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1

Király, Zsolt. "Stereoscopic vision system." Optical Engineering 45, no. 4 (2006): 043006. http://dx.doi.org/10.1117/1.2189856.

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Shin, Hyoung-Chul, Sang-Hoon Kim, and Kwang-Hoon Sohn. "Hybrid Stereoscopic Camera System." Journal of Broadcast Engineering 16, no. 4 (2011): 602–13. http://dx.doi.org/10.5909/jeb.2011.16.4.602.

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Eguchi, Shuichiro. "Stereoscopic Ophthalmic Microendoscope System." Archives of Ophthalmology 115, no. 10 (1997): 1336. http://dx.doi.org/10.1001/archopht.1997.01100160506028.

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4

Balogh, Attila, Mark C. Preul, Mark Schornak, Michael Hickman, and Robert F. Spetzler. "Intraoperative stereoscopic QuickTime Virtual Reality." Journal of Neurosurgery 100, no. 4 (2004): 591–96. http://dx.doi.org/10.3171/jns.2004.100.4.0591.

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Object. The aim of this study was to acquire intraoperative images during neurosurgical procedures for later reconstruction into a stereoscopic image system (QuickTime Virtual Reality [QTVR]) that would improve visualization of complex neurosurgical procedures. Methods. A robotic microscope and digital cameras were used to acquire left and right image pairs during cranial surgery; a grid system facilitated image acquisition with the microscope. The surgeon determined a field of interest and a target or pivot point for image acquisition. Images were processed with commercially available software and hardware. Two-dimensional (2D) or interlaced left and right 2D images were reconstructed into a standard or stereoscopic QTVR format. Standard QTVR images were produced if stereoscopy was not needed. Intraoperative image sequences of regions of interest were captured in six patients. Relatively wide and deep dissections afford an opportunity for excellent QTVR production. Narrow or restricted surgical corridors can be reconstructed into the stereoscopic QTVR mode by using a keyhole mode of image acquisition. The stereoscopic effect is unimpressive with shallow or cortical surface dissections, which can be reconstructed into standard QTVR images. Conclusions. The QTVR system depicts multiple views of the same anatomy from different angles. By tilting, panning, or rotating the reconstructed images, the user can view a virtual three-dimensional tour of a neurosurgical dissection, with images acquired intraoperatively. The stereoscopic QTVR format provides depth to the montage. The system recreates the dissection environment almost completely and provides a superior anatomical frame of reference compared with the images captured by still or video photography in the operating room.
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Baasantseren, Ganbat, Duc-Dung Do, Ki-Cheol Kwon, and Nam Kim. "Stereoscopic Floating Image System Using Stereoscopic Display and Two Lenses." Journal of the Optical Society of Korea 10, no. 2 (2006): 76–80. http://dx.doi.org/10.3807/josk.2006.10.2.076.

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Jia, Chen Yu, Ze Hua Gao, Xun Bo Yu, Xin Zhu Sang, and Tian Qi Zhao. "Auto-Stereoscopic 3D Video Conversation System Based on an Improved Eye Tracking Method." Applied Mechanics and Materials 513-517 (February 2014): 3907–10. http://dx.doi.org/10.4028/www.scientific.net/amm.513-517.3907.

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An auto-stereoscopic 3D video conversation system is demonstrated with an improved eye-tracking method based on a lenticular sheet and two cameras. The two cameras are used to get stereoscopic picture pairs and addressed the viewers position by an Improved Eye Tracking Method. The computer combines the stereoscopic picture pairs with different masks graphic processing unit. Low crosstalk correct stereoscopic video pairs for the end-to-end commutation are achieved.
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Yu, Jia Xi, and Wen Hui Zhang. "Design of 3D-TV Horizontal Parallax Obtaining System Based on FPGA." Applied Mechanics and Materials 401-403 (September 2013): 1834–38. http://dx.doi.org/10.4028/www.scientific.net/amm.401-403.1834.

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In this paper, a design of FPGA-based 3D-TV horizontal parallax acquiring system is presented. The system will receive the stereoscopic video by a HD-SDI receiver GS2971, and outputs a video of horizontal parallax to a digital TV through a HDMI transmitter SiI9134. In this system, FPGA plays an important role that converts the stereoscopic video to the horizontal parallax video. In addition, a microcontroller is selected as the control center of the entire system. This system can get the horizontal parallax of the stereoscopic video in real time, and is helpful for the stereoscopic program producer to control the horizontal parallax of the 3D program.
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Gašo, Martin, Martin Krajčovič, Ľuboslav Dulina, Patrik Grznár, and Juraj Vaculík. "Methodology of Creating and Sustainable Applying of Stereoscopic Recording in the Industrial Engineering Sector." Sustainability 11, no. 8 (2019): 2194. http://dx.doi.org/10.3390/su11082194.

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This article introduces an innovative view on the issue of Stereoscopy’s application as a tool of advanced industrial engineering. Basic starting points of research have been the results of stereoscopy applications in other science areas and entertainment industries, e.g., movies. These bases provide information about basic principles of stereoscopic record creation. However, these bases’ pieces of information were to be adapted and applied in the field of industrial engineering. The core of the article describes the methodology for creating a stereoscopic recording in industrial engineering. The emphasis aimed to use stereoscopic in industrial engineering as a tool for optimization of the workplace, which makes them sustainable for a long time. The output of the article is a tool for industrial engineering which prevents job rotation caused by wear of body parts. Also as a result of optimization, we achieve a saving of capital. The article describes the proposed procedure for creating a stereoscopic record from the basic selection of suitable technical equipment to a detailed calculation of the camera system parameters setting. The final part of the article is devoted to the practical verification of the proposed stereoscopic record procedure and also the verification of the possibilities of its use in the field of industrial engineering. An area of ergonomics has been selected for the pilot verification. The verification confirmed the accuracy of the calculation, i.e., usability of the proposed stereoscopic record procedure. Identified also was a potential for its use as an innovative tool for advanced industrial engineering. The crux of the methodology presented is protected by the utility model number 7683.
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Sakamoto, Kunio, Kazuki Saruta, and Kazutoki Takeda. "Monocular Stereoscopic 3-D Display System." Journal of the Institute of Image Information and Television Engineers 54, no. 3 (2000): 388–93. http://dx.doi.org/10.3169/itej.54.388.

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TIE Zhi-cheng, 帖志成, 梁发云 LIANG Fa-yun, 黄伟莉 HUANG Wei-li, 王婧 WANG Jing, and 何小明 HE Xiao-ming. "Stereoscopic Display Based on Embedded System." Chinese Journal of Liquid Crystals and Displays 28, no. 1 (2013): 71–75. http://dx.doi.org/10.3788/yjyxs20132801.0071.

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Yoon, Kyung-Seob. "Cyber Interview System using Stereoscopic Images." Journal of the Korea Society of Computer and Information 16, no. 4 (2011): 197–204. http://dx.doi.org/10.9708/jksci.2011.16.4.197.

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12

Hinton, J., and K. Egberts. "High energy stereoscopic system: Latest results." Advances in Space Research 41, no. 3 (2008): 477–80. http://dx.doi.org/10.1016/j.asr.2007.05.012.

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Novac, Petr, Vladimír Mostýn, Tomáš Kot, and Václav Krys. "Stereoscopic System with the Tight Tilted Cameras." Applied Mechanics and Materials 332 (July 2013): 154–64. http://dx.doi.org/10.4028/www.scientific.net/amm.332.154.

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Thispaper describes a stereoscopic camera system based on a pair of separate cameras.The cameras are stationary and tilted together. The value of their tiltingangle is derived in regards to their maximal possible utilization of the chiparea with the minimalizing unused parts. It can increase the size of the croppedimage of both left and right images as well as their resolution. The resultswere tested and verified on a real stereoscopic system used for the exploratory, emergency and rescue mobile robots Hercules, Ares and Hardy.
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Abalakin, V. K., M. S. Chubey, G. I. Eroshkin, and I. M. Kopylov. "Triangulation Measurements in the Solar System." International Astronomical Union Colloquium 180 (March 2000): 132–49. http://dx.doi.org/10.1017/s0252921100000233.

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AbstractThe operational work of the Interplanetary Solar Stereoscopic Observatory (ISSO) may continue for 11 years. The ISSO Project is designed to insert two spacecraft (SC) into Lagrangian triangular libration points of the “Sun + barycenter (the Earth + the Moon)” system. The Project scientific program consists of two sets of experiments related to solar physics and to dynamical astronomy, respectively.Various options of the astronomical observation program are possible. We discuss the option where the stereoscopic mode is applied to the direct triangulation observations of the solar system objects with respect to the ICRS coordinate frame.The stereoscopic mode with the baseline equal to appears to be suitable for receiving the three-dimensional (3-D) measurement series for planets during the ISSO’s lifetime. Extended investigation of the planetary aberration based on the observations of major and minor planets, the direct distance determinations for minor planets and Kuiper’s belt objects, and the new set of star parallaxes may be used for constructing a new fundamental ephemeris and establishing an alternative scale of stellar distances. The accuracy of the angular measurements is expected to attain the milliarcsecond level.
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Woods, A. "THE APPLICATION OF STEREOSCOPIC VIDEO TO UNDERWATER REMOTELY OPERATED VEHICLES." APPEA Journal 37, no. 1 (1997): 797. http://dx.doi.org/10.1071/aj96063.

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A stereoscopic video system for use with Underwater Remotely Operated Vehicles (ROVs) has been developed by Curtin University's Centre for Marine Science and Technology. The system provides ROV operators with a fully three-dimensional (stereoscopic) view of the ROVs surroundings. This increased perception of depth offers several advantages to both the piloting of ROVs and also to the operation of an ROV manipulator arm.The stereoscopic video system consists of an underwater stereoscopic video camera which fits on the ROV and a stereoscopic display which is installed in the ship-based ROV control room. The system was developed in close cooperation with Woodside Offshore Petroleum which has used the system on their Triton ROV. Three ROVs are currently operated at Woodside's oil fields on Western Australia's North West Shelf.Field use of the system on the Triton ROV has revealed many advantages of stereoscopic video. One of the areas where advantages are particularly evident is in the operation of the manipulator arm. Operators have reported that it is perceptually easier to perform manipulator tasks. This is because the spatial relationship of objects can be immediately identified, making object placement and alignment easier. The system also provides a better understanding of the work site and a perceived improvement in image quality and therefore improved visibility.
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Liu, Shuang, Ming Cai Shan, and Xiang Jie Kong. "Distortion Analysis in the Axial Offset Parallel Video System." Applied Mechanics and Materials 644-650 (September 2014): 1498–501. http://dx.doi.org/10.4028/www.scientific.net/amm.644-650.1498.

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This paper discusses the origins of image distortions in the axial offset parallel video system and how to improve viewing comfort. The types and characteristics of image distortions in some stereoscopic video systems are presented first. The geometry equations of stereoscopic camera and display systems are deduced then. The typical distortions in the axial offset parallel video system can be got and the key factors of image distortions can be found out by the analysis on these equations. These distortions include depth non-linearity, puppet theater effect and cardboard effect, shearing distortion. The simulation software is programmed for verification and analysis of above distortions, which are plotted by the variation of system parameters.
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17

Guan, Phillip, and Martin S. Banks. "Stereoscopic depth constancy." Philosophical Transactions of the Royal Society B: Biological Sciences 371, no. 1697 (2016): 20150253. http://dx.doi.org/10.1098/rstb.2015.0253.

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Depth constancy is the ability to perceive a fixed depth interval in the world as constant despite changes in viewing distance and the spatial scale of depth variation. It is well known that the spatial frequency of depth variation has a large effect on threshold. In the first experiment, we determined that the visual system compensates for this differential sensitivity when the change in disparity is suprathreshold, thereby attaining constancy similar to contrast constancy in the luminance domain. In a second experiment, we examined the ability to perceive constant depth when the spatial frequency and viewing distance both changed. To attain constancy in this situation, the visual system has to estimate distance. We investigated this ability when vergence, accommodation and vertical disparity are all presented accurately and therefore provided veridical information about viewing distance. We found that constancy is nearly complete across changes in viewing distance. Depth constancy is most complete when the scale of the depth relief is constant in the world rather than when it is constant in angular units at the retina. These results bear on the efficacy of algorithms for creating stereo content. This article is part of the themed issue ‘Vision in our three-dimensional world’.
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18

Lü, Chao Hui, Jia Ying Pan, Chen Zhang, and Hui Ren. "Design and Implementation of a Stereoscopic Video Player for a Time-Division Display." Applied Mechanics and Materials 577 (July 2014): 1008–11. http://dx.doi.org/10.4028/www.scientific.net/amm.577.1008.

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Three-dimensional video technology is becoming more and more popular, because it can provide a better natural depth perception. In this paper, a stereoscopic video player for a time-division display is designed and implemented, and people can use 3D Shutter Glasses to watch stereoscopic video by the player. It mainly focuses on the process of designing a Direct3D application, and the special handling of NVIDIA 3D Vision system for stereoscopic video. Upon examination, the stereoscopic video player can provide stereoscopic perception and good immersive experience.
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19

Yuyama, Ichiro, and Sumio Yano. "Stereoscopic HDTV — Experimental System and Psychological Effects." SMPTE Journal 99, no. 1 (1990): 127–41. http://dx.doi.org/10.5594/j16779.

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Yano, Sumio, and Ichiro Yuyama. "Stereoscopic HDTV: Experimental System and Psychological Effects." SMPTE Journal 100, no. 1 (1991): 14–18. http://dx.doi.org/10.5594/j02092.

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21

CHENG Xuemin, 程雪岷, 谈梦泽 TAN Mengze, 郝群 HAO Qun, and 马建设 MA Jianshe. "Survey on auto stereoscopic display measuring system." Chinese Journal of Liquid Crystals and Displays 29, no. 5 (2014): 830–38. http://dx.doi.org/10.3788/yjyxs20142905.0830.

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22

Masaoka, Kenichiro. "Spatial distortion prediction system for stereoscopic images." Journal of Electronic Imaging 15, no. 1 (2006): 013002. http://dx.doi.org/10.1117/1.2181178.

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23

Ricolfe-Viala, Carlos, Antonio-Jose Sanchez-Salmeron, and Enrique Martinez-Berti. "Calibration of a wide angle stereoscopic system." Optics Letters 36, no. 16 (2011): 3064. http://dx.doi.org/10.1364/ol.36.003064.

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24

Takahashi, M., H. Bussaka, and M. Miyawaki. "Stereoscopic DSA of the central nervous system." Neuroradiology 28, no. 2 (1986): 105–8. http://dx.doi.org/10.1007/bf00327880.

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Frey, Jérémy, Aurélien Appriou, Fabien Lotte, and Martin Hachet. "Classifying EEG Signals during Stereoscopic Visualization to Estimate Visual Comfort." Computational Intelligence and Neuroscience 2016 (2016): 1–11. http://dx.doi.org/10.1155/2016/2758103.

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With stereoscopic displays a sensation of depth that is too strong could impede visual comfort and may result in fatigue or pain. We used Electroencephalography (EEG) to develop a novel brain-computer interface that monitors users’ states in order to reduce visual strain. We present the first system that discriminates comfortable conditions from uncomfortable ones during stereoscopic vision using EEG. In particular, we show that either changes in event-related potentials’ (ERPs) amplitudes or changes in EEG oscillations power following stereoscopic objects presentation can be used to estimate visual comfort. Our system reacts within 1 s to depth variations, achieving 63% accuracy on average (up to 76%) and 74% on average when 7 consecutive variations are measured (up to 93%). Performances are stable (≈62.5%) when a simplified signal processing is used to simulate online analyses or when the number of EEG channels is lessened. This study could lead to adaptive systems that automatically suit stereoscopic displays to users and viewing conditions. For example, it could be possible to match the stereoscopic effect with users’ state by modifying the overlap of left and right images according to the classifier output.
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Santos, Daniel Souza dos, and Fábio Ferreira Dias. "Uso de Anaglifos como Alternativa para Práticas de Estereoscopia em Sensoriamento Remoto." Anuário do Instituto de Geociências 34, no. 2 (2011): 105–11. http://dx.doi.org/10.11137/2011_2_105-111.

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Aerial Photogrammetry is one of the most used implements on remote sensing. One of the most common resorts for analysis in this area is the stereoscopy, which consists of visualization on 3 dimensions of the aerophoto through the use of a stereoscopic pair. There are three main stereoscopic visualization methods: trough anaglyphs, polarization and with a stereoscope. Despite the stereoscope still the most used method, the anaglyph may be an alternative for studies using stereoscopic techniques, with the advantage of using cheaper materials and having the possibility of application on Geographic Information Systems, allowing more cleared analysis with the tools of this kind of software, being very useful when applied on the education, turning the teaching process more dynamic.
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McClain, James E. "Hue and Disparity Interactions in Advanced Stereoscopic Aircraft Displays." Proceedings of the Human Factors Society Annual Meeting 33, no. 20 (1989): 1422–26. http://dx.doi.org/10.1177/154193128903302013.

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With the increased complexity of aircraft systems and their environment, 3-D stereoscopic system/control displays will offer great advantage over conventional two-dimensional (2-D) displays by presenting information more consistent with the pilot's 3-D perceptual experience and stereotypes. For such displays the interaction of Chromostereopsis (perceived depth created by hues) and stereopsis (depth effect created by disparity between the left and right visual fields of the observer) is important. The purpose of this research is to evaluate the interaction of chromostereopsis and artificially stimulated stereopsis on a stereoscopic CRT by determining the level of accuracy with which subjects can properly interpret the relative depth differences of adjacent symbols containing one of a combination of six levels of hue and seven stereoscopic disparities. This research demonstrated that hue, disparity, and the interaction of hue and disparity significantly influenced one's perception of depth on a stereoscopic monitor and that caution should be exercised by the stereoscopic 3-D display format designer when choosing hues to represent images located in close proximity on a stereoscopic display.
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Graschew, Georgi, Stefan Rakowsky, Panagiota Balanou, and Peter M. Schlag. "Interactive telemedicine in the operating theatre of the future." Journal of Telemedicine and Telecare 6, no. 2_suppl (2000): 20–24. http://dx.doi.org/10.1258/1357633001935824.

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An experimental stereoscopic system has been established in the Robert-Rössle-Klinik, including four operating theatres and the surgical research unit OP 2000. The system allows local three-dimensional image acquisition, local stereoscopic video display, in-house stereoscopic video transmission and stereoscopic links to external partners. The goal is to make high-quality patient data available in a medical centre or over a collaborative network of medical experts. In future the requirements of teleconsultation in terms of image quality and bandwidth will be heterogeneous. A sophisticated medical telecommunication system for second opinions is needed that can take advantage of intelligent compression approaches (e.g. wavelet compression) to archive, to search for image content and to transmit medical data such as images.
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Shidoji, Kazunori, Katsuya Matsunaga, Masahiko Minamoto, Yasuhiro Nose, Kazuhisa Ebuchi, and Yuji Matsuki. "Visual Interface For Remote Control." Journal of Robotics and Mechatronics 12, no. 1 (2000): 40–47. http://dx.doi.org/10.20965/jrm.2000.p0040.

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Remote control using video system is needed in a variety of fields. The performance of remote control using the conventional video system is very poor, compared with the work done by actual on-the-spot observation. We have developed a new Q stereoscopic video system, considering that one of the causes of such poor performance is in the visual interface used in the current teleoperator. This system realizes simultaneously both high resolution and wide visual field by fixed angle lens. Three experiments were implemented for visual interface, using the new system. The availabilities of central high resolution and peripheral wide angle images were studied in Experiment 1 and 2. The availabilities of both images were confirmed. In Experiment 3 the overlap ratio of right and left images in the Q stereoscopic video system was researched and it was clarified that the decrease of the overlap ratio lowered the performance. In this paper is preferable visual interface for the stereoscopic video system for remote control was investigated, and it was shown that the Q stereoscopic video system was preferable for remote control.
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Lin, Chiuhsiang Joe, Chih-Feng Cheng, Hung-Jen Chen, and Kuan-Ying Wu. "Training Performance of Laparoscopic Surgery in Two- and Three-Dimensional Displays." Surgical Innovation 24, no. 2 (2017): 162–70. http://dx.doi.org/10.1177/1553350617692638.

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Introduction. This research investigated differences in the effects of a state-of-art stereoscopic 3-dimensional (3D) display and a traditional 2-dimensional (2D) display in simulated laparoscopic surgery over a longer duration than in previous publications and studied the learning effects of the 2 display systems on novices. Methods. A randomized experiment with 2 factors, image dimensions and image sequence, was conducted to investigate differences in the mean movement time, the mean error frequency, NASA-TLX cognitive workload, and visual fatigue in pegboard and circle-tracing tasks. Results. The stereoscopic 3D display had advantages in mean movement time ( P < .001 and P = .002) and mean error frequency ( P = .010 and P = .008) in both the tasks. There were no significant differences in the objective visual fatigue ( P = .729 and P = .422) and in the NASA-TLX ( P = .605 and P = .937) cognitive workload between the 3D and the 2D displays on both the tasks. For the learning effect, participants who used the stereoscopic 3D display first had shorter mean movement time in the 2D display environment on both the pegboard ( P = .011) and the circle-tracing ( P = .017) tasks. Conclusions. The results of this research suggest that a stereoscopic system would not result in higher objective visual fatigue and cognitive workload than a 2D system, and it might reduce the performance time and increase the precision of surgical operations. In addition, learning efficiency of the stereoscopic system on the novices in this study demonstrated its value for training and education in laparoscopic surgery.
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Ye, Qing Yu. "The Stereoscopic Parking System Equipment of Electric Vehicles and its Application Mode Research." Advanced Materials Research 694-697 (May 2013): 1502–7. http://dx.doi.org/10.4028/www.scientific.net/amr.694-697.1502.

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In view of the current situation of the stereoscopic parking system for the electric vehicles and its overall development trend, we first research on its key module technology. Then, we research on its internal dynamic management pattern, the application mode of radio frequency identification (RFID), the application mode of charge management system and the application mode of control system. Thus, the popularity of electric vehicles is promoted by the stereoscopic parking system with intelligence, efficiency and saving of storage space.
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Winterbottom, Marc, Charles Lloyd, James Gaska, Steven Wright, and Steven Hadley. "Stereoscopic Remote Vision System Aerial Refueling Visual Performance." Electronic Imaging 2016, no. 5 (2016): 1–10. http://dx.doi.org/10.2352/issn.2470-1173.2016.5.sda-437.

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NISHIDA, Nobuo, Hirotsugu YAMAMOTO, and Yoshio HAYASAKI. "Stereoscopic Display System Using a Large LED Screen." Review of Laser Engineering 30, no. 12 (2002): 719–25. http://dx.doi.org/10.2184/lsj.30.719.

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LI Yan, 李艳, 苏萍 SU Ping, 马建设 MA Jian-she, and 毛乐山 MAO Le-shan. "Evaluation Method and System of Stereoscopic Projection Quality." Chinese Journal of Liquid Crystals and Displays 27, no. 1 (2012): 31–37. http://dx.doi.org/10.3788/yjyxs20122701.0031.

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YAN Fei, 严. 飞., 宋振声 SONG Zhen-sheng, 刘银萍 LIU Yin-ping, 刘卿卿 LIU Qing-qing, and 蔡静怡 CAI Jing-yi. "Design of 4K bare-eye stereoscopic display system." Chinese Journal of Liquid Crystals and Displays 34, no. 9 (2019): 862–70. http://dx.doi.org/10.3788/yjyxs20193409.0862.

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Ko, Hyunsuk, Rui Song, and C. C. Jay Kuo. "A ParaBoost stereoscopic image quality assessment (PBSIQA) system." Journal of Visual Communication and Image Representation 45 (May 2017): 156–69. http://dx.doi.org/10.1016/j.jvcir.2017.02.014.

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Liévin, Marc, and Erwin Keeve. "Stereoscopic augmented reality system for computer-assisted surgery." International Congress Series 1230 (June 2001): 107–11. http://dx.doi.org/10.1016/s0531-5131(01)00017-6.

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TAKAHUMI, Haji, Yoshimoto MASANORI, Kinugasa TETSUYA, Yoshida KOJI, Tokuda KENICHI, and Amano HISANORI. "Development of Stereoscopic Remote Control System in FMT." Proceedings of Conference of Chugoku-Shikoku Branch 2018.56 (2018): 1315. http://dx.doi.org/10.1299/jsmecs.2018.56.1315.

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Tridon, D. Borla, T. Schweizer, F. Goebel, R. Mirzoyan, and M. Teshima. "The MAGIC-II gamma-ray stereoscopic telescope system." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 623, no. 1 (2010): 437–39. http://dx.doi.org/10.1016/j.nima.2010.03.028.

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Xu, H. H., Xiang Feng Li, Dun Wen Zuo, and Min Wang. "Double-CCD Stereoscopic Vision System Monitoring Chip Shape." Key Engineering Materials 315-316 (July 2006): 66–70. http://dx.doi.org/10.4028/www.scientific.net/kem.315-316.66.

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With the continuous development and popularity of optical sensor and computer vision, machining process monitoring based on CCD camera has attracted more and more attention in recent years. Aiming at detecting the shape of cutting chip forming in cylindrical turning, a special matching algorithm is presented in this paper. As a reliable measuring method of chip shape parameter doesn’t exist, this algorithm can hardly be verified in a precise manner, however comparison between experimental results and the original images shows that this matching algorithm is effective. A double-CCD stereoscopic vision monitoring system employing this algorithm can be used to estimate the wearing and breakage of tool, and provide significant instruction for the design of tool groove for its capability of in-process measuring chip shape.
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Gomi, K., Y. Nishino, K. Tai, M. Yasuda, and N. Tetsutani. "Stereoscopic video transmission and presentation system for ISDN." IEEE Transactions on Consumer Electronics 36, no. 3 (1990): 759–66. http://dx.doi.org/10.1109/30.103202.

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Neri, Peter, Andrew J. Parker, and Colin Blakemore. "Probing the human stereoscopic system with reverse correlation." Nature 401, no. 6754 (1999): 695–98. http://dx.doi.org/10.1038/44409.

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Jens-Rainer Ohm and E. Izquierdo M. "An object-based system for stereoscopic viewpoint synthesis." IEEE Transactions on Circuits and Systems for Video Technology 7, no. 5 (1997): 801–11. http://dx.doi.org/10.1109/76.633502.

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44

Isik-Ercan, Zeynep, Beomjin Kim, and Jeffrey Nowak. "Can 3D Visualization Assist in Young Children’s Understanding of Sun-Earth-Moon System?" International Journal of Knowledge Society Research 3, no. 4 (2012): 12–21. http://dx.doi.org/10.4018/jksr.2012100102.

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This research-in-progress investigates how the usage of technology, specifically three dimensional (3D) stereoscopic vision, might support astronomy learning in primary grades. 3D stereoscopic vision might be an effective means to observe the relationships among space objects through simulations. In order to explore this presumption, this pilot study examines how 3D stereoscopic vision might enhance urban second graders’ understanding of (a) the shape of Sun, Moon, and Earth, (b) how day and night alternate, and (c) how Moon appears in different shapes. Currently, Indiana state standards for science do not suggest the teaching of these astronomical concepts explicitly before fourth grade. The authors project that students can learn these concepts earlier in their educational lives with the implementation of these new technologies. These technologies might challenge the views of when astronomical concepts could be taught to children and expand the ways the authors think about children’s cognitive capacities in understanding scientific concepts.
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Davies, Ross, Ian Wilson, and Andrew Ware. "Stereoscopic Human Detection in a Natural Environment." Annals of Emerging Technologies in Computing 2, no. 2 (2018): 15–23. http://dx.doi.org/10.33166/aetic.2018.02.002.

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The algorithm presented in this paper is designed to detect people in real-time from 3D footage for use in Augmented Reality applications. Techniques are discussed that hold potential for a detection system when combined with stereoscopic video capture using the extra depth included in the footage. This information allows for the production of a robust and reliable system. To utilise stereoscopic imagery, two separate images are analysed, combined and the human region detected and extracted. The greatest benefit of this system is the second image, which contains additional information to which conventional systems do not have access, such as the depth perception in the overlapping field of view from the cameras. We describe the motivation behind using 3D footage and the technical complexity of human detection. The system is analysed for both indoor and outdoor usage, when detecting human regions. The developed system has further uses in the field of motion capture, computer gaming and augmented reality. Novelty comes from the camera not being fixed to a single point. Instead, the camera is subject to six degrees of freedom (DOF). In addition, the algorithm is designed to be used as a first filter to extract feature points in input video frames faster than real-time.
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Paolini, Nicolas Augusto, Alexandre Gonçalves Cordeiro Neto, Alana Cristine Pellanda, et al. "Evaluation of Corrosion Protection of Self-Healing Coatings Containing Tung and Copaiba Oil Microcapsules." International Journal of Polymer Science 2021 (March 3, 2021): 1–13. http://dx.doi.org/10.1155/2021/6650499.

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The objective of the current research is to evaluate and compare the corrosion protection efficiency of the microcapsules containing tung oil and copaiba oil using stereoscopic images, electrochemical tests, open circuit potential (OCP), and polarization curves (Tafel analysis). Carbon steel plates were painted with three different coating systems: (a) a coating system with an automotive primer which served as the control, (b) a coating system with microcapsules containing 3% tung oil, and (c) a coating system with microcapsules containing 3% copaiba oil. A crosscut was performed using a scalpel on the coating surfaces to promote the release of the oils, and after drying, electrochemical cells were assembled using electrolyte 3% NaCl. From OCP analyses, it was verified that the coating system containing tung oil loaded microcapsules obtained more positive final values than the control system and the coating system containing copaiba oil loaded microcapsules. The stereoscope images corroborate the OCP results, and the polarization curve analyses also indicated that the microcapsules containing tung oil offer better corrosion protection than the other systems studied.
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Liang, Fa Yun, Jing Wang, Fa Zhou Liang, et al. "Measurement for Naked-Eye-Stereoscopic Display Vision Character." Applied Mechanics and Materials 103 (September 2011): 142–46. http://dx.doi.org/10.4028/www.scientific.net/amm.103.142.

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Naked-eye-stereoscopic display is a human-machine complex system based on human being’s stereo vision, it shows parallax images on sub-screens and forms individual view zones to realize 3D vision. According to the optic mechanism , we use “Stereo Degree” to measure 3D optic parameter, then stereoscopic display vision character is described.
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Acker, Güliz, Nicolas Schlinkmann, Sophie Käthe Piper, Julia Onken, Peter Vajkoczy, and Thomas Picht. "Stereoscopic Versus Monoscopic Viewing of Aneurysms: Experience of a Single Institution with a Novel Stereoscopic Viewing System." World Neurosurgery 119 (November 2018): e491-e501. http://dx.doi.org/10.1016/j.wneu.2018.07.189.

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Seo, Jeonghwa, Dong Myung Seol, Bum Woo Han, et al. "Uncertainty Assessment of a Towed Underwater Stereoscopic PIV System." Journal of the Society of Naval Architects of Korea 51, no. 4 (2014): 311–20. http://dx.doi.org/10.3744/snak.2014.51.4.311.

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Choi, Jung-Ah, In-Yong Shin, and Yo-Sung Ho. "Fast Stereoscopic 3D Broadcasting System using x264 and GPU." Journal of Broadcast Engineering 15, no. 4 (2010): 540–46. http://dx.doi.org/10.5909/jbe.2010.15.4.540.

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