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Journal articles on the topic '3D system'

Author: Grafiati
Published: 4 June 2021
Last updated: 27 April 2022

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1

Jasper, K. René, Sharon M. Hummel, and George E. Laramore. "3D naming system." Medical Dosimetry 29, no. 2 (June 2004): 97–103. http://dx.doi.org/10.1016/j.meddos.2004.03.011.

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2

Xia, Ping, and Eric Murray. "3D treatment planning system—Pinnacle system." Medical Dosimetry 43, no. 2 (2018): 118–28. http://dx.doi.org/10.1016/j.meddos.2018.02.004.

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3

A M, Chandan. "3D Password Authentication System." International Journal for Research in Applied Science and Engineering Technology 7, no. 6 (June 30, 2019): 2424–27. http://dx.doi.org/10.22214/ijraset.2019.6408.

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4

El-Sharkawy, Mohamed, Newton Guillen, Waleed Eshmawy, Brad Langhorst, Harry Gundrum, Darrel Judd, and Richard Auerbach. "Multiprocessor 3D sound system." Computer Standards & Interfaces 20, no. 6-7 (March 1999): 442. http://dx.doi.org/10.1016/s0920-5489(99)90911-x.

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5

V. Mironov, Anton, Aleksandra O. Mariyanac, Olga A. Mironova, and Vladimir K. Popov. "Laboratory 3D printing system." International Journal of Engineering & Technology 7, no. 2.23 (April 20, 2018): 68. http://dx.doi.org/10.14419/ijet.v7i2.23.11886.

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Present work describes the results of the development of the universal system, which capable to utilize varies 3D printing methodologies. The main goal of the study is to provide cheap, versatile and easy expandable equipment for multiple purpose research in the field of material science. 3D printing system was experimentally validated for fused deposition modeling, hydrogel, liquid dispensing and drop-on-demand printing, as well as 3D photopolymerisation by UV laser and/or LED light using different types of materials.
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6

Chiang, Alice M. "ULTRASOUND 3D IMAGING SYSTEM." Journal of the Acoustical Society of America 134, no. 1 (2013): 739. http://dx.doi.org/10.1121/1.4813057.

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7

Poland, Mckee D., and Martha G. Wilson. "Portable 3D ultrasound system." Journal of the Acoustical Society of America 121, no. 5 (2007): 2495. http://dx.doi.org/10.1121/1.2739206.

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8

Hibino, K., T. Hioki, Y. Morita, H. Watanabe, M. Yamada, and K. Asano. "3D HDTV videodisc system." IEEE Transactions on Consumer Electronics 36, no. 3 (1990): 555–59. http://dx.doi.org/10.1109/30.103173.

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9

Kanai, Y., A. Shimizu, K. Ogawa, Y. Mizutani, M. Makino, and T. Hioki. "MPEG2 3D player system." IEEE Transactions on Consumer Electronics 41, no. 3 (1995): 716–23. http://dx.doi.org/10.1109/30.468018.

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10

Weber, Tobias. "Conoscopic 3D measurement system." Sensor Review 20, no. 3 (September 2000): 202–5. http://dx.doi.org/10.1108/02602280010372331.

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11

Cha, Jongeun, Mohamad Eid, and Abdulmotaleb El Saddik. "Touchable 3D video system." ACM Transactions on Multimedia Computing, Communications, and Applications 5, no. 4 (October 2009): 1–25. http://dx.doi.org/10.1145/1596990.1596993.

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12

Alazawi, Eman, Mohammad Rafiq Swash, and Maysam Abbod. "3D Depth Measurement for Holoscopic 3D Imaging System." Journal of Computer and Communications 04, no. 06 (2016): 49–67. http://dx.doi.org/10.4236/jcc.2016.46005.

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13

Abdelmalek, Latifa, Eckhard Hempel, and Harald Fischer. "Optoelektronisches 3D-Positionsmesssystem (Optical 3D-Position Measuring System)." tm - Technisches Messen 71, no. 1-2004 (January 2004): 10–18. http://dx.doi.org/10.1524/teme.71.1.10.25423.

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14

Hennicker, L., N. D. Kee, T. Shenar, J. Bodensteiner, M. Abdul-Masih, I. El Mellah, H. Sana, and J. O. Sundqvist. "Binary-object spectral-synthesis in 3D (BOSS-3D)." Astronomy & Astrophysics 660 (April 2022): A17. http://dx.doi.org/10.1051/0004-6361/202141831.

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Context. To quantitatively decode the information stored within an observed spectrum, detailed modelling of the physical state and accurate radiative transfer solution schemes are required. The accuracy of the model is then typically evaluated by comparing the calculated and observed spectra. In the analysis of stellar spectra, the numerical model often needs to account for binary companions and 3D structures in the stellar envelopes. The enigmatic binary (or multiple) system LB-1 constitutes a perfect example of such a complex multi-D problem. Thus far, the LB-1 system has been indirectly investigated by 1D stellar-atmosphere codes and by spectral disentangling techniques, yielding differing conclusions about the nature of the system (e.g., a B-star and black-hole binary with an accretion disc around the black hole or a stripped-star and Be-star binary system have been proposed). Aims. To improve our understanding of the LB-1 system, we directly modelled the phase-dependent Hα line profiles of this system. To this end, we developed and present a multi-purpose binary-object spectral-synthesis code in 3D (BOSS-3D). Methods. BOSS-3D calculates synthetic line profiles for a given state of the circumstellar material. The standard pz-geometry commonly used for single stars is extended by defining individual coordinate systems for each involved object and by accounting for the appropriate coordinate transformations. The code is then applied to the LB-1 system, considering two main hypotheses, a binary containing a stripped star and Be star, or a B star and a black hole with a disc. Results. Comparing these two scenarios, neither model can reproduce the detailed phase-dependent shape of the Hα line profiles. A satisfactory match with the observations, however, is obtained by invoking a disc around the primary object in addition to the Be-star disc or the black-hole accretion disc. Conclusions. The developed code can be used to model synthetic line profiles for a wide variety of binary systems, ranging from transit spectra of planetary atmospheres, to post-asymptotic giant branch binaries including circumstellar and circumbinary discs and massive-star binaries with stellar winds and disc systems. For the LB-1 system, our modelling provides strong evidence that each object in the system contains a disc-like structure.
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15

Jeong, Ui-Tae, and In-Soo Lee. "Simplified 3D Camera Calibration Algorithm for 3D Vision Inspection System." Journal of Korean Institute of Information Technology 16, no. 7 (July 31, 2018): 43–50. http://dx.doi.org/10.14801/jkiit.2018.16.7.43.

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16

Okui, Makoto. "6-2. 3D Video System." Journal of The Institute of Image Information and Television Engineers 65, no. 9 (2011): 1282–86. http://dx.doi.org/10.3169/itej.65.1282.

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17

Schäufler, Marius, Paula Rückel, and Harald Augustin. "Bewertungssystem für 3D-VR-Fabrikplanungssysteme/Evaluation system for 3D VR factory planning systems." wt Werkstattstechnik online 111, no. 09 (2021): 591–96. http://dx.doi.org/10.37544/1436-4980-2021-09-17.

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Für die digitale 3D-VR-Fabrikplanung sind unterschiedliche Soft- und Hardwaresysteme am Markt verfügbar, die teilweise erhebliche Kompatibilitätsprobleme aufweisen. Für die Bewertung der Hardwareeignung für die 3D-VR-Fabrikplanung wird ein Bewertungssystem vorgestellt, das anhand konkreter Softwareapplikationen und einem passiven 3D-Stereo-Monitor mit Head-Tracking erläutert wird. Es wird dazu auch die Notwendigkeit des Einsatzes von Software-Middleware zur Nutzungssteigerung diskutiert.   Different software and hardware systems are available on the market for digital 3D VR factory planning, some of which have considerable compatibility problems. For the evaluation of hardware suitability for 3D VR factory planning, an evaluation system is presented that is explained using concrete software applications and a passive 3D stereo display with head tracking. The necessity of using software middleware to enhance usage is also discussed.
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18

Park, Manseok, Sungdong Kim, and Sarah Eunkyung Kim. "TSV Liquid Cooling System for 3D Integrated Circuits." Journal of the Microelectronics and Packaging Society 20, no. 3 (September 30, 2013): 1–6. http://dx.doi.org/10.6117/kmeps.2013.20.3.001.

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19

ALEKSEY A., KABANOV, KRAMAR VADIM A., and KRAMAR OLEG A. "3D VISION SYSTEM FOR UNDERWATER ROBOT." CASPIAN JOURNAL: Control and High Technologies 54, no. 2 (2021): 113–25. http://dx.doi.org/10.21672/2074-1707.2021.53.1.113-125.

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The article deals with the development of an integrated high-resolution 3D vision system for remotely controlled and autonomous underwater robotic systems. The problem of developing a 3D vision system as a sensor subsystem of an underwater robot is presented. Typical examples of tasks solved with the help of such robotic systems are environmental monitoring; detection of objects and obstacles, their localization; convergence of the CRS with the object; performing operations with objects. The structure of a complex 3D vision system is presented. The description of the design of the main structural elements of the system is given, the main functionality of the developed test software is described. The technical characteristics of the subsystems are given, such as the module for the near-vision of the 3D vision system, the module for additional lighting, and the module for far vision. The description of the developed software for processing video data of a stereo camera (stereo module) in real-time is given. The paper presents the results of the test approbation of software that implements many algorithms for 3D reconstruction of the working space of an underwater robot based on information received from the stereo vision module. The approbation was carried out on the operating model of the underwater stereo vision module connected to the developed underwater robot. The study of the characteristics of a complex 3D vision system was carried out in an aquarium. The effectiveness of the developed system was shown by the experiments with the underwater robot.
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20

Chen Chao, 陈. 超., 於燕琴 Yu Yanqin, 黄淑君 Huang Shujun, 刘晓利 Liu Xiaoli, 徐. 静. Xu Jing, and 张宗华 Zhang Zonghua. "3D small-field imaging system." Infrared and Laser Engineering 45, no. 8 (2016): 824002. http://dx.doi.org/10.3788/irla201645.0824002.

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21

Haiyan Hong, Xiaomeng Huang, Huiqin Wang, and Bailin Yang. "Mashup-based 3D House System." Journal of Convergence Information Technology 7, no. 14 (August 31, 2012): 1–10. http://dx.doi.org/10.4156/jcit.vol7.issue14.1.

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22

KANEHIRA, Yasushi. "3D Weld Bead Inspection System." JOURNAL OF THE JAPAN WELDING SOCIETY 88, no. 8 (2019): 594–96. http://dx.doi.org/10.2207/jjws.88.594.

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23

Aggoun, Amar, Emmanuel Tsekleves, Mohammad Rafiq Swash, Dimitrios Zarpalas, Anastasios Dimou, Petros Daras, Paulo Nunes, and Luis Ducla Soares. "Immersive 3D Holoscopic Video System." IEEE MultiMedia 20, no. 1 (January 2013): 28–37. http://dx.doi.org/10.1109/mmul.2012.42.

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24

HORIKOSHI, Tsutomu, Teruo HAMANO, and Kenichiro ISHII. "A 3D shape retrieval system." Journal of Information Processing and Management 34, no. 7 (1991): 609–19. http://dx.doi.org/10.1241/johokanri.34.609.

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25

Cheng, Chih-Hao, Chih-Ying Chen, Jun-Da Chen, Da-Kung Pan, Kai-Ting Ting, and Fan-Yi Lin. "3D pulsed chaos lidar system." Optics Express 26, no. 9 (April 26, 2018): 12230. http://dx.doi.org/10.1364/oe.26.012230.

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26

Morris, Emily C., Marcus Griffiths, Agata Golebiowska, Stefan Mairhofer, Jasmine Burr-Hersey, Tatsuaki Goh, Daniel von Wangenheim, et al. "Shaping 3D Root System Architecture." Current Biology 27, no. 17 (September 2017): R919—R930. http://dx.doi.org/10.1016/j.cub.2017.06.043.

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27

Brandl, H., A. Gritzky, and M. Haizinger. "3D ultrasound: A dedicated system." European Radiology 9, S3 (November 23, 1999): S331—S333. http://dx.doi.org/10.1007/pl00014067.

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28

Gómez, Julian E. "TWIXT: A 3D animation system." Computers & Graphics 9, no. 3 (January 1985): 291–98. http://dx.doi.org/10.1016/0097-8493(85)90056-1.

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29

Carvalho Jr., Durval M. "3D System For Cataract Surgery." Highlights of Ophthalmology 49, no. 4ENG (August 15, 2021): 22–33. http://dx.doi.org/10.5005/hoe-10101-49403.

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30

Browne, P. J. "3D Printing a Root System." Irish Mathematical Society Bulletin 0076 (2015): 37–43. http://dx.doi.org/10.33232/bims.0076.37.43.

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31

Roh, Se-gon, Young Hoon Lee, and Hyouk Ryeol Choi. "Object Recognition Using 3D RFID System." Journal of Control, Automation and Systems Engineering 11, no. 12 (December 1, 2005): 1027–38. http://dx.doi.org/10.5302/j.icros.2005.11.12.1027.

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32

Morze, Nataliia, Mariia Boiko, Viktoriia Vember, Oksana Buinytska, and Svitlana Vasylenko. "3D MAPPING OF UKRAINIAN EDUCATIONAL SYSTEM." OPEN EDUCATIONAL E-ENVIRONMENT OF MODERN UNIVERSITY, Spesial Edittio (2020): 1–119. http://dx.doi.org/10.28925/2414-0325.2020spv2.

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Due to the transformation of education, the traditional role of the researcher is changing. The modern scientific and pedagogical worker must be able to choose and use ICT to teach students; to organize cooperation and communication between the participants of the educational process; to design electronic resources and educational electronic environment, to be a facilitator and assistant for students, to understand and take into account in the educational process their needs and features, cognitive learning styles, new services and tools for effective cooperation, communication, 21st century skills. Higher education institutions must prepare graduates for today's conditions - graduates with new, digital, competencies needed in the modern workplace. Graduates who have a sufficient level of digital competence, who understand and use modern digital technologies for professional purposes, are able to communicate by means of modern technologies and solve problems, process, analyze and manage information data; quickly master new technologies and tools and are able to assess their own level of competence and self-learn in the digital society. The report analyzes the state policy and regulatory framework in the field of digital skills and competencies in Ukraine, the study of information and communication competence in the European educational space. Based on the results of the analysis of these documents, questionnaires were developed for the survey of three groups of respondents (Annexes 1-3) and questionnaires were conducted within six universities that are participants in the MoPED project. Also presented in detail is a 3D mapping of the education system in Ukraine based on the results of a survey that reflects the trends of understanding of teachers and students of higher education and secondary education teachers of modern educational trends, the use of innovative pedagogical technologies and digital tools in education.
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33

Kim, Han-Kil, Sang-Woong Joo, Hun-Hee Kim, and Hoe-Kyung Jung. "3D Video Simulation System Using GPS." Journal of the Korea Institute of Information and Communication Engineering 18, no. 4 (April 30, 2014): 855–60. http://dx.doi.org/10.6109/jkiice.2014.18.4.855.

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34

Tagowski, Michał, and Andrzej Zaborski. "Computer aided tolerancing in 3D system." Mechanik, no. 7 (July 2016): 835–37. http://dx.doi.org/10.17814/mechanik.2016.7.200.

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35

Hong, Seokmin, Amir Ansari, Genaro Saavedra, and Manuel Martinez-Corral. "Full-parallax 3D display from stereo-hybrid 3D camera system." Optics and Lasers in Engineering 103 (April 2018): 46–54. http://dx.doi.org/10.1016/j.optlaseng.2017.11.010.

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36

Ying, Shen, Renzhong Guo, Lin Li, Peter Van Oosterom, and Jantien Stoter. "Construction of 3D Volumetric Objects for a 3D Cadastral System." Transactions in GIS 19, no. 5 (November 25, 2014): 758–79. http://dx.doi.org/10.1111/tgis.12129.

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37

Najork, M. A., and M. H. Brown. "Obliq-3D: a high-level, fast-turnaround 3D animation system." IEEE Transactions on Visualization and Computer Graphics 1, no. 2 (June 1995): 175–93. http://dx.doi.org/10.1109/2945.468402.

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38

Lee, Jun-Hee, Su-A. Park, KoEun Park, Jae-Hyun Kim, Kyung-Shik Kim, Jihye Lee, and WanDoo Kim. "Fabrication and characterization of 3D scaffold using 3D plotting system." Chinese Science Bulletin 55, no. 1 (January 2010): 94–98. http://dx.doi.org/10.1007/s11434-009-0271-7.

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39

Pyun, Hae-Gul, Haeng-A. An, and Jinho Park. "Cooperative 3D Modelling System based on WebGL." Journal of Digital Contents Society 16, no. 2 (April 30, 2015): 189–96. http://dx.doi.org/10.9728/dcs.2015.16.2.189.

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40

Svenner, Fan, Forsman, Shabo, Hallbeck, and Kjellman. "A Simulator-based Comparison of a Novel 3D and a Conventional 3D Vision System-surgical Performance and Subjective Ratings." Inventions 4, no. 4 (September 27, 2019): 58. http://dx.doi.org/10.3390/inventions4040058.

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In laparoscopy, novel three-dimensional laparoscopic vision systems (3D LVS) without glasses (3D−) have been invented. While standard 3D LVS with glasses (3D+) have shown advantages over original two-dimensional systems, quantitative comparisons of surgical performance between 3D− and 3D+ systems are still lacking. The aim is to compare the systems in simulated robotic surgery tasks. In a crossover study, 18 medical students performed four basic laparoscopic tasks in the validated Simball Box simulator with authentic surgical instruments by using the 3D+ and 3D− systems. Performance was measured by the number of errors and the task’s duration. Subjective ratings of perceptions and preference were assessed after each test. There were significant, but still minor, advantages for the conventional 3D+ system regarding spatial orientation and sense of depth. Overall, ten and eight subjects preferred 3D+ and 3D− systems, respectively. No significant differences were found in performance, post-operative physicals or eye symptoms. The novel 3D− system was similar to the conventional 3D+ system regarding performance and overall preference, while there were minor advantages for the 3D+ system in the subjective ratings. Since the 3D− system is a new invention, it should have a higher potential of usability improvements.
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41

Ghannam, Ayad, Alessandro Magnani, David Bourrier, and Thierry Parra. "Wafer Level 3D System Integration using a Novel 3D-RDL Technology." International Symposium on Microelectronics 2015, no. 1 (October 1, 2015): 000092–97. http://dx.doi.org/10.4071/isom-2015-tp36.

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A new wafer-level 3D system integration process that relies on a novel multi-level 3D redistribution layer technology (3D-RDL) to interconnect chips together as well as to the substrate was developed. The 3D-RDL technology is based on a single electroplating step that allows routing high density, auto-adaptive vertical copper interconnects (20 μm Line/Space “L/S”) at the edge of known-good dies as well as redistribution layer on top of the die and the substrate. Furthermore, this technology enables 3D interconnection of stacked dies using a single 3D-RDL layer. Additionally, high performance 3D inductive devices with small form factor can be integrated above-IC or above-substrate using the same 3D-RDL processing steps. These capabilities allow miniaturization and performance enhancement and make the technology ideal for various applications requiring functional heterogeneous system integration on a small footprint, such as systems for mobile and Internet-of-Things (IoT) applications, MEMS and Sensors.
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42

An, Pei, Tao Ma, Kun Yu, Bin Fang, Jun Zhang, Wenxing Fu, and Jie Ma. "Geometric calibration for LiDAR-camera system fusing 3D-2D and 3D-3D point correspondences." Optics Express 28, no. 2 (January 15, 2020): 2122. http://dx.doi.org/10.1364/oe.381176.

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43

Liu, Yong Mei, and Hee Kyung Jang. "A Study on the Functional Characteristics of Apparel 3D CAD System." Advanced Materials Research 627 (December 2012): 501–5. http://dx.doi.org/10.4028/www.scientific.net/amr.627.501.

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The purpose of this study was to provide the reference information for current and potential users of apparel 3D CAD system by studying the functional characteristics of apparel 3D CAD study. The apparel 3D CAD system of Optitex, V-Stitcher and DC-Suite was selected for technical compara tive study.The results were at follows: 1. Three systems are similar in basic 3D system configuration and working flow. 2. In configuring a module, Optitex and V-Stitcher separate a 2D pattern and a 3D simulation, whereas DC-Suite configures a 2D pattern and a 3D simulation in one system. 3. In Optitex, a 3D Runway system performs 3D simulation works linked with its own 2D pattern - making software, Optitex PDS, after the 2D pattern is made. 4. In case of V-Stitcher, 2D pattern making is done linked with Gerber Pattern CAD and a 3D simulation proceeds. 5. DC-Suite was developed based on 3D simulation technologies, different from other systems. It includes its own 2D pattern-making technologies.
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44

MATSUMOTO, Mitsuhiro, Tomoaki YOSHIDA, Toshihiro MORI, and Shin'ichi YUTA. "3D SOKUIKI Sensor Module by Roundly Swinging Mechanism and SCIP-3D Command System(Mechanical Systems)." Transactions of the Japan Society of Mechanical Engineers Series C 75, no. 760 (2009): 3314–23. http://dx.doi.org/10.1299/kikaic.75.3314.

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45

Jankoska, Maja. "3D virtual fitting system on woman's garment." Tekstilna industrija 69, no. 4 (2021): 72–79. http://dx.doi.org/10.5937/tekstind2104072j.

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Fit is one of the major concerns for the clothing industry, and pattern development process is significant during clothing manufacturing and the way clothing is constructed. Various pattern making methods have been introduced to the industry considering clothing fit satisfaction, but it is still impossible to provide the optimized clothing pattern for mass production. The aim of this paper is practical implications about 3D virtual fit simulation technology as a fit assessment tool in the fashion industry i.e. to predict the behavior of women's pants in relation to fitting and comfort in different poses of avatar. This was done by application CAD Clo 3D fashion design software.
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46

Li, Wu. "Domestic 3D Virtual Fitting System Analysis and Design of New System." Applied Mechanics and Materials 556-562 (May 2014): 5884–87. http://dx.doi.org/10.4028/www.scientific.net/amm.556-562.5884.

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3D virtual fitting technology utilizes 3D industry standard to provide all-round 3D stereo visual effect for users to learn garment information when they are purchasing garment on line. This article introduces the current situation of domestic virtual fitting system, analyses the problems exiting in the system according to the current situation, and proposes vision of the new fitting system and the technical problems during the developing process.
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47

Samim, Mohammad. "3D MRI Models of the Musculoskeletal System." Seminars in Musculoskeletal Radiology 25, no. 03 (June 2021): 388–96. http://dx.doi.org/10.1055/s-0041-1730912.

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AbstractComputed tomography (CT) is most commonly used to produce three-dimensional (3D) models for evaluating bone and joint morphology in clinical practice. However, 3D models created from magnetic resonance imaging (MRI) data can be equally effective for comprehensive and accurate assessment of osseous and soft tissue structure morphology and pathology. The quality of 3D MRI models has steadily increased over time, with growing potential to replace 3D CT models in various musculoskeletal (MSK) applications. In practice, a single MRI examination for two-dimensional and 3D assessments can increase the value of MRI and simplify the pre- and postoperative imaging work-up. Multiple studies have shown excellent performance of 3D MRI models in shoulder injuries, in the hip in the setting of femoroacetabular impingement, and in the knee for the creation of bone surface models. Therefore, the utility of 3D MRI postprocessed models is expected to continue to rise and broaden in applications. Computer-based and artificial intelligence–assisted postprocessing techniques have tremendous potential to improve the efficiency of 3D model creation, opening many research avenues to validate the applicability of 3D MRI and establish 3D-specific quantitative assessment criteria. We provide a practice-focused overview of 3D MRI acquisition strategies, postprocessing techniques for 3D model creation, MSK applications of 3D MRI models, and an illustration of cases from our daily clinical practice.
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48

Chae, Myung Jin, Gyu Won Lee, Jung Yoel Kim, Jae Woo Park, and Moon Young Cho. "A 3D surface modeling system for intelligent excavation system." Automation in Construction 20, no. 7 (November 2011): 808–17. http://dx.doi.org/10.1016/j.autcon.2011.02.003.

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49

Sueyoshi, Kouhei. "3D Injection Molding CAE System “3D TIMON” which Contributes to Manufacturing." Seikei-Kakou 24, no. 6 (May 20, 2012): 321. http://dx.doi.org/10.4325/seikeikakou.24.321.

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50

Lee, Brian, Brian R. Chen, Beverly B. Chen, James Y. Lu, and Steven L. Giannotta. "Recording stereoscopic 3D neurosurgery with a head-mounted 3D camera system." British Journal of Neurosurgery 29, no. 3 (January 24, 2015): 371–73. http://dx.doi.org/10.3109/02688697.2014.997664.

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