Structure from motion (French Wikipedia)

Analysis of information sources in references of the Wikipedia article "Structure from motion" in French language version.

refsWebsite

Global rank French rank

14doi.org

2^nd place

3^rd place

4issn.org

57^th place

4^th place

3wiley.com

222^nd place

129^th place

1dml.cz

low place

1acm.org

1,185^th place

1,318^th place

1cmu.edu

1,564^th place

1,809^th place

1tum.de

7,448^th place

low place

1cv-foundation.org

low place

1springer.com

274^th place

223^rd place

1ieee.org

652^nd place

741^st place

1sciencedirect.com

149^th place

80^th place

1mdpi.com

2,912^th place

1,010^th place

1geoscienceworld.org

3,158^th place

3,502^nd place

acm.org (Global: 1,185^th place; French: 1,318^th place)

dl.acm.org

B. D. Lucas et T. Kanade, « An iterative image registration technique with an application to stereo vision », IJCAI'81 Proceedings of the 7th international joint conference on Artificial intelligence, vol. 2,‎ 24 août 1981, p. 674-679 (résumé)

cmu.edu (Global: 1,564^th place; French: 1,809^th place)

ri.cmu.edu

F. Dellaert, S. Seitz, C. Thorpe et S. Thrun, « Structure from Motion without Correspondence », IEEE Computer Society Conference on Computer Vision and Pattern Recognition,‎ 2000 (lire en ligne)

cv-foundation.org (Global: low place; French: low place)

J.L. Schönberger et J.M. Frahm, « Structure-from-Motion Revisited », IEEE Computer Society Conference on Computer Vision and Pattern Recognition,‎ 2016 (lire en ligne)

dml.cz (Global: low place; French: low place)

K. Häming et G. Peters, « The structure-from-motion reconstruction pipeline – a survey with focus on short image sequences », Kybernetika,‎ 2010 (lire en ligne)

doi.org (Global: 2^nd place; French: 3^rd place)

dx.doi.org

D. G. Lowe, « Distinctive image features from scale-invariant keypoints », International Journal of Computer Vision, vol. 60,‎ 2004, p. 91–110 (DOI 10.1023/b:visi.0000029664.99615.94)
M. A. Fischler et R. C. Bolles, « Random sample consensus: a paradigm for model fitting with applications to image analysis and automated cartography », Commun. ACM, vol. 24,‎ 1981, p. 381–395 (DOI 10.1145/358669.358692)
M. J. Westoby, J. Brasington, N. F. Glasser, M. J. Hambrey et J. M. Reynolds, « ‘Structure-from-Motion’ photogrammetry: A low-cost, effective tool for geoscience applications », Geomorphology, vol. 179,‎ 15 décembre 2012, p. 300–314 (DOI 10.1016/j.geomorph.2012.08.021, lire en ligne)
(en) M. R. James et S. Robson, « Straightforward reconstruction of 3D surfaces and topography with a camera: Accuracy and geoscience application », Journal of Geophysical Research: Earth Surface, vol. 117, n^o F3,‎ 1^er septembre 2012, F03017 (ISSN 2156-2202, DOI 10.1029/2011jf002289, lire en ligne)
(en) Mark A. Fonstad, James T. Dietrich, Brittany C. Courville, Jennifer L. Jensen et Patrice E. Carbonneau, « Topographic structure from motion: a new development in photogrammetric measurement », Earth Surface Processes and Landforms, vol. 38, n^o 4,‎ 30 mars 2013, p. 421–430 (ISSN 1096-9837, DOI 10.1002/esp.3366, lire en ligne)
L. Javernick, J. Brasington et B. Caruso, « Modeling the topography of shallow braided rivers using Structure-from-Motion photogrammetry », Geomorphology, vol. 213,‎ 15 mai 2014, p. 166–182 (DOI 10.1016/j.geomorph.2014.01.006, lire en ligne)
(en) Mark William Smith et Damià Vericat, « From experimental plots to experimental landscapes: topography, erosion and deposition in sub-humid badlands from Structure-from-Motion photogrammetry », Earth Surface Processes and Landforms, vol. 40, n^o 12,‎ 30 septembre 2015, p. 1656–1671 (ISSN 1096-9837, DOI 10.1002/esp.3747, lire en ligne)
(en) Evan B Goldstein, Amber R Oliver, Elsemarie deVries, Laura J Moore et Theo Jass, « Ground control point requirements for structure-from-motion derived topography in low-slope coastal environments », PeerJ PrePrints,‎ 22 octobre 2015 (ISSN 2167-9843, DOI 10.7287/peerj.preprints.1444v1, lire en ligne)
(en) Francesco Mancini, Marco Dubbini, Mario Gattelli, Francesco Stecchi, Stefano Fabbri et Giovanni Gabbianelli, « Using Unmanned Aerial Vehicles (UAV) for High-Resolution Reconstruction of Topography: The Structure from Motion Approach on Coastal Environments », Remote Sensing, vol. 5, n^o 12,‎ 9 décembre 2013, p. 6880–6898 (DOI 10.3390/rs5126880, lire en ligne)
Kendra Johnson, Edwin Nissen, Srikanth Saripalli, J. Ramón Arrowsmith, Patrick McGarey, Katherine Scharer, Patrick Williams et Kimberly Blisniuk, « Rapid mapping of ultrafine fault zone topography with structure from motion », Geosphere, vol. 10, n^o 5,‎ 1^er octobre 2014, p. 969–986 (DOI 10.1130/GES01017.1, lire en ligne)
Mitch Bryson, Stephanie Duce, Dan Harris, Jody M. Webster, Alisha Thompson, Ana Vila-Concejo et Stefan B. Williams, « Geomorphic changes of a coral shingle cay measured using Kite Aerial Photography », Geomorphology, vol. 270,‎ 1^er octobre 2016, p. 1–8 (DOI 10.1016/j.geomorph.2016.06.018, lire en ligne)

doi.org

L. Javernick, J. Brasington et B. Caruso, « Modeling the topography of shallow braided rivers using Structure-from-Motion photogrammetry », Geomorphology, vol. 213,‎ 15 mai 2014, p. 166–182 (DOI 10.1016/j.geomorph.2014.01.006, lire en ligne)
(en) Evan B Goldstein, Amber R Oliver, Elsemarie deVries, Laura J Moore et Theo Jass, « Ground control point requirements for structure-from-motion derived topography in low-slope coastal environments », PeerJ PrePrints,‎ 22 octobre 2015 (ISSN 2167-9843, DOI 10.7287/peerj.preprints.1444v1, lire en ligne)
Mitch Bryson, Stephanie Duce, Dan Harris, Jody M. Webster, Alisha Thompson, Ana Vila-Concejo et Stefan B. Williams, « Geomorphic changes of a coral shingle cay measured using Kite Aerial Photography », Geomorphology, vol. 270,‎ 1^er octobre 2016, p. 1–8 (DOI 10.1016/j.geomorph.2016.06.018, lire en ligne)

geoscienceworld.org (Global: 3,158^th place; French: 3,502^nd place)

pubs.geoscienceworld.org

Kendra Johnson, Edwin Nissen, Srikanth Saripalli, J. Ramón Arrowsmith, Patrick McGarey, Katherine Scharer, Patrick Williams et Kimberly Blisniuk, « Rapid mapping of ultrafine fault zone topography with structure from motion », Geosphere, vol. 10, n^o 5,‎ 1^er octobre 2014, p. 969–986 (DOI 10.1130/GES01017.1, lire en ligne)

ieee.org (Global: 652^nd place; French: 741^st place)

ieeexplore.ieee.org

V.M. Govindu, « Combining two-view constraints for motion estimation », IEEE Computer Society Conference on Computer Vision and Pattern Recognition,‎ 2001 (lire en ligne)

issn.org (Global: 57^th place; French: 4^th place)

portal.issn.org

(en) M. R. James et S. Robson, « Straightforward reconstruction of 3D surfaces and topography with a camera: Accuracy and geoscience application », Journal of Geophysical Research: Earth Surface, vol. 117, n^o F3,‎ 1^er septembre 2012, F03017 (ISSN 2156-2202, DOI 10.1029/2011jf002289, lire en ligne)
(en) Mark A. Fonstad, James T. Dietrich, Brittany C. Courville, Jennifer L. Jensen et Patrice E. Carbonneau, « Topographic structure from motion: a new development in photogrammetric measurement », Earth Surface Processes and Landforms, vol. 38, n^o 4,‎ 30 mars 2013, p. 421–430 (ISSN 1096-9837, DOI 10.1002/esp.3366, lire en ligne)
(en) Mark William Smith et Damià Vericat, « From experimental plots to experimental landscapes: topography, erosion and deposition in sub-humid badlands from Structure-from-Motion photogrammetry », Earth Surface Processes and Landforms, vol. 40, n^o 12,‎ 30 septembre 2015, p. 1656–1671 (ISSN 1096-9837, DOI 10.1002/esp.3747, lire en ligne)
(en) Evan B Goldstein, Amber R Oliver, Elsemarie deVries, Laura J Moore et Theo Jass, « Ground control point requirements for structure-from-motion derived topography in low-slope coastal environments », PeerJ PrePrints,‎ 22 octobre 2015 (ISSN 2167-9843, DOI 10.7287/peerj.preprints.1444v1, lire en ligne)

mdpi.com (Global: 2,912^th place; French: 1,010^th place)

(en) Francesco Mancini, Marco Dubbini, Mario Gattelli, Francesco Stecchi, Stefano Fabbri et Giovanni Gabbianelli, « Using Unmanned Aerial Vehicles (UAV) for High-Resolution Reconstruction of Topography: The Structure from Motion Approach on Coastal Environments », Remote Sensing, vol. 5, n^o 12,‎ 9 décembre 2013, p. 6880–6898 (DOI 10.3390/rs5126880, lire en ligne)

sciencedirect.com (Global: 149^th place; French: 80^th place)

M. J. Westoby, J. Brasington, N. F. Glasser, M. J. Hambrey et J. M. Reynolds, « ‘Structure-from-Motion’ photogrammetry: A low-cost, effective tool for geoscience applications », Geomorphology, vol. 179,‎ 15 décembre 2012, p. 300–314 (DOI 10.1016/j.geomorph.2012.08.021, lire en ligne)

springer.com (Global: 274^th place; French: 223^rd place)

link.springer.com

C. Tomasi et T. Kanade, « Shape and motion from image streams under orthography: a factorization method », International Journal of Computer Vision,‎ 1992 (lire en ligne)

tum.de (Global: 7,448^th place; French: low place)

vision.in.tum.de

Jakob Engel, Thomas Schöps et Daniel Cremers « European Conference on Computer Vision (ECCV) 2014 » (2014) (lire en ligne) [PDF]

wiley.com (Global: 222^nd place; French: 129^th place)

onlinelibrary.wiley.com

(en) M. R. James et S. Robson, « Straightforward reconstruction of 3D surfaces and topography with a camera: Accuracy and geoscience application », Journal of Geophysical Research: Earth Surface, vol. 117, n^o F3,‎ 1^er septembre 2012, F03017 (ISSN 2156-2202, DOI 10.1029/2011jf002289, lire en ligne)
(en) Mark A. Fonstad, James T. Dietrich, Brittany C. Courville, Jennifer L. Jensen et Patrice E. Carbonneau, « Topographic structure from motion: a new development in photogrammetric measurement », Earth Surface Processes and Landforms, vol. 38, n^o 4,‎ 30 mars 2013, p. 421–430 (ISSN 1096-9837, DOI 10.1002/esp.3366, lire en ligne)
(en) Mark William Smith et Damià Vericat, « From experimental plots to experimental landscapes: topography, erosion and deposition in sub-humid badlands from Structure-from-Motion photogrammetry », Earth Surface Processes and Landforms, vol. 40, n^o 12,‎ 30 septembre 2015, p. 1656–1671 (ISSN 1096-9837, DOI 10.1002/esp.3747, lire en ligne)

Structure from motion (French Wikipedia)

acm.org (Global: 1,185th place; French: 1,318th place)

dl.acm.org

cmu.edu (Global: 1,564th place; French: 1,809th place)

ri.cmu.edu

cv-foundation.org (Global: low place; French: low place)

dml.cz (Global: low place; French: low place)

doi.org (Global: 2nd place; French: 3rd place)

dx.doi.org

doi.org

geoscienceworld.org (Global: 3,158th place; French: 3,502nd place)

pubs.geoscienceworld.org

ieee.org (Global: 652nd place; French: 741st place)

ieeexplore.ieee.org

issn.org (Global: 57th place; French: 4th place)

portal.issn.org

mdpi.com (Global: 2,912th place; French: 1,010th place)

sciencedirect.com (Global: 149th place; French: 80th place)

springer.com (Global: 274th place; French: 223rd place)

link.springer.com

tum.de (Global: 7,448th place; French: low place)

vision.in.tum.de

wiley.com (Global: 222nd place; French: 129th place)

onlinelibrary.wiley.com

acm.org (Global: 1,185^th place; French: 1,318^th place)

cmu.edu (Global: 1,564^th place; French: 1,809^th place)

doi.org (Global: 2^nd place; French: 3^rd place)

geoscienceworld.org (Global: 3,158^th place; French: 3,502^nd place)

ieee.org (Global: 652^nd place; French: 741^st place)

issn.org (Global: 57^th place; French: 4^th place)

mdpi.com (Global: 2,912^th place; French: 1,010^th place)

sciencedirect.com (Global: 149^th place; French: 80^th place)

springer.com (Global: 274^th place; French: 223^rd place)

tum.de (Global: 7,448^th place; French: low place)

wiley.com (Global: 222^nd place; French: 129^th place)