing Panoramas. 9th Commission (Vol. 5), 1-2. Stojaković, V. (2008). Terrestrial
International Conference on Computer Jechev, D. (2001). Close Range Photogrammetry and Application
Vision, 1218-1225. to Modeling Architectural Objects.
Photogrammetry with Amateur
Chandler, J., Fryer, J., & Jack, A. (2005). Camera. International Society for Architecture and Civil Engineering
Vol. 6, 113 - 125.
Metric Capabilities of Low-Cost Digital Photogrammetry and Remote Sensing.
Cameras for Close-range Surface Suziedelyte-Visockiene, J., Vlahakis, V., Ioannidis, N., Karigiannis,
Measurement. Blackwell Publishing. J., Tsotros, M., Gounaris, M., Stricker,
Bagdziunaite, R., Malys, N. & Maliene, V. D., et al. (2002). Archeoguide:
d’Annibalea, E., Tassetti , A., (2015). Close Range Photogrammetry an augmented reality guide for
& Malinverni, E. (2013). From Enables Documentation of archaeological sites. IEEE Computer
Panoramic Photos to A Low-Cost Environment-Induced Deformation of Graphics and Applications, 52-60.
Photogrammetric WorkFlow for Architectural Heritage. Environmental
Cultural Heritage 3D Documentation. Engineering and Management Journal, Wolf, P. R., & Dewitt, B. A. (2000). In
International Archives of the Vol 14 (6), 1371-1381. Elements of Photogrammetry with
Photogrammetry, Remote Sensing, and Klette, R. G. (2003). A Review of Applications in GIS (pp. 430-447). The
Spatial Information Sciences. McGraw-Hill Companies.
Research and Applications of
Deng, Y., & Zhang, T. (2003). Generating Cylindrical Panoramas. CITR, The Yilmaz, H. M., Yakar, M., Gulec, S. A., &
Dulgerler, O. N. (2007). The importance
Panorama Photos. International University of Auckland, New Zealand. of digital close-range photogrammetry
Society for Optics and Photonics., Luhmann, T. (2004). A Historical Review in Documentation of Cultural Heritage.
270-279.
on Panorama Photogrammetry. Journal of Cultural Heritage, 428-433.
30
