Outputs (6)

Low-cost inundation modelling at the reach scale with sparse data in the Lower Damodar River basin, India (2014)
Journal Article
Sanyal, J., Carbonneau, P., & Densmore, A. (2014). Low-cost inundation modelling at the reach scale with sparse data in the Lower Damodar River basin, India. Hydrological Sciences Journal, 59(12), 2086-2102. https://doi.org/10.1080/02626667.2014.884718

Data unavailability is the main reason for limited applications of hydrodynamic models for predicting inundation in the developing world. This paper aims to generate moderately high-resolution hybrid terrain data by merging height information from lo... Read More about Low-cost inundation modelling at the reach scale with sparse data in the Lower Damodar River basin, India.

Quantifying submerged fluvial topography using hyperspatial resolution UAS imagery and structure from motion photogrammetry (2014)
Journal Article
Woodget, A., Carbonneau, P., Visser, F., & Maddock, I. (2014). Quantifying submerged fluvial topography using hyperspatial resolution UAS imagery and structure from motion photogrammetry. Earth Surface Processes and Landforms, 40(1), 47-64. https://doi.org/10.1002/esp.3613

Quantifying the topography of rivers and their associated bedforms has been a fundamental concern of fluvial geomorphology for decades. Such data, acquired at high temporal and spatial resolutions, are increasingly in demand for process-oriented inve... Read More about Quantifying submerged fluvial topography using hyperspatial resolution UAS imagery and structure from motion photogrammetry.

Analysing the effect of land use/cover changes at sub-catchment levels on downstream flood peaks: a semi-distributed modelling approach with sparse data (2014)
Journal Article
Sanyal, J., Densmore, A., & Carbonneau, P. (2014). Analysing the effect of land use/cover changes at sub-catchment levels on downstream flood peaks: a semi-distributed modelling approach with sparse data. CATENA, 118, 28-40. https://doi.org/10.1016/j.catena.2014.01.015

This paper aims to evaluate how varying degrees of land-use/cover (LULC) changes across sub-catchments affect a flood peak at the catchment outlet. The study site was the Konar catchment, a part of the upper Damodar Basin in eastern India. A HEC-HMS... Read More about Analysing the effect of land use/cover changes at sub-catchment levels on downstream flood peaks: a semi-distributed modelling approach with sparse data.

2D finite element inundation modelling in anabranching channels with sparse data: examination of uncertainties (2014)
Journal Article
Sanyal, J., Densmore, A., & Carbonneau, P. (2014). 2D finite element inundation modelling in anabranching channels with sparse data: examination of uncertainties. Water Resources Management, 28(8), 2351-2366. https://doi.org/10.1007/s11269-014-0619-x

Flood inundation modelling in developing countries is severely limited by the lack of high resolution terrain data and suitable imagery to map flood extents. This study assessed the predictive uncertainty of modelled flood extents generated from TELE... Read More about 2D finite element inundation modelling in anabranching channels with sparse data: examination of uncertainties.

Debris-flow dominance of alluvial fans masked by runoff reworking and weathering (2014)
Journal Article
de Haas, T., Ventra, D., Carbonneau, P., & Kleinhans, M. (2014). Debris-flow dominance of alluvial fans masked by runoff reworking and weathering. Geomorphology, 217, 165-181. https://doi.org/10.1016/j.geomorph.2014.04.028

Arid alluvial fan aggradation is highly episodic and fans often comprise active and inactive sectors. Hence the morphology and texture of fan surfaces are partly determined by secondary processes of weathering and erosion in addition to primary proce... Read More about Debris-flow dominance of alluvial fans masked by runoff reworking and weathering.

Mapping sub-pixel fluvial grain sizes with hyperspatial imagery (2014)
Journal Article
Black, M., Carbonneau, P., Church, M., & Warburton, J. (2014). Mapping sub-pixel fluvial grain sizes with hyperspatial imagery. Sedimentology, 61(3), 691-711. https://doi.org/10.1111/sed.12072

This paper presents an investigation of image texture approaches for mapping sub-pixel fluvial grain-size features from airborne imagery, allowing for the rapid acquisition of surface sand and coarse fraction (>1.41 mm) grain-size information. Imager... Read More about Mapping sub-pixel fluvial grain sizes with hyperspatial imagery.