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Application of the as-4 software in research on players’ kinematics on a large area in 3d coordinates as an alternative to commercial programs

100%
Aschenbrenner P., Lipińska P., Erdmann W. S.
Baltic Journal of Health and Physical Activity
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2012
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vol. 4
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issue 3
172-179
EN
Background: In this work an original computer program for the video analysis of players on a large area by using a single camera is presented. Video analysis is one of the basic research techniques of human movement applied in sport. A set of cameras and special computer software is used for this purpose. Many companies provide hardware and software, but, unfortunately, their high cost and difficulty in usage are their major drawbacks. In order to simplify and reduce the costs of data analysis (obtained from a single camera), AS-4 program was developed. Material/Methods: The program includes an original algorithm which enables positioning of the camera in any place. Specifying dimensions of the playing field and an object, the program automatically calculates a scale and transfers the data to the 3D matrix. Then, using flat transformation, 3D coordinates can be determined. Results: The algorithm was tested in the field. The accuracy of determining coordinates was studied in 3 areas and errors of the method were within an acceptable range. Conclusions: With the present program, it was possible to determine the kinematic parameters at any time during the movement. The accuracy of the program was sufficient to determine the 3D position. It can be used to determine the movement path over a large area and then to calculate velocity and acceleration
2
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Correction of the Refraction Phenomenon in Photogrammetric Measurement Systems

100%
Samper D., Santolaria J., Majarena A. C., Aguilar J. J.
Metrology and Measurement Systems
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2013
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issue 4
3
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A novel approach to visualization of the right ventricular outflow tract

88%
Kaczyńska A. E., Kosiński A., Kamiński R., Zajączkowski M. A., Nowicka E., Gleinert-Rożek M.
European Journal of Translational and Clinical Medicine
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2019
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vol. 1
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issue 2
36-40
EN
Introduction Nowadays, heart is one of the most demanding organs for imaging procedures. This is related to its irregular shape and complex internal structure. Increased demand for imaging complex cardiac structures has resulted in the development of novel 3D modeling techniques. Not only did the methods of imaging the organs of the living patients developed in recent years, but also new methods of post-mortem analysis. Acquired 3D models have a number of applications, both clinical and educational. Detailed knowledge of the morphology of right ventricular outflow tract (RVOT) is extremely important in terms of cardio-invasive therapeutic procedures. Its significance was noticed during the exploration of the optimal pacing sites in the area of right ventricle. What is more, accurate analysis of the RVOT morphology and spatial structure is also the basis for the treatment of ventricular arrhythmias which foci are located within the outflow tract. The aim of this study was to elaborate the most accurate technique of preparing interior models of the right ventricle and digitizing them to the 3D form. For this purpose we used a silicone molding of the heart cavities with digital photogrammetry.
4
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The use of unmanned aerial vehicles for the assessment of land boundaries accuracy

88%
Ożóg K., Ożóg K.
Journal of Water and Land Development
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2020
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issue 45
5
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A novel approach to visualization of the right ventricular outflow tract

88%
Kaczyńska A. E., Kosiński A., Kamiński R., Zajączkowski M. A., Gleinert-Rożek M., Nowicka E.
European Journal of Translational and Clinical Medicine
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2019
|
vol. 1
|
issue 2
36-40
EN
Introduction: Nowadays, heart is one of the most demanding organs for imaging procedures. This is related to its irregular shape and complex internal structure. Increased demand for imaging complex cardiac structures has resulted in the development of novel 3D modeling techniques. Not only did the methods of imaging the organs of the living patients developed in recent years, but also new methods of post-mortem analysis. Acquired 3D models have a number of applications, both clinical and educational. Detailed knowledge of the morphology of right ventricular outflow tract (RVOT) is extremely important in terms of cardio-invasive therapeutic procedures. Its significance was noticed during the exploration of the optimal pacing sites in the area of right ventricle. What is more, accurate analysis of the RVOT morphology and spatial structure is also the basis for the treatment of ventricular arrhythmias which foci are located within the outflow tract. The aim of this study was to elaborate the most accurate technique of preparing interior models of the right ventricle and digitizing them to the 3D form. For this purpose we used a silicone molding of the heart cavities with digital photogrammetry.
6
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Body Posture in Young Women Involved in Regular Aerobic Exercise

88%
Drzał-Grabiec J., Truszczyńska A.
Human Movement
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2014
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vol. 15
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issue 4
195-198
EN
Purpose. The aim of the study was an assessment of posture in women who regularly perform aerobic exercise. Methods. The study group consisted of 50 women actively participating in aerobics classes (mean: age 28.64 ± 5.3 years, body mass 59.83 ± 6.7 kg, height 167.75 ± 4.9 cm, BMI 21.24 ± 3.6 m/kg2) and a control group of 50 women not involved in any regular physical activity (mean: age 28.55 ± 5.05 years, body mass 62.47 ± 10.5 kg, height 167.74 ± 4.8 cm, BMI 22.26 ± 4.8 m/kg2). All participants were subjected to a photogrammetric assessment of posture. Results. Statistically significant differences in posture were identified between the two groups for lumbarosacral and thoracolumbar spinal curvatures. Conclusions. Women who regularly perform aerobic exercise present greater thoracic kyphosis and shoulder asymmetry than women not involved in aerobics.
7
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Assessing the usefulness of the photogrammetric method in the process of capturing data on parcel boundaries

75%
Benduch P., Pęska-Siwik A.
Geodesy and Cartography
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2017
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vol. 66
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issue 1
8
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Changes of glaciation in the northeastern Sörkapp Land, Spitsbergen, 1961-1971

75%
Sokołowski J., Ziaja W., Sokołowski J., Ziaja W.
Polish Polar Research
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1993
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vol. 14
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issue 3
9
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The ice mass loss in the front zone of the Werenskiold Glacier from 1957 to 1978 determined using terrestrial photogrammetry

75%
Janina J., Lipert C., Mechliński Z., Janina J., Lipert C., Mechliński Z.
Polish Polar Research
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1984
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vol. 5
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issue 3-4
10
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Remote measurement methods for 3-D modeling purposes using BAE Systems’ Software

75%
Walker S., Pietrzak A.
Geodesy and Cartography
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2015
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vol. 64
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issue 1
11
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BADANIE MOŻLIWOŚCI WYKORZYSTANIA ZOBRAZOWAŃ DYNAMICZNYCH (WIDEO) Z NISKIEGO PUŁAPU LOTNICZEGO (BSP) DO OPRACOWAŃ FOTOGRAMETRYCZNYCH

71%
MŁYNARCZYK A., KRÓLEWICZ S., RUTKOWSKI P.
Badania Fizjograficzne Seria A - Geografia Fizyczna
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2019
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issue 10(70)
53-64
EN
The use of unmanned aerial vehicles is becoming more and more popular for making high-altitude and orthophotomap models. In this process, series of images are taken at specific intervals, usually lasting several seconds. This article demonstrates the ability to make models and orthophotomaps from dynamic images – video recorded from UAV. The best mutual coverage of photographs was indicated (95–96%) and the photogrammetric process for joining images was presented, through the creation of a point cloud to obtain a digital terrain model and the orotfotomap. The data was processed in 150 different variants and the usefulness of this method was demonstrated. Problems and errors that may occur during the processing of recorded image data are also described.
12
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Reconstruction of small components using photogrammetry: a quantitative analysis of the depth of field influence using a miniature step gauge

63%
Guerra M. G., Galantucci L. M., Lavecchia F., De Chiffre L., Guerra M. G., Galantucci L. M., Lavecchia F., De Chiffre L.
Metrology and Measurement Systems
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2021
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vol. 28
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issue 2
13
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Zastosowania dronów w badaniach rzeźby terenu, struktury i tekstury osadów na przykładach z Polski Środkowej

39%
Kossowski M.
Acta Universitatis Lodziensis. Folia Geographica Physica
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2022
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issue 21
35-47
EN
Drones (UAV, unmanned aerial vehicles), along with the development of technology, are more and more used to solve scientific problems. This is particularly true for Earth and environmental sciences, including geomorphology, structural geology and sedimentology. In addition to hardware and technical issues, the parallel development of photogrammetric programs and systems for increasing the precision of drone flight path measurements are contributing to the ability to create land maps as well as 3D models with increasing accuracy. This paper describes the possibility of using drones carrying a non-metric RGB camera or thermal sensor, for the study of morphological changes of terrain based on the analysis of photographs, orthophotos and 3D models. Test studies were carried out in the valleys of the Warta and Pilica rivers in the area of artificial reservoirs, as well as on moraine uplands – mainly in open-pit mines. The results of these tests show that proper flight planning and configuration of the aircraft’s camera work guarantee obtaining the right data necessary for later processing in software, such as GIS. The most important parameters included: determination of the area of the planned raid, flight altitude above ground level, aircraft speed, camera repetition rate and accuracy of the generated material.
PL
Drony (bezzałogowe statki powietrzne – BSP) wraz z rozwojem technologii są coraz częściej wykorzystywane do rozwiązywania problemów naukowych. Dotyczy to w szczególności nauk o Ziemi i środowisku, w tym geomorfologii, geologii strukturalnej i sedymentologii. Obok kwestii sprzętowo-technicznych, równoległy rozwój programów fotogrametrycznych oraz systemów służących do zwiększania precyzji pomiarów przebiegu lotu dronów, przyczyniają się do możliwości tworzenia zarówno map terenu, jak i modeli 3D o coraz większej dokładności. W niniejszej pracy opisano możliwości wykorzystania dronów wyposażonych w niemetryczną kamerę RGB lub sensor termalny do badania przemian morfologicznych terenu na podstawie analizy zdjęć, ortofotomap i modeli 3D. Badania testowe przeprowadzono w dolinach Warty i Pilicy w rejonie sztucznych zbiorników oraz na wysoczyznach morenowych i płaskowyżach – głównie w kopalniach odkrywkowych. Wynika z nich, że odpowiednie zaplanowanie lotu i konfiguracja pracy kamery statku powietrznego gwarantują uzyskanie właściwych danych niezbędnych do późniejszej obróbki w oprogramowaniu, np. GIS. Do najważniejszych parametrów zaliczono: określenie obszaru planowanego nalotu, wysokość lotu nad poziomem gruntu, prędkość statku powietrznego, prędkość powtarzalności kamery oraz dokładność generowanego materiału.
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