G. F. Stickley and D. Longstaff, GPR 2000, 8th International Conference on Ground Penetrating Radar, pp.494-500

T. B. Hardy, P. C. Anderson, M. U. Neale, and D. K. Stevens, Application of multispectral videography for the delineation of riverine depths and mesoscale hydraulic features, Effects of human-induced changes on hydrologic systems, Symposium of the American Water Resources Association, pp.445-54, 1994.

G. D. Hickman and J. E. Hogg, Application of an airborne pulsed laser for near shore bathymetric measurements, Remote Sensing of Environment, vol.1, pp.47-58, 1969.

R. C. Hilldale and D. Raff, Assessing the ability of airborne LiDAR to map river bathymetry, Earth Surface Processes and Landforms, vol.33, pp.773-83, 2007.

F. Hoge, R. N. Swift, and E. B. Frederick, Water depth measurement using an airborne pulsed neon laser system, Applied Optics, vol.19, pp.871-83, 1980.

J. Irish and W. Lillycrop, Monitoring New Pass, Florida, with high density lidar bathymetry, ISPRS Journal of Photogrammetry and Remote Sensing, vol.13, pp.123-152, 1997.

J. Irish and T. White, Coastal engineering applications of high-resolution lidar bathymetry, Coastal Engineering, vol.35, pp.47-71, 1998.

N. Jerlov, Marine optics, 1976.

P. J. Kinzel, C. W. Wright, J. M. Nelson, and A. R. Burman, Evaluation of an experimental LiDAR for surveying a shallow, braided, sand-bedded river, Journal of Hydraulic Engineering, vol.133, pp.838-880, 2007.

A. Kovacs, Remote detection of water under ice-covered lakes on the north slope of Alaska, Arctic, vol.31, pp.448-58, 1978.

K. Krauss and P. Waldhäusl, Editions Hermès, 1998.

V. K. Kumar, A. Palit, and S. Bhan, Bathymetric mapping in Rupnarayan-Hooghly river confl uence using Indian remote sensing satellite data, International Journal of Remote Sensing, vol.18, pp.2269-70, 1997.

S. Lane, J. Chandler, and K. Richards, Developments in monitoring and modelling smallscale river bed topography. Earth Surface Processes and Landforms, vol.19, pp.349-68, 1994.

D. Leckie, E. Cloney, C. Jay, and D. Paradine, Automated mapping of stream features with high-resolution multispectral imagery: an example of the capabilities, Photogrammetric Engineering and Remote Sensing, vol.71, pp.145-55, 2005.

L. Coarer, Y. Dumont, and B. , Virtual rivers for the study of aquatic fauna. Ingénieries 2, 21-28. -1995b: Modelling stream morphodynamics for research in habitat-aquatic fauna relationships, 1995.

.. .. Cadre-théorique,

, Réfraction de la lumière à l'interface entre deux milieux, p.96

, Réfraction et stéréo -notion de point apparent, p.97

. .. Existence, 100 7.1.4 Équations de la photogrammétrie à deux milieux, p.102

. .. Études-préliminaires--présentation-de-l'approche, 103 7.2.1 Résolution d'un cas simplifié

, Application numérique et représentation graphique, p.105

. .. , 2 Cas réel : images doubles, occlusions, p.106

. .. , Approche choisie : méthode inverse, p.107

. .. Stéréo-À-travers-une-surface-localement-plane, 111 7.3.1 Cas d'une surface plane

.. .. Bilan,

, Influence d'une erreur sur la position de la surface, p.119

, 5.2.b Influence des vaguelettes sur la mesure, p.128

, La rivière, centre d'enjeux multiples 7

. .. Cas-de-la-durance--situation, , vol.8

. .. Hydrologie,

.. .. Données,

.. .. Morphologie,

.. .. Biologie,

, Les multiples usages de l'eau

, Agriculture : irrigation

. .. Eau-potable,

.. .. Le-risque-d'inondation,

. .. Synthèse--enjeux--site-d'étude, , p.19

, Conflits d'usages et nouvelles problématiques en Durance, p.22

L. .. Modèles-habitat/poisson, 25 2.2.1.b Intérêt et propriétés de l'hydrosignature

.. .. Un-besoin-de-mesure,

.. .. Apport-de-la-télédétection,

. .. Complémentarité-des-mesures, 31 2.4.2 Le compromis entre couverture spatiale, échantillonnage, et précision de la mesure

. .. Critères-d'intérêt-de-la-télédétection, , p.33

.. .. Développer,

. .. , , p.57

. .. Cadre-théorique, 69 5.1.3 Exploitation des équations de la photogrammétrie, p.71

. .. , 2.1 Orientation interne -étalonnage de l'appareil, p.76

. .. , 80 5.3.4 Intérêt de l'utilisation des deux méthodes avec corrélation numérique

. .. Précision-en-z-en-photogrammétrie-numérique, , p.81

, Acquisition d'images par drone ou ULM 83

. .. Paramètres, , vol.83

. .. , 83 6.1.2 Utilisation de plates-formes légères et de capteurs non, p.84

. .. , Protocole d'acquisition des images, vol.87

. .. Contraintes, 87 6.2.2 Choix effectués -réglage du capteur, p.90

. .. Travail, , p.90

. .. Mise-en-oeuvre, , p.91

.. .. Limites,

.. .. Limites,

C. .. De-la-position-du-vecteur, , p.93

. .. Vitesse-de-la-plate-forme, , p.93

. .. Capteur-petit-format,

.. .. Potentiels,

.. .. Coût,

. .. Très-haute-résolution-spatiale, , p.94

, Que voit-on en stéréo à travers l'eau ? 95

.. .. Cadre-théorique,

, Réfraction de la lumière à l'interface entre deux milieux, p.97

. .. Existence, 100 7.1.4 Équations de la photogrammétrie à deux milieux, p.102

. .. Études-préliminaires--présentation-de-l'approche, 103 7.2.1 Résolution d'un cas simplifié, p.105

. .. , Cas réel : images doubles, occlusions, p.106

. .. , Approche choisie : méthode inverse, p.107

. .. Stéréo-À-travers-une-surface-localement-plane, 111 7.3.1 Cas d'une surface plane

.. .. Bilan,

, Influence d'une erreur sur la position de la surface, p.119

, 5.2.b Influence des vaguelettes sur la mesure, p.128

. .. Faisabilité--déformation-des-objets, , vol.128

. .. Erreur, , p.130

. .. Discussion, 131 7.6.2 Correction de la réfraction et bruit de mesure

. .. Cadre--objectif,

. .. Concepts,

. .. Principe, 140 8.3.1 Calcul des enveloppes MIN et MAX -régularisation

. .. Implémentation, , p.143

, 144 8.5.1 Estimation de la position de la surface de l'eau, p.145

. .. Le-gardon, , vol.153

, Site principal : la moyenne Durance

. Données and . .. La-durance, 159 9.3.1 Plusieurs campagnes d'acquisition d'images, p.159

, Apport du protocole d'acquisition -caractéristiques des données 162 9.3.2.a Couverture stéréo -mires, pp.1-25, 20139-07.

, Choix du site d'application de la méthode : Les Mées (D0), p.167

D. .. De, Données de validation : topographie immergée

, Résultats de la méthode et validation 174

. .. Calcul-de-la-géométrie-de-prise-de-vue, 183 10.3.3 Résultats de la compensation par faisceaux avec autocalibration 183 10.3.4 Comparaison relative des résultats

&. .. , 187 10.4.1 Nombre de points -densité de mesure, Stéréorestitution -positions "apparentes

, Calcul de la position de l'interface

. .. Potentiel-de-la-méthode, 2.1.b Estimation de la position de l'interface, uri=CELEX: 32000L0060:FR:HTML (dernière consultation : 18 mars, 2000.

L. Aadland-;-aadland, Stream habitat types : Their fish assemblages and relationship to flow, North American Journal of Fisheries Management, vol.13, issue.4, pp.790-806, 1993.

R. J. Adrian-;-adrian, Scattering particle characteristics and their effect on pulsed laser measurements of fluid flow : speckle velocimetry vs. particle image velocimetry, Applied Optics, vol.23, pp.1690-1691, 1984.

, Association Française de Topographie, p.18, 1991.

T. Allouis and J. Bailly, On the use of raman, infra-red, and green waveforms in bathymetric lidar for very shallow waters, EGU 2008, p.14, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02591486

A. , , 2003.

, Demonstrating UAV-acquired real-time thermal data over fires, Photogrammetric Engineering and Remote Sensing, vol.69, issue.4, pp.391-402

L. Arrighi, Stéréophotogrammétrie appliquée aux zones immergées pour la reconstitution de la topographie de lit de rivières : application à la Durance, 2004.

[. Asseline, Conception et utilisation d'un drone à vol lent pour la télédétection rapprochée. Photo interprétation, vol.37, pp.3-13, 1999.

[. Bailly, Gravel-bed river depth mapping with cokriging using aerial high resolution images, EGU 2006, pp.1-25, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02587736

[. Bailly, Bathymetry with lidar on gravel bed-rivers : Quality and limits, EGU 2008, p.14, 2008.

[. Bailly, River water surface effects on minimum water depth detection from lidar : a theoretical study on waveforms, IGARSS, 2007.

[. Balland, Rapport sur la Durance, 2002.

E. Baras-;-baras, Etude des stratégies d'occupation du temps et de l'espace chez le barbeau fluviatile, barbus barbus (l.), vol.442, 1992.

. Barta, A. S. Horvath-;-barta, and G. Horvath, Underwater binocular imaging of aerial objects versus the position of eyes relative to the flat water surface, Journal Of The Optical Society Of America A-Optics Image Science And Vision, vol.20, issue.12, pp.2370-2377, 2003.

. Bercher, N. Bercher, and P. Kosuth, Quantifying accuracy and uncertainty, and modelling noise and error of satellite radar altimetry measurement of inland water levels, PSIP (Physics in Signal and Image Processing, p.31, 2007.

[. Bercher, Characterizing the quality of river water level time series derived from satellite altimetry : Efforts towards a standardized methodology, Venice 2006 Symposium "15 years of progress in radar altimetry, pp.13-18, 2006.

D. Bernoulli, Hydrodynamica. Dulsecker. Consultable en ligne, 1738.

[. Borsányi, A meso-scale habitat classification method for production modelling of atlantic salmon in norway, Hydroécologie Appliquée, vol.14, pp.119-138, 2004.

K. Bovee-;-bovee, A guide to stream habitat analysis using the instream flow incremental methodology, rep, Office of Biological Services, issue.12, 1982.

K. D. Bovee-;-bovee, Perspectives on two-dimensional river habitat models : the phabsim experience, Proceedings of Second International Symposium on Habitat Hydraulics, vol.B, pp.149-162, 1996.

J. Brasington and R. M. Smart, Close Range Digital Photogrammetric Analysis of Experimental Drainage Basin Evolution, Earth Surface Processes and Landforms, vol.28, pp.231-247, 2003.

D. Brown, Decentering distortion of lenses, Photogrammetric Engineering, vol.32, issue.3, pp.444-462, 1966.

D. Brown, Lens distortion for close-range photogrammetry, Photogrammetric Engineering, vol.37, issue.8, pp.855-866, 1971.

W. C. Brown and A. K. Majumdar, Point-spread function associated with underwater imaging through a wavy air-water-interfacetheory and laboratory tank experiment, Applied Optics, vol.31, issue.36, pp.7650-7659, 1992.

M. F. Buchroithner, Three-dimensional survey of submarine sedimentary trails by means of spaceborne remote sensing, GeoJournal, vol.24, issue.1, pp.93-101, 1991.

. Burnside, C. Burnside, and H. Marshall, Experiences in calibrating small format cameras, Photogrammetric Record, vol.14, issue.80, pp.323-331, 1992.

[. Carbonneau, Costeffective non-metric close-range digital photogrammetry and its application to a study of coarse gravel river beds, International Journal of Remote Sensing, vol.24, issue.14, pp.2837-2854, 2003.

[. Carbonneau, Feature based image processing methods applied to bathymetric measurements from airborne remote sensing in fluvial environments, Earth Surface Processes and Lamdforms, vol.31, pp.1413-1423, 2006.

[. Carter, . Shankar, G. S. Carter, and U. Shankar, Creating rectangular bathymetry grids for environmental numerical modelling of gravel-bed rivers, Applied Mathematical Modelling, vol.21, issue.11, pp.699-708, 1997.

, Cemagref, 2004.

J. Chandler-;-chandler, Measuring flume surfaces fo hydraulics research using a kodak DCS460, Photogrammetric Record, vol.17, issue.97, pp.39-61, 2001.

[. Chandler, Metric capabilities of low-cost digital cameras for close range surface measurement, Photogrammetric Record, vol.20, issue.109, pp.12-26, 2005.

T. Changeux and D. Pont, Ichthyogeographic regions and watershed size in the french river rhône network, Hydrobiologia, vol.300, pp.355-363, 1995.

P. Chaponnière, Télédétection et bathymétrie des rivières : application à la Durance, 2004.

[. Charvet, Traits of benthic macroinvertebrates in semi-natural french streams : an initial application to biomonitoring in europe, Freshwater Biology, vol.43, issue.2, pp.277-296, 2000.
URL : https://hal.archives-ouvertes.fr/hal-02578995

. Church, Stabilizing self-organized structures in gravel-bed stream channels : field and experimental observations, Water Resources Research, vol.34, issue.11, pp.3169-3179, 1998.

C. Fryer-;-clarke, T. A. Fryer, and J. G. , The development of camera calibration methods and models, Photogrammetric Record, vol.16, issue.91, pp.51-66, 1998.

J. E. Costa, Hydro21 -Update on Future Flood Measurements : Look But Do Not Touch, New and Evolving Concepts in Indirect Discharge Measurements, 2001.

J. Creutin, Local Remote Sensing of Rivers, 2001.

[. Creutin, River gauging using piv technique : Proof of concept experiment on the iowa river, Journal of Hydrology, vol.277, pp.182-194, 2003.

D. Crowder and P. Diplas, Using two-dimensional hydrodynamic models at scales of ecological importance, Journal of Hydrology, vol.230, pp.172-191, 2000.

. Daimon, M. Masumura-;-daimon, and A. Masumura, Measurement of the refractive index of distilled water from the near-infrared region to the ultraviolet region, Applied Optics, vol.46, issue.18, pp.3811-3820, 2007.

Y. Egels, Poivilliers E -restituteur numerique, ENSG. Version, vol.5, p.5, 1999.

Y. Egels, Photogrammétrie et micro-ordinateur, vol.82, pp.31-35, 2000.

O. D. Faugeras and G. Toscani, Camera calibration for 3d computer vision, Proceedings IEEE on Industrial Application of Machine Vision and Machine Intelligence, 1987.

P. Fermat-;-fermat and . Feurer, Very high resolution mapping of river immersed topography by remote sensing, Synthèse pour les réfractions. Gauthier-Villars, vol.32, pp.403-419, 1896.

[. Feurer, On the use of very high resolution optical images to map river bathymetry : Upscaling from aerial to satellite imagery, Second Space for Hydrology Workshop "Surface Water Storage and Runoff : Modeling, In-Situ Data and Remote Sensing, pp.12-14, 2007.

[. Feurer, Bathymetric measurement of rivers by remote sensing techniques : a review, TISORS II, pp.1-25, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02588058

[. Feurer, River depth measurement with through-water photogrammetry using nonmetric cameras : error sources analysis, EGU 2005, pp.24-28, 2005.

. Fryer and J. Fryer, Photogrammetry through shallow water, Australian Journal of Geodesy, Photogrammetry & Surveying, vol.38, pp.25-38, 1983.

. Fryer and J. Fryer, A simple system for photogrammetric mapping in shallow water, Photogrammetric Record, vol.11, issue.62, pp.203-208, 1983.

J. Fryer, Errors in depth determined by through-water photogrammetry, Australian Journal of Geodesy, vol.40, pp.29-39, 1984.

. Fryer and J. Fryer, Errors in depth determination caused by waves in through-water photogrammetry, Photogrammetric Record, vol.11, issue.66, pp.745-753, 1985.

. Fryer and J. Fryer, Some strategies for improving the accuracy of depths determined by through-water photogrammetry, Photogrammetry & Surveying, vol.43, pp.45-60, 1985.

[. Fujita, Surface velocity measurement of river flow using images of an oblique angle, Proceedings XXVIIth IAHR Conference, vol.1, pp.227-232, 1997.

, Projets_de_ recherche (dernière consultation : 22 avril, 2008.

[. Gilvear, Detection of estuarine and tidal river hydromorphology using hyper-spectral and LiDAR data : Forth estuary, Estuarine, Coastal and Shelf Science, vol.61, issue.3, pp.379-392, 2004.

[. Gilvear, The use of remotely sensed data to detect channel hydromorphology, River Tummel, Scotland. River Research and Applications, vol.20, issue.7, pp.795-811, 2004.

. Gorman, O. Karr-;-gorman, and J. Karr, Habitat structure and stream fish communities, Ecology, vol.59, pp.507-515, 1978.

J. Hardin, P. J. Hardin, and M. W. Jackson, An unmanned aerial vehicle for rangeland photography, Rangeland Ecology & Management, vol.58, issue.4, pp.439-442, 2005.

A. Hauet and . Inp-grenoble, Estimation de débit et mesure de vitesse en rivière par Large-Scale Particle Image Velocimetry, 2006.

R. Hilldale-;-hilldale, R. C. Hilldale, and D. Et-raff, Using bathymetric lidar and 2-d hydraulic modeling to map riverine aquatic habitat, Earth Surface Processes and Landforms, vol.33, pp.773-783, 2007.

[. Holland, Quantification of swash flows using video-based particle image velocimetry, Coastal Engineering, vol.44, pp.65-77, 2001.

[. Horvath, Looking into the water with oblique head tilting : revision of the aerial binocular imaging of underwater objects, Journal Of The Optical Society Of America A-Optics Image Science And Vision, vol.20, issue.6, pp.1120-1131, 2003.

N. Jerlov, Marine Optics, p.231, 1976.

S. Juramy and I. Monfort, L'évolution des lits fluviaux : l'exemple d'une rivière aménagée : la Durance, 1985.

. Karara, Non-Topographic Photogrammetry, American Society for Photogrammetry and Remote Sensing (ASPRS), pp.160-166, 1989.

M. Kasser and Y. Egels, Photogrammétrie numérique. Collection ENSG-IGN. Hermès, 2001.

[. Kinzel, Mapping a shallow, braided river with the experimental advanced airborne research lidar (eaarl), EGU 2008, p.14, 2008.

, Evaluation of an experimental lidar for surveying a shallow, braided, sandbedded river, Journal of Hydraulic Engineering, vol.133, issue.7, pp.838-842, 2007.

H. T. Kniest, Originally presented as the author's thesis (Ph. D.) -University of, pp.148-152, 1990.

. Krauss, K. Krauss, and P. Waldhäusl, Manuel de photogrammétrie, 1998.

[. Labbé, An operational solution to acquire multispectral images with standard light cameras : Characterization and acquisition guidelines, ISPRS Workshop : Airborne Digital Photogrammetric Sensor Systems, pp.11-14, 2007.

S. Lane, The measurement of river channel morphology using digital photogrammetry, Photogrammetric Record, vol.16, issue.96, pp.937-957, 2000.

[. Coarer and Y. , hydrosignature" software for hydraulic quantification, Proceedings from the final meeting in, pp.193-203, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02586963

L. Coarer-;-le-coarer and Y. , Hydraulic signatures for ecological modelling at different scales, Aquatic Ecology, vol.41, issue.3, pp.451-459, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02588851

. [le-coarer, Renouvellement de la concession de sainte tulle 1. Étude expérimentale des débits réservés en moyenne durance. lot 1 "eco-géomorphologie". campagnes de terrain, vol.127, 2005.
URL : https://hal.archives-ouvertes.fr/hal-02588655

. [le-coarer, Y. Dumont-;-le-coarer, and B. Dumont, Modelling stream morphodynamics for research in habitat-aquatic fauna relationships. Bulletin Français de la Pêche et de la Pisciculture, vol.337, pp.309-316, 1995.
URL : https://hal.archives-ouvertes.fr/hal-02574192

. [le-coarer, Y. Dumont-;-le-coarer, and B. Dumont, Virtual rivers for the study of aquatic fauna, Ingénieries, vol.2, pp.21-28, 1995.

[. Leckie, Automated mapping of stream features with high-resolution multispectral imagery : An example of the capabilities, Photogrammetric Engineering and Remote Sensing, vol.71, issue.2, pp.145-155, 2005.

. Legifrance, Loi n ? 92-3 du 3 janvier 1992 sur l'eau, LEGITEXT000006055130&dateTexte=20080318 (dernière consultation : 18 mars, 1992.

. Legifrance, Loi n ? 2006-1772 du 30 décembre 2006 sur l'eau et les milieux aquatiques, LEGITEXT000006055130&dateTexte=20080318 (dernière consultation : 18 mars, 2006.

C. Legleiter, Effects of Sensor Resolution on mapping in-stream habitats, Photogrammetric Engineering and Remote Sensing, vol.68, issue.8, pp.801-807, 2002.

. Legleiter, C. Legleiter, and D. Roberts, Effects of channel morphology and sensor spatial resolution on image-derived depth estimates, Remote Sensing of Environment, vol.95, issue.2, pp.231-247, 2005.

[. Legleiter, Passive optical remote sensing of river channel morphology and in-stream tel-00818380, version 1 -25, Remote Sensing of Environment, vol.93, issue.4, pp.493-510, 2004.

, Leica Photogrammetry Suite OrthoBASE & OrthoBASE Pro User's Guide, 2003.

[. Lejot, Very high spatial resolution imagery for channel bathymetry and topography from an unmanned mapping controlled platform, Earth Surface Processes and Landforms, vol.32, pp.1705-1725, 2007.
URL : https://hal.archives-ouvertes.fr/halshs-00280061

[. Lesaignoux, Small water depth detection from green lidar simulated full waveforms : application to gravel-bed river bathymetry, Izvestiya Akademii Nauk Fizika Atmosfery I Okeana, vol.32, issue.2, pp.296-302, 1996.
URL : https://hal.archives-ouvertes.fr/hal-02588919

D. R. Lyzenga, Passive remote-sensing techniques for mapping water depth and bottom features, Applied Optics, vol.17, pp.379-383, 1978.

J. Malavoi, Typologie des faciès d'écoulement ou unités morphodynamiques des cours d'eau à haute énergie. Bulletin Français de la Pêche et de la Pisciculture, vol.315, pp.189-210, 1989.

J. Malavoi and Y. Souchon, Description standardisée des principaux faciès d'écoulement observables en rivière : clé de détermination qualitative et mesures physiques. Bulletin Français de la Pêche et de la Pisciculture, vol.365, pp.357-372, 2002.

A. Marcus, Mapping of stream microhabitats with high spatial resolution hyperspectral imagery, Journal of Geographical Systems, vol.4, pp.113-126, 2002.

[. Marcus, High spatial resolution hyperspectral mapping of in-stream habitats, depths, and woody debris in moutain streams, Geomorphology, vol.55, pp.363-380, 2003.

W. A. Marcus and M. Fonstad, Creating the international network of river observatory scientists (inros), EGU 2008, p.14, 2008.

;. Mei and C. Mei, Camera Calibration Toolbox for Matlab, 2005.

[. Melcher, River discharge measurements by using helicopter-mounted radar, Geophysical Research Letters, vol.29, issue.22, p.2084, 2002.

L. A. Mertes, Remote sensing of riverine landscapes, Freshwater Biology, vol.47, pp.799-816, 2002.

D. Millar-;-millar, Using airborne lidar bathymetry to map shallow river environments : a successful pilot on the colorado river, EGU 2008, p.14, 2008.

[. Mills, Geometric assessment of the Kodak DCS Pro Back. Photogrammetric Record, vol.18, pp.193-208, 2003.

, Pêche sportive : Des marchés prometteurs pour les entreprises québécoises, La faune et la nature ÇA COMPTE ! Gouvernement du Québec, 2004.

, Politique nationale de l'eau, 2002.

C. D. Mobley-;-mobley and R. Mount, Acquisition of Through-water Aerial Survey Images : Surface Effects and the Prediction of Sun Glitter and Subsurface Illumination. Photogrammetric Engineering and Remote Sensing, vol.71, pp.1407-1415, 1994.

[. Muller, Contribution of Space Remote-Sensing to River Studies, Freshwater Biology, vol.29, issue.2, pp.301-312, 1993.

E. A. Murphy-;-murphy, If anything can go wrong, 1949.

[. Muste, Validation and extension of image velocimetry capabilities for flow diagnostics in hydraulic modeling, Journal of Hydraulic Engineering, vol.130, issue.3, pp.175-185, 2004.

P. R. Newby, Technical terminology for the photogrammetric community, The Photogrammetric Record, vol.22, issue.118, pp.164-179, 2007.

A. Okamoto, Wave influences in two-media photogrammetry, Photogrammetric Engineering and Remote Sensing, vol.48, issue.9, pp.1487-1499, 1982.

D. Orth, Food web influences on fish population responses to instream flow, vol.339, pp.317-328, 1995.

A. Paquier, Modélisation des écoulements en rivière en crue : pour une utilisation adaptée des équations de Saint Venant, 2002.

G. Perec-;-perec, Cantatrix sopranica L. et autres écrits scientifiques, chapter Experimental Demonstration of the tomatotopic organization in the sprano (Cantatrix sopranica L, p.117, 1991.

M. Pierrot-deseilligny, Micmac, un logiciel pour la mise en correspondance automatique d'images dans le contexte géographique, Bulletin d'Information Scientifique et Technique de l'IGN, p.77, 2007.

. Pierrot-deseilligny, ;. Paparoditis, M. Pierrot-deseilligny, N. Paparoditis, W. J. Plant et al., A multiresolution and optimization-based image matching approach : An application to surface reconstruction from spot5-hrs stereo imagery, IAPRS vol XXXVI-1/W41 -ISPRS Workshop On Topographic Mapping From Space (With Special Emphasis on Small Satellites), vol.43, pp.1242-1257, 2005.

G. Priestnall and P. Et-aplin, Spatial and temporal remote sensing requirements for river monitoring, International Journal of Remote Sensing, vol.27, issue.11, pp.2111-2120, 2006.

C. Puech, Mémoire de recherches : Utilisation de la télédétection et des modèles numériques de terrain pour la connaissance du fonctionnement des hydrosystèmes, 2000.

[. Puech, Morphologic segmentation of rivers from satellite high spatial resolution multi-spectral images, EGU 2008, p.14, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02591396

[. Puech, Images, modèles et biomasse immergée. cartographie des herbiers de zostères en camargue à partir d'images spot-5, vol.15, pp.143-157, 2005.

C. Rabaud, Une nouvelle approche de mise en correspondance stéréoscopique dense par méthodes possibilistes, 2005.

M. Rabotin, Base de données piscicoles du bassin versant de la durance : mise en place d'un système d'information géographique, 2002.

D. Raclot, Méthodologie d'exploitation quantitative des photographies aériennes d'inondation de plaine, vol.286, 2003.

K. Rinner, Abbildungsgesetz und orientierungsaufgaben in der zweimedienphotogrammetrie, Österrische Zeitschrift für Vermessungswesen, Sonderheft, vol.5, 1948.

K. Rinner, Two media photogrammetry. Photogrammetric Engineering, vol.35, pp.275-282, 1969.

R. Ritchie, J. Rango, and A. , Remote sensing applications to hydrology -introduction, Hydrological Sciences Journal, vol.41, pp.429-431, 1996.

J. Rivière, Réalisation d'une maquette virtuelle de la grotte mayenne sciences pour de la visite virtuelle 3d à travers d'un site web, 2003.

T. Schmugge-;-schmugge, Remote sensing applications in hydrology. Review of Geophysics, vol.25, pp.148-152, 1987.

[. Schmugge, Remote sensing in hydrology, Advances In Water Resources, vol.25, issue.8-12, pp.1367-1385, 2002.

. Schultz, . Engman, G. Schultz, and E. Engman, Remote Sensing in Hydrology and Water Management, 2000.

J. Shan-;-shan, Relative Orientation For 2-Media Photogrammetry. Photogrammetric Record, vol.14, pp.993-999, 1994.

T. Short, The calibration of a 35mm nonmetric camera and the investigation of its potential use in photogrammetry, Photogrammetric Record, vol.14, issue.80, pp.313-322, 1992.

. Sony, Digital Still Camera DSC F828. Sony Corporation, p.17, 2003.

;. Spotimage and . Spotimage, , p.23, 2008.

[. Sugiura, Remote-sensing technology for vegetation monitoring using an unmanned helicopter, Biosystems Engineering, vol.90, issue.4, pp.369-379, 2005.

W. Tan, Positional errors in analytical through-water photogrammetry, Australian Journal of Geodesy, Photogrammetry and Surveying, vol.50, pp.73-87, 1989.

G. Tewinkel, Water depths from aerial photographs. Photogrammetric Engineering, vol.29, pp.1421-1428, 1963.

G. F. Tomlins, Some Considerations in the Design of Low-Cost Remotely-Piloted Aircraft for Civil Remote-Sensing Applications, Canadian Surveyor-Geometre Canadien, vol.37, issue.3, pp.157-167, 1983.

J. M. Wanek and C. H. Wu, Automated trinocular stereo imaging system for three-dimensional surface wave measurements. Ocean Engineering, vol.33, pp.723-747, 2006.

R. Warner, Gross channel changes along the durance river, southern france, over the last 100 years using cartographic data, vol.16, pp.141-157, 2000.

J. Wasson, Les questions de recherche posées par la directive cadre européenne sur l'eau : problématique pour les eaux de surface continentales, Hydroécologie Appliquée, vol.13, issue.1, pp.1-19, 2001.

[. Westaway, The development of an automated correction procedure for digital photogrammetry for the study of wide, shallow, gravel-bed rivers, Earth Surface Processes and Landforms, vol.25, pp.209-226, 2000.

[. Westaway, Remote sensing of clear-water, gravel-bed rivers using digital photogrammetry, Photogrammetric Engineering and Remote Sensing, vol.67, issue.11, pp.1271-1281, 2001.

[. Wildhaber, A comparison of measures of riverbed form for evaluating distributions of benthic fishes, North American Journal of Fisheries Management, vol.23, issue.2, pp.543-557, 2003.

[. Wright, Evaluation of multispectral, fine scale digital imagery as a tool for mapping stream morphology, Geomorphology, vol.33, pp.107-120, 2000.

K. Zaar, Zweimediaphotogrammetrie. Österreische Zeitschrift für Vermessungswesen, vol.4, p.36, 1948.

[. Zafrir, Unmanned airborne system in real-time radiological monitoring, Radiation Protection Dosimetry, vol.50, issue.2-4, pp.1-25, 1993.