James, T.D., P.E. Carbonneau, and S.N. Lane, 2007. Investigating
the effects of DEM error in
scaling analysis,
Photogrammetric
Engineering & Remote Sensing
, 73(1):67–78.
Javernick, L., J. Brasington, and B. Caruso, 2014. Modeling the
topography of shallow braided
rivers using Structure-from-
Motion photogrammetry,
Geomorphology
, 213:166–182.
Marzahn, P., D. Rieke-Zapp, and R. Ludwig, 2012. Assessment of
soil surface roughness
statistics for microwave remote sensing
applications using a simple photogrammetric acquisition
system,
ISPRS Journal of Photogrammetry and Remote Sensing
,
72(0):80–89.
Medeiros, S.C., T. Ali, S.C. Hagen, and J.P. Raiford, 2011.
Development of a seamless
topographic/bathymetric digital
terrain model for Tampa bBay, Florida,
Photogrammetric
Engineering & Remote Sensing
, 77(12):1249–1256.
Musumeci, R., G. Farinella, E. Foti, S. Battiato, T. Petersen, and B.M.
Sumer, 2013. Measuring
sandy bottom dynamics by exploiting
depth from stereo video sequences,
Proceedings of
Image
Analysis and Processing - ICIAP 2013
(A. Petrosino, editor),
Springer, Berlin, pp
.
420–430.
Ouédraogo, M.M., A. Degré, C. Debouche, and J. Lisein, J., 2014. The
evaluation of unmanned
aerial system-based photogrammetry
and terrestrial laser scanning to generate DEMs of agricultural
watersheds,
Geomorphology
, 214(0):339–355.
Papasaika, H., E. Kokiopoulou, E. Baltsavias, K. Schindler, and D.
Kressner, 2011. Fusion of digital elevation models using sparse
representation,
Photogrammetric Image Analysis, Lecture Notes
on Computer Science, 6952
(Stilla U., F. Rottensteiner, H. Mayer,
B. Jutzi,
and M. Butenuth, editors), Springer, Berlin, 317:171–84.
Papasaika, H., D. Poli, and E. Baltsavias, 2008. A framework for the
fusion of digital elevation models,
Proceedings of the ISPRS
Congress - Beijing 2008
, Beijing, China, pp. 811–818.
Schindler, K., H. Papasaika, S. Schutz, S., and E. Baltsavias, 2011.
Improving wide-area DEMs
through data fusion - Chances and
limits,
Proceedings of the 53
rd
Photogrammetric Week
, Stuttgart,
Germany, pp. 159–170.
Stojic, M., J. Chandler, P. Ashmore, and J. Luce, 1998. The
assessment of sediment transport
rates by automated digital
photogrammetry,
Photogrammetric Engineering & Remote
Sensing
, 64(5):387–395.
Streutker, D.R., N.F. Glenn, and R. Shrestha, 2011. A slope-based
method for matching
elevation surfaces,
Photogrammetric
Engineering & Remote Sensing
, 77(7):743–750.
Stumpf, A., J.P. Malet, P. Allemand, M. Pierrot-Deseilligny, and G.
Skupinski, 2015. Ground-based multi-view photogrammetry
for the monitoring of landslide deformation and erosion,
Geomorphology
, 231(0):130–145.
Tarolli, P., 2014. High-resolution topography for understanding
Earth surface processes: Opportunities and challenges,
Geomorphology
, 216(0):295–312.
Tran, T.A., V. Raghavan, S. Masumoto, P. Vinayaraj, and G. Yonezawa,
2014. A
geomorphology-based approach for digital elevation
model fusion - Case study in Danang City, Vietnam,
Earth
Surface Dynamics
, 2(2):403–417.
Wackrow, R., 2008.
Spatial Measurement with Consumer Grade
Digital Cameras
, Ph.D
.
dissertation, Loughborough University, Loughborough, UK, 241 p.
Westoby, M.J., J. Brasington, N.F. Glasser, M.J. Hambrey, and J.M.
Reynolds, 2012. ‘Structure-
from-Motion’ photogrammetry: A low-cost, effective tool for
geoscience applications,
Geomorphology
, 179(0):300–314.
(Received 11 March 2015; accepted 10 July 2015; final version
13 July 2015)
40
January 2016
PHOTOGRAMMETRIC ENGINEERING & REMOTE SENSING