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Journal articles on the topic 'Stereophotograph'

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Author: Grafiati
Published: 10 June 2022

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1

Jodeh, Diana S., and S. Alex Rottgers. "High-Fidelity Anthropometric Facial Measurements Can Be Obtained From a Single Stereophotograph From the Vectra H1 3-Dimensional Camera." Cleft Palate-Craniofacial Journal 56, no. 9 (April 7, 2019): 1164–70. http://dx.doi.org/10.1177/1055665619839577.

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Background: Anthropometry is a well-established means of measuring facial morphology. Although reliable, direct anthropometry can be time-consuming and not conducive to a busy clinical practice. The Vectra H1 handheld stereophotogrammetric system requires 3 stereophotographs taken from different perspectives to generate a three-dimensional (3D) surface. The time needed to take the 3 stereophotographs can increase the possibility of involuntary movements, precluding its use to assess young patients. To overcome this limitation, we evaluated if accurate linear facial measurements can be obtained from a single stereophotograph and compare these to the measurements taken by direct anthropometry. Methods: Twenty pediatric patients, aged 0 to 10 years, who were undergoing minor surgical procedures at Johns Hopkins All Children’s Hospital were recruited. Fourteen linear facial distances were obtained from each participant using direct anthropometry under general anesthesia. These same distances were measured using Mirror 3D analysis. Intraclass correlation was used to determine intrarater reliability on duplicate 3D images. Results: Correlation coefficients between 3D imaging in frontal view and direct anthropometric measurements were excellent for 13 measures taken, ranging from 0.8 (subnasale to columella and subnasale to stomion superius) to 0.98 (nasion to subnasale and subnasale to labiale superius). Correlation coefficients between submental view and direct anthropometric measurements were excellent for 13 measures as well, ranging from 0.77 (subnasale to columella) to 0.98 (nasion to subnasale). Conclusions: Linear anthropometric measurements taken from 3D surfaces generated from a single stereophotograph correlate closely with direct anthropometric measures. This improves workflow and applicability of anthropometric studies to our youngest patients.
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2

Matsumoto, Taku, Fumihiko Matsui, Tomohiro Matsushita, Kentaro Goto, Yukako Kato, and Hiroshi Daimon. "Stereophotograph of InP(001) Surface." e-Journal of Surface Science and Nanotechnology 7 (2009): 181–85. http://dx.doi.org/10.1380/ejssnt.2009.181.

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3

Costa, Carolina Tavares, Hilton Justino da Silva, and Adriana Camargo Gomes. "Confiabilidade de medidas faciais indiretas obtidas por uma única estereofotografia digital tridimensional em relação a medidas faciais diretas padrão, em crianças." Distúrbios da Comunicação 32, no. 1 (April 16, 2020): 176–79. http://dx.doi.org/10.23925/2176-2724.2020v32i1p176-179.

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4

Guo, F. Z., T. Matsushita, K. Kobayashi, F. Matsui, Y. Kato, H. Daimon, M. Koyano, Y. Yamamura, T. Tsuji, and Y. Saitoh. "Atomic stereophotograph of intercalation compound Fe1∕3NbS2." Journal of Applied Physics 99, no. 2 (January 15, 2006): 024907. http://dx.doi.org/10.1063/1.2163995.

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5

Chan, Poemen P., Vivian Chiu, and Mandy O. Wong. "Variability of vertical cup to disc ratio measurement and the effects of glaucoma 5-year risk estimation in untreated ocular hypertensive eyes." British Journal of Ophthalmology 103, no. 3 (June 1, 2018): 361–68. http://dx.doi.org/10.1136/bjophthalmol-2017-311841.

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AimTo compare the vertical cup to disc ratio (VCDR) measurements obtained with optical coherence tomography (OCT), Heidelberg retina tomography (HRT) and stereophotography of the optic nerve head (ONH) in patients with ocular hypertension (OHT), and their corresponding estimated 5-year risk for development of glaucoma.MethodsONH images of patients with OHT were taken by fundus camera (stereoscopic images), OCT and HRT. Optic disc stereophotographs were evaluated with a stereo-viewer by two glaucoma specialists (SP1 and SP2) and the VCDR was measured with the ImageJ software. VCDR measurements obtained with stereophotography, OCT and HRT were used to calculate the estimated 5-year risk.ResultsOne hundred and forty eyes of 75 patients with OHT were included. The VCDR values measured by OCT, HRT, SP1 and SP2 were 0.60±0.14, 0.53±0.23, 0.44±0.13 and 0.49±0.10, respectively. The corresponding 5-year risk for development of glaucoma was 19.54%±16.60%, 18.13%±16.96%, 15.64%±14.35% and 16.70%±14.49%, respectively. Different degrees of proportional biases were observed in VCDR measurements obtained with stereophotography, OCT and HRT. The maximum difference of VCDR measurement was 0.64, while the maximum difference of the corresponding 5-year risk was 24.02%.ConclusionThe disagreement in VCDR measured by OCT, HRT and stereophotography in untreated OHT eyes extends to their 5-year risk estimation of glaucoma development.
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Alencar, Luciana M., Christopher Bowd, Robert N. Weinreb, Linda M. Zangwill, Pamela A. Sample, and Felipe A. Medeiros. "Comparison of HRT-3 Glaucoma Probability Score and Subjective Stereophotograph Assessment for Prediction of Progression in Glaucoma." Investigative Opthalmology & Visual Science 49, no. 5 (May 1, 2008): 1898. http://dx.doi.org/10.1167/iovs.07-0111.

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7

Kourkoutas, D., Y. M. Buys, J. G. Flanagan, N. Karamaounas, G. Georgopoulos, E. Iliakis, M. M. Moschos, and G. E. Trope. "Clinical Significance of Optic Disc Progression by Topographic Change Analysis Maps in Glaucoma: An 8-Year Follow-Up Study." Journal of Ophthalmology 2014 (2014): 1–12. http://dx.doi.org/10.1155/2014/987389.

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Aim. To investigate the ability of Heidelberg Retina Tomograph (HRT3) Topographic Change Analysis (TCA) map to predict the subsequent development of clinical change, in patients with glaucoma.Materials. 61 eyes of 61 patients, which, from a retrospective review were defined as stable on optic nerve head (ONH) stereophotographs and visual field (VF), were enrolled in a prospective study. Eyes were classified as TCA-stable or TCA-progressed based on the TCA map. All patients underwent HRT3, VF, and ONH stereophotography at 9–12 months intervals. Clinical glaucoma progression was determined by masked assessment of ONH stereophotographs and VF Guided Progression Analysis.Results. The median (IQR) total HRT follow-up period was 8.1 (7.3, 9.1) years, which included a median retrospective and prospective follow-up time of 3.9 (3.1, 5.0) and 4.0 (3.5, 4.7) years, respectively. In the TCA-stable eyes, VF and/or photographic progression occurred in 5/13 (38.4%) eyes compared to 11/48 (22.9%) of the TCA-progressed eyes. There was no statistically significant association between TCA progression and clinically relevant (photographic and/or VF) progression (hazard ratio, 1.18;P=0.762). The observed median time to clinical progression from enrollment was significantly shorter in the TCA-progressed group compared to the TCA-stable group (P=0.04).Conclusion. Our results indicate that the commercially available TCA progression criteria do not adequately predict subsequent photographic and/or VF progression.
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Bowd, Christopher, Linda M. Zangwill, Felipe A. Medeiros, Jiucang Hao, Kwokleung Chan, Te-Won Lee, Terrence J. Sejnowski, et al. "Confocal Scanning Laser Ophthalmoscopy Classifiers and Stereophotograph Evaluation for Prediction of Visual Field Abnormalities in Glaucoma-Suspect Eyes." Investigative Opthalmology & Visual Science 45, no. 7 (July 1, 2004): 2255. http://dx.doi.org/10.1167/iovs.03-1087.

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9

Hood, Colin. "Stereophotography in ophthalmology: Part I." Journal of Audiovisual Media in Medicine 9, no. 4 (January 1986): 135–40. http://dx.doi.org/10.3109/17453058609156052.

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Hood, Colin. "Stereophotography in ophthalmology: Part II." Journal of Audiovisual Media in Medicine 10, no. 3 (January 1987): 105–9. http://dx.doi.org/10.3109/17453058709150307.

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11

Morton, Richard. "Fundamentals of stereophotography in medicine." Journal of Audiovisual Media in Medicine 12, no. 1 (January 1989): 11–14. http://dx.doi.org/10.3109/17453058909055303.

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Kato, Yukako, Fumihiko Matsui, Tatsuya Shimizu, Tomohiro Matsushita, Fang Zhun Guo, Takashi Tsuno, and Hiroshi Daimon. "Stereophotographs of diamond and graphite." Science and Technology of Advanced Materials 7, sup1 (January 2006): 45–48. http://dx.doi.org/10.1016/j.stam.2006.03.010.

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13

Fryer, J. G., and M. H. Elfick. "AN IMAGE SPLITTER FOR UNDERWATER STEREOPHOTOGRAPHY." Photogrammetric Record 10, no. 57 (August 26, 2006): 369–74. http://dx.doi.org/10.1111/j.1477-9730.1981.tb00229.x.

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14

Pedersen, Anne, and Ole MÆrsk-Møller. "Volumetric determination of extraoral swelling from stereophotographs." International Journal of Oral Surgery 14, no. 3 (June 1985): 229–34. http://dx.doi.org/10.1016/s0300-9785(85)80033-8.

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15

Taylor, M. A., and A. D. Morrison-Low. "The first known stereophotographs of Hugh Miller's Cottage and the building of the Hugh Miller Monument, Cromarty, 1859." Geological Curator 10, no. 7 (August 2017): 429–45. http://dx.doi.org/10.55468/gc245.

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Two early stereophotographs of Hugh Miller's birthplace cottage at Cromarty have separate provenances and their original photographer is unknown, but they were apparently taken at the same session and from almost the same location. One shows the Hugh Miller Monument under construction. The monument's planning, funding and building are outlined. It was completed in June/July 1859, with a statue of Miller by Alexander Handyside Ritchie. Combined with the state of foliage in the trees, this dates the photographs to about April/May 1859. The photographs provide useful evidence for the generally deteriorating condition of the cottage when combined with other images of the 1850s and 1860s. The production of stereophotographs for the commercial market complements contemporary accounts which confirm that Miller's birthplace was on the tourist trail even at this early date, well before the family renovated the cottage and opened a museum there in the mid-1880s. The monument played a significant part in encouraging this early tourism. It remains the only statue of Hugh Miller in an outdoors location.
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16

Shemdin, Omar H., H. Minh Tran, and S. C. Wu. "Directional measurement of short ocean waves with stereophotography." Journal of Geophysical Research 93, no. C11 (1988): 13891. http://dx.doi.org/10.1029/jc093ic11p13891.

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17

Papathomas, Thomas V., Kazunori Morikawa, and Nicholas Wade. "Bela Julesz in Depth." Vision 3, no. 2 (May 8, 2019): 18. http://dx.doi.org/10.3390/vision3020018.

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A brief tribute to Bela Julesz (1928–2003) is made in words and images. In addition to a conventional stereophotographic portrait, his major contributions to vision research are commemorated by two ‘perceptual portraits’, which try to capture the spirit of his main accomplishments in stereopsis and the perception of texture.
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18

Saenz-Frances, F., L. Jañez, C. Berrozpe-Villabona, L. Borrego-Sanz, L. Morales-Fernández, A. Acebal-Montero, C. D. Mendez-Hernandez, et al. "Corneal Segmentation Analysis Increases Glaucoma Diagnostic Ability of Optic Nerve Head Examination, Heidelberg Retina Tomograph’s Moorfield’s Regression Analysis, and Glaucoma Probability Score." Journal of Ophthalmology 2015 (2015): 1–8. http://dx.doi.org/10.1155/2015/215951.

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Purpose. To study whether a corneal thickness segmentation model, consisting in a central circular zone of 1 mm radius centered at the corneal apex (zone I) and five concentric rings of 1 mm width (moving outwards: zones II to VI), could boost the diagnostic accuracy of Heidelberg Retina Tomograph’s (HRT’s) MRA and GPS.Material and Methods. Cross-sectional study. 121 healthy volunteers and 125 patients with primary open-angle glaucoma. Six binary multivariate logistic regression models were constructed (MOD-A1, MOD-A2, MOD-B1, MOD-B2, MOD-C1, and MOD-C2). The dependent variable was the presence of glaucoma. In MOD-A1, the predictor was the result (presence of glaucoma) of the analysis of the stereophotography of the optic nerve head (ONH). In MOD-B1 and MOD-C1, the predictor was the result of the MRA and GPS, respectively. In MOD-B2 and MOD-C2, the predictors were the same along with corneal variables: central, overall, and zones I to VI thicknesses. This scheme was reproduced for model MOD-A2 (stereophotography along with corneal variables). Models were compared using the area under the receiver operator characteristic curve (AUC).Results. MOD-A1-AUC: 0.771; MOD-A2-AUC: 0.88; MOD-B1-AUC: 0.736; MOD-B2-AUC: 0.845; MOD-C1-AUC: 0.712; MOD-C2-AUC: 0.838.Conclusion. Corneal thickness variables enhance ONH assessment and HRT’s MRA and GPS diagnostic capacity.
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19

Willmott, Alexander P., Charles P. Ellington, and Adrian L. R. Thomas. "Flow visualization and unsteady aerodynamics in the flight of the hawkmoth, Manduca sexta." Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 352, no. 1351 (March 29, 1997): 303–16. http://dx.doi.org/10.1098/rstb.1997.0022.

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The aerodynamic mechanisms employed durng the flight of the hawkmoth, Manduca sexta , have been investigated through smoke visualization studies with tethered moths. Details of the flow around the wings and of the overall wake structure were recorded as stereophotographs and high–speed video sequences. The changes in flow which accompanied increases in flight speed from 0.4 to 5.7 m s −1 were analysed. The wake consists of an alternating series of horizontal and vertical vortex rings which are generated by successive down– and upstrokes, respectively. The downstroke produces significantly more lift than the upstroke due to a leading–edge vortex which is stabilized by a radia flow moving out towards the wingtip. The leading–edge vortex grew in size with increasing forward flight velocity. Such a phenomenon is proposed as a likely mechanism for lift enhancement in many insect groups. During supination, vorticity is shed from the leading edge as postulated in the ‘flex’ mechanism. This vorticity would enhance upstroke lift if it was recaptured diring subsequent translation, but it is not. Instead, the vorticity is left behind and the upstroke circulation builds up slowly. A small jet provides additional thrust as the trailing edges approach at the end of the upstroke. The stereophotographs also suggest that the bound circulation may not be reversed between half strokes at the fastest flight speeds.
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Ogle, R. E., and L. F. Ortman. "Measuring wear of artificial teeth with stereophotography: Part I." Journal of Prosthetic Dentistry 53, no. 6 (June 1985): 807–12. http://dx.doi.org/10.1016/0022-3913(85)90162-3.

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21

Millington, Stephen, Markus Grabner, Ralph Wozelka, Shepard Hurwitz, and Jeff Crandall. "A stereophotographic study of ankle joint contact area." Journal of Orthopaedic Research 25, no. 11 (November 2007): 1465–73. http://dx.doi.org/10.1002/jor.20425.

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22

Stingl, K., E. Hoffmann, and U. Schiefer. "Adaptation of a digital camera for simultaneous stereophotography in ophthalmology." British Journal of Ophthalmology 94, no. 10 (August 23, 2010): 1288–90. http://dx.doi.org/10.1136/bjo.2010.186502.

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23

Krakau, C. E. T. "PAPILLARY PROTRUSION MEASUREMENTS BY MEANS OF STEREOPHOTOGRAPHS OF THE FUNDUS." Acta Ophthalmologica 34, no. 2 (May 27, 2009): 140–45. http://dx.doi.org/10.1111/j.1755-3768.1956.tb07685.x.

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Arzumanyan, S. G., and H. V. Navasardyan. "Microcomputer system of treatment of chamber stereophotographs using CCD pickups." Computer Physics Communications 50, no. 1-2 (July 1988): 213–15. http://dx.doi.org/10.1016/0010-4655(88)90126-9.

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Russell, Peter I. "Stereophotographs: The 3-D View of Geology and Mining History." Rocks & Minerals 73, no. 5 (September 1998): 348–50. http://dx.doi.org/10.1080/00357529809603002.

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Kareiva, Simonas, Algirdas Selskis, Feliksas Ivanauskas, and Simas Sakirzanovas. "Stereophotography and spatial surface reconstruction using scanning electron microscopy images." Pure and Applied Chemistry 87, no. 3 (March 1, 2015): 283–92. http://dx.doi.org/10.1515/pac-2014-0808.

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Abstract Three-dimensional reconstruction technique to fully characterize structural performance of solid materials is suggested. The three-dimensional sample data out of the SEM images taken from different angles were extrapolated, measured and interpreted. In stereometry, the technique of three dimensional SEM imaging is fairly straightforward. Selected specimen area is photographed using SEM imaging tools from two different angles. Tilting is performed using standard SEM manipulation tools. In some cases, the specimen must be rotated to such a position, in which the tilting is done on visual ordinate axis. The resulting images are combined in pairs using any three-dimensional anaglyph software available to produce an anaglyph image, which, in turn, can be analyzed using standard 3D glasses. To achieve finer results, extrapolation of spatial data was done from three or more sample images using visual reconstruction software applications. This technique for recovering spatial data from the SEM pictures (structure-from-motion) is the VisualSFM software, which is an application for spatial reconstruction using structure from sample motion. Using VisualSFM, the images are analyzed for matching points and the camera angle is guessed for each image. Any number of additional viewports can be added to VisualSFM software. Based on this input, a surface is reconstructed where the matching points intersect and a colour value is assigned. The software produces a cloud of points, which has to be processed externally. Freely available software, such as MeshLab can be used to join the point cloud to a mesh and, as a second step of reconstruction, apply surface properties to the mesh polygons. The gold particles were selected as model material for the spatial 3D surface reconstruction.
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MUSTONEN, EILA, HANNU I. ALANKO, and HEIKKINIEMINEN. "CHANGES IN OPTIC DISC DRUSEN demonstration by stereophotographs and electronic subtraction." Acta Ophthalmologica 60, no. 1 (May 27, 2009): 3–15. http://dx.doi.org/10.1111/j.1755-3768.1982.tb05776.x.

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Zheng, J., and R. D. Hryciw. "Soil Particle Size and Shape Distributions by Stereophotography and Image Analysis." Geotechnical Testing Journal 40, no. 2 (January 12, 2017): 20160165. http://dx.doi.org/10.1520/gtj20160165.

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Kato, Yukako, Fumihiko Matsui, Tatsuya Shimizu, Hiroshi Daimon, Tomohiro Matsushita, Fang Zhun Guo, and Takashi Tsuno. "Dopant-site effect in superconducting diamond (111) studied by atomic stereophotography." Applied Physics Letters 91, no. 25 (December 17, 2007): 251914. http://dx.doi.org/10.1063/1.2824844.

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KIRI, ANTARIKSHA, DAVID S. DYER, NEIL M. BRESSLER, SUSAN B. BRESSLER, and ANDREW P. SCHACHAT. "Detection of Diabetic Macular Edema: Nidek 3Dx Stereophotography Compared With Fundus Biomicroscopy." American Journal of Ophthalmology 122, no. 5 (November 1996): 654–62. http://dx.doi.org/10.1016/s0002-9394(14)70483-0.

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Syed, Zeba A. "Detection of Progressive Glaucomatous Optic Neuropathy Using Automated Alternation Flicker With Stereophotography." Archives of Ophthalmology 129, no. 4 (April 11, 2011): 512. http://dx.doi.org/10.1001/archophthalmol.2010.310.

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MATSUI, Fumihiko, Yukako KATO, Fang Zhun GUO, Tomohiro MATSUSHITA, and Hiroshi DAIMON. "Stereophotographs of Atomic Structures by Circularly-polarized Light Two-dimensional Photoelectron Spectroscopy." Hyomen Kagaku 26, no. 12 (2005): 746–51. http://dx.doi.org/10.1380/jsssj.26.746.

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Takahashi, Haruo, and Isamu Sando. "Stereophotography of Computer-Aided Three-Dimensional Reconstructions of the Temporal Bone Structures." Otolaryngology–Head and Neck Surgery 106, no. 1 (January 1992): 110–13. http://dx.doi.org/10.1177/019459989210600139.

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Spedding, G. R. "The Wake of a Jackdaw (Corvus Monedula) in Slow Flight." Journal of Experimental Biology 125, no. 1 (September 1, 1986): 287–307. http://dx.doi.org/10.1242/jeb.125.1.287.

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The wake of a jackdaw in slow forward flight is described. The three-dimensional velocity field was investigated qualitatively and quantitatively by analysis of multiple-flash stereophotographs of the motion of neutrally buoyant helium bubbles. The best description of the wake structure appears to be a chain of planar, nearcircular, discrete, small-cored, vortex loops, each produced by vorticity shed during a single downstroke. However, the momentum measured in such a wake is approximately 35% of that required for weight support under these flight conditions. Some evidence is presented that this apparent wake momentum deficit may arise because the description of the real wake vorticity distribution is too simplistic. The implications of these results for theoretical models of bird flight are briefly discussed.
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Bynke, H. G., and C. E. T. Krakau. "AN IMPROVED STEREOPHOTOGRAPHIC METHOD FOR CLINICAL MEASUREMENTS OF OPTIC DISC PROTRUSION." Acta Ophthalmologica 38, no. 2 (May 27, 2009): 115–28. http://dx.doi.org/10.1111/j.1755-3768.1960.tb00189.x.

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ALTANGEREL, U., A. BAYER, J. HENDERER, L. KATZ, W. STEINMANN, and G. SPAETH. "Knowledge of chronology of optic disc stereophotographs influences the determination of glaucomatous change." Ophthalmology 112, no. 1 (January 2005): 40–43. http://dx.doi.org/10.1016/j.ophtha.2004.06.031.

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Parrish, Richard K., Joyce C. Schiffman, William J. Feuer, Douglas R. Anderson, Donald L. Budenz, Maria-Cristina Wells-Albornoz, Ruth Vandenbroucke, Michael A. Kass, and Mae O. Gordon. "Test-retest Reproducibility of Optic Disk Deterioration Detected From Stereophotographs by Masked Graders." American Journal of Ophthalmology 140, no. 4 (October 2005): 762–64. http://dx.doi.org/10.1016/j.ajo.2005.04.044.

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Daimon, H., F. Matsui, K. Goto, T. Matsumoto, Y. Kato, and T. Matsushita. "Direct imaging of three-dimensional atomic arrangement by stereophotography using two-dimensional photoelectron spectroscopy." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 648 (August 2011): S139—S141. http://dx.doi.org/10.1016/j.nima.2010.12.066.

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Millington, S. A., M. Grabner, R. Wozelka, D. D. Anderson, S. R. Hurwitz, and J. R. Crandall. "Quantification of ankle articular cartilage topography and thickness using a high resolution stereophotography system." Osteoarthritis and Cartilage 15, no. 2 (February 2007): 205–11. http://dx.doi.org/10.1016/j.joca.2006.07.008.

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Jayaratne, Yasas S. N., and Roger A. Zwahlen. "Application of Digital Anthropometry for Craniofacial Assessment." Craniomaxillofacial Trauma & Reconstruction 7, no. 2 (June 2014): 101–7. http://dx.doi.org/10.1055/s-0034-1371540.

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Craniofacial anthropometry is an objective technique based on a series of measurements and proportions, which facilitate the characterization of phenotypic variation and quantification of dysmorphology. With the introduction of stereophotography, it is possible to acquire a lifelike three-dimensional (3D) image of the face with natural color and texture. Most of the traditional anthropometric landmarks can be identified on these 3D photographs using specialized software. Therefore, it has become possible to compute new digital measurements, which were not feasible with traditional instruments. The term “digital anthropometry” has been used by researchers based on such systems to separate their methods from conventional manual measurements. Anthropometry has been traditionally used as a research tool. With the advent of digital anthropometry, this technique can be employed in several disciplines as a noninvasive tool for quantifying facial morphology. The aim of this review is to provide a broad overview of digital anthropometry and discuss its clinical applications.
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Kourkoutas, Dimitrios, Yvonne M. Buys, John G. Flanagan, Wendy V. Hatch, Carmen Balian, and Graham E. Trope. "Comparison of glaucoma progression evaluated with Heidelberg retina tomograph II versus optic nerve head stereophotographs." Canadian Journal of Ophthalmology 42, no. 1 (February 2007): 82–88. http://dx.doi.org/10.3129/can.j.ophthalmol.06-088.

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Pablo, L. E., A. Ferreras, P. Fogagnolo, M. Figus, and A. B. Pajarin. "Optic nerve head changes in early glaucoma: a comparison between stereophotography and Heidelberg retina tomography." Eye 24, no. 1 (February 13, 2009): 123–30. http://dx.doi.org/10.1038/eye.2009.14.

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Savini, Giacomo, Edgar M. Espana, Ana Carolina Acosta, Michele Carbonelli, Costantino Bellusci, and Piero Barboni. "Agreement between optical coherence tomography and digital stereophotography in vertical cup-to-disc ratio measurement." Graefe's Archive for Clinical and Experimental Ophthalmology 247, no. 3 (October 29, 2008): 377–83. http://dx.doi.org/10.1007/s00417-008-0968-3.

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Ongkosuwito, E. M., J. A. C. Goos, E. Wattel, K. G. H. Van Der Wal, L. N. A. Van Adrichem, and J. W. Van Neck. "Assessment of Volumetric Changes with a Best-Fit Method in Three-Dimensional Stereophotograms." Cleft Palate-Craniofacial Journal 49, no. 4 (July 2012): 472–76. http://dx.doi.org/10.1597/10-270.

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Sawetz, Isabelle, David B. Lumenta, and Lars-Peter Kamolz. "The use of 3D stereophotographic systems as an objective tool in scar assessment." Burns 45, no. 7 (November 2019): 1734–35. http://dx.doi.org/10.1016/j.burns.2019.07.043.

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Fogagnolo, Paolo, Simona Romano, Stefano Ranno, Giovanni Taibbi, Chiara Pierrottet, Antonio Ferreras, Michele Figus, Luca Rossetti, and Nicola Orzalesi. "Diagnostic Assessment of Normal and Pale Optic Nerve Heads by Confocal Scanning Laser Ophthalmoscope and Stereophotography." Journal of Glaucoma 20, no. 1 (January 2011): 10–14. http://dx.doi.org/10.1097/ijg.0b013e3181d1d221.

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Rangel, Frits A., Yu-Ting Chiu, Thomas J. J. Maal, Ewald M. Bronkhorst, Stefaan J. Bergé, and Anne Marie Kuijpers-Jagtman. "Does powdering of the dentition increase the accuracy of fusing 3D stereophotographs and digital dental casts." European Journal of Orthodontics 38, no. 4 (January 18, 2016): 440–45. http://dx.doi.org/10.1093/ejo/cjw001.

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Yun, Il Suk, and Mar Vin Lee. "Repeatability of Peripapillary Atrophy Parameters Measured Using Optic Disc Stereophotography and Evaluation of Its Diagnostic Ability." Journal of the Korean Ophthalmological Society 55, no. 4 (2014): 570. http://dx.doi.org/10.3341/jkos.2014.55.4.570.

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YOSHINO, Kunihiko, Tomoyasu ISHIDA, Toshihide NAGANO, Keiji KUSHIDA, Hirofumi CHIKATSU, and Satoru SUZUKI. "Estimation of the Biomass above the Ground in the Tropical Swamp Peat Forest using Balloon Stereophotographs." Journal of the Japan society of photogrammetry and remote sensing 39, no. 6 (2000): 56–61. http://dx.doi.org/10.4287/jsprs.39.6_56.

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Jayaratne, Yasas S. N., Colman P. J. McGrath, and Roger A. Zwahlen. "How Accurate Are the Fusion of Cone-Beam CT and 3-D Stereophotographic Images?" PLoS ONE 7, no. 11 (November 19, 2012): e49585. http://dx.doi.org/10.1371/journal.pone.0049585.

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