Volume 3, Issue 4 (11-2021)                   IJMCL 2021, 3(4): 12-18 | Back to browse issues page


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Mafi H, Tahmasebi Boroujeni S. Reduce Depth Perception Error by Viewing 3D Images Compared to 2D Images. IJMCL. 2021; 3 (4) :12-18
URL: http://ijmcl.com/article-1-70-en.html
Associate Professor, Department of Motor Behavior and Sport Psychology, Faculty of Physical Education and Sport Sciences, University of Tehran, Tehran, Iran
Abstract:   (270 Views)
Background: Depth perception is a visual component that allows individuals to judge accurately the distance of objects and it is involved in many of the motor skills involved in locating, hitting and grasping to objects. Therefore, evaluating interventions to improve depth perception can be effective in increasing motor skills efficiency.
Objective: The purpose of this study was to investigate the effect of viewing 2D and 3D images on the depth perception of female athletes’ students.
Methods: The participants were 30 female students of the Faculty of Physical Education of the University of Tehran (with an average age of 21±2 years) who participated in the research in an accessible way. The instrument used was the B122 Depth Electrical Testing Device. First, all participants were given a pre-test of depth perception (5 trials). Then the participants were randomly divided into 3 groups of 10 persons (control group, two-dimensional image group, and three-dimensional image group). After intervention, post-test of depth perception was performed.
Results: Results showed that the difference between the post-test scores of depth perception at the error level of 0.05 was significant (P = 0.012). Also, the three-dimensional image group showed less error in the depth perception test than the two-dimensional image group (P = 0.003).
Conclusions: Based on the findings of this study, 3D displays can be used as a tool to facilitate the educational process of sports disciplines that require high depth perception.
Full-Text [PDF 417 kb]   (188 Downloads)    
Type of Study: Original Article | Subject: 2. Motor control
Received: 2021/04/3 | Accepted: 2021/08/19 | Published: 2021/12/7

References
1. Ahmadi, M., Pourahmadi M., Rastegari F. (2016). A Review on the Method of Perceptual Depth Estimation in 2D Images. First International Conference on New Perspectives in Electrical and Computer Engineering,Tehran,Internatonal Confederation of Inventors (IFIA). Comprehensive Applied Science University.
2. Nejati, V. (2015). Comparing two and three dimensional images in learning of neuroscience course. Journal of Medical Education Development, 8(19), 92-98.
3. PourHosseini, F., Tahmasebi, Sh. (2018). The Effect of Fast and Slow Music on Depth Perception of Female Young Athletes in Fatigue Condition. Journal of Development and Motor Learning, (31), 61-77.
4. Zareiyan, A., Razdan, S., Tahmasebi, Sh. (2016). The Effect of Spectator-induced Arousal on DepthPerception and Spatial Memory in Female Student Athletes. Motor Behavior, (25), 121-138.
5. Tavanti, M. (2001). 2D vs 3D Implications on Spatial Memory. in Proceedings of IEEE InfoVis 2001 Symposium on Information Visualization, 139-45. [DOI:10.1109/INFVIS.2001.963291]
6. Franck, G., Ware, C. (1996). Evaluating stereo and motion cues for visualizing information nets in three dimensions. ACM Trans Graph, 15(2), 121-40. [DOI:10.1145/234972.234975]
7. Cockburn, A. (2004.(Revisiting 2D vs 3D Implications on Spatial Memory. Proc AUIC.
8. Cockburn, A., McKenzie, B. (2004). Evaluating spatial memory in two and three dimensions. Int J Hum-Comput Stud, 61(3), 359-73. [DOI:10.1016/j.ijhcs.2004.01.005]
9. John, M., Harvey, S., Smallman, H., Oonk, H., Cowen, M. (2000). Navigating Two-Dimensional and Perspective Views of Terrain, 22. [DOI:10.21236/ADA381612]
10. Khorrambakht, A., Hosseini, F., Pakizeh, A.(2016). Comparative study of effectteveness of three-dimensional and two-dimensional video games on students problem solving styles.Applied Psychological Research Quarterly, 7(3), 165 -182.
11. Cockburn, A., McKenzie, B.(2001). 3D or not 3D?: evaluating the effect of the third dimension in a document management system. Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, Seattle Washington USA (p. 434-41). [DOI:10.1145/365024.365309]
12. Cockburn, A., McKenzie, B. (2002). Evaluating the effectiveness of spatial memory in 2D and 3D physical and virtual environments. Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, Minneapolis Minnesota USA(p. 203-10). [DOI:10.1145/503376.503413]
13. SadatHosseini, F., KhorramBakht, A. (2017). A comparison of the effect of three-dimensional and two-dimensional video games interventions on creativity and social skills in male students.Contemporary Psychology, 12(1), 19-37.
14. Palmisano, S. (2002). Consistent stereoscopic information increases the perceived speed of vection in depth. Perception, 31, 463-80. [DOI:10.1068/p3321]
15. Rajae-Joordens, R. (2008). Measuring Experiences in Gaming and TV Applications. In J.Westerink,M. Ouwerkerk, T.Overbeek, W.Pasveer, B.de Ruyter (Eds.), Probing Experience. Philips Research. [DOI:10.1007/978-1-4020-6593-4_7]
16. Hambooshi, L., ArabAmeri, A., Shahbazi, M., Zeidabadi, R.(2018). The Effect of Motor independent/dependent visual perceptionpractice on depth perception and dynamic visual acuitywithin 7-8-year-old Children.Journal OF Sabzevar University OF Medical Sciences, 25(3), 409-417.
17. Eskandarnejad, M., Rezaei, F., Jahedi, M. (2018). Relationship between Refereeing Level and Type of Sport Field with Sport Referees Amount of Depth Perception Error in Cold and Warm Colors. Motor Behavior, (31), 147-160. from: http://ensani.ir/fa/article/389118.
18. Chelnokova, O., Laeng, B. (2011). Three-dimensional information in face recognition: An eye-tracking study. Journal of vision. [DOI:10.1167/11.13.27]
19. Nejati, V.(2015). Comparing two and three dimensional images in learning of neuroscience course.Journal of Medical Education Development, 8(19), 92-98.
20. Noureldin, Y., Stoica, A., Kaneva, P., Andonian, S. (2016). Impact of Training on Three-Dimensional versus Two-Dimensional Laparoscopic Systems on Acquisition of Laparoscopic Skills in Novices: A Prospective Comparative Pilot Study. BioMed Research International. [DOI:10.1155/2016/4197693]
21. Schild, J., LaViola, J., & Masuch, M. (2012). Understanding user experience in stereoscopic 3D games. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (pp. 89-98). [DOI:10.1145/2207676.2207690]
22. Menant, J., George,R.,Lord, S. (2010). Impaired Depth Perception and Restricted Pitch Head Movement Increase Obstacle Contacts When Dual-Tasking in Older People. The journals of gerontology. The Journal of Series A Biological Sciences and Medical Sciences, 65(7), 751-757. [DOI:10.1093/gerona/glq015]

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