This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Ando S., Kida N., Oda S. (2001). Central and peripheral visual reaction time of soccer players and nonathletes. Perceptual and Motor Skills 92(3), 786-94. DOI: 10.2466/pms.2001.92.3.786Search in Google Scholar
Barati S.A., Barati A.A., Gaeeni S., Ghanbarzadeh M. (2013). Comparing the effect of combination of mental and physical practices on balance capability of students with vision disorders. International Journal of Sport Studies 31(1), 80-85.Search in Google Scholar
Bellan V., Wallwork S.B, Gallace A., Spence Ch., Moseley G.L. (2017). Integrating self-localization, proprioception, pain, and performance. Journal of Dance Medicine and Science 21(1), 24-35. DOI: 10.12678/1089-313X.21.1.24Search in Google Scholar
Brodie J.A., Lobel E.E. (2008). More than just a mirror image: The visual system and other modes of learning and performing dance. Journal of Dance Education 8(1), 23-31. DOI: 10.1080/15290824.2008.10387355Search in Google Scholar
Cawsey R.P., Chua R., Carpenter M.G., Sanderson D.J. (2009). To what extent can increasing the magnification of visual feedback of the centre of pressure position change the control of quiet standing balance? Gait & Posture 29(2), 280-284. DOI: 10.1016/j.gaitpost.2008.09.007Search in Google Scholar
Christenson G.N., Winkelstein A.M. (1988). Visual skills of athletes versus nonathletes: development of a sports vision testing battery. Journal of the American Optometric Association 59(9), 666-75.Search in Google Scholar
Golomer E., Dupui P. (2000). Spectral analysis of adult dancers’ sways: Sex and interaction vision-proprioception. The International Journal of Neuroscience 105(1-4), 15-26.Search in Google Scholar
Grbovic A., Jorgic B. (2017). Motor abilities of children with different levels of visual acuity. Physical Education and Sport 15(1), 175-184. DOI: 10.22190/fupes1701175gSearch in Google Scholar
Jola C., Davis A., Haggard P. (2011). Proprioceptive integration and body representation: insights into dancers’ expertise. Experimental Brain Research 213(2-3), 257-65. DOI: 10.1007/s00221-011-2743-7Search in Google Scholar
Kassambara A. (2021). Rstatix: Pipe-friendly framework for statistical tests. R package version 0.7.0.Search in Google Scholar
Khanal S. (2015). Impact of visual skills training on sports performance: current and future perspectives. Advances in Ophthalmology & Visual System 2(1), 26-28. DOI: 10.15406/aovs.2015.02.00032Search in Google Scholar
Larson A.M., Loschky L.C. (2009). The contributions of central versus peripheral vision to scene gist recognition. Journal of Vision 9(10), 1-16. DOI: 10.1167/9.10.6Search in Google Scholar
Mańkowska M., Poliszczuk T., Poliszczuk D., Johne M. (2015). Visual perception and its effect on reaction time and time-movement anticipation in elite female basketball players. Polish Journal Sport & Tourism 22(1), 3-8. DOI: 10.1515/pjst-2015-0008Search in Google Scholar
Muiños M., Ballesteros S. (2014). Peripheral vision and perceptual asymmetries in young and older martial arts athletes and nonathletes. Attention, Perception & Psychophysics 76, 2465-2476. DOI: 10.3758/s13414-014-0719-ySearch in Google Scholar
Polishchuk T., Mosakowska M. (2009). Interreactions of peripheral perception and ability of time-movement anticipation in high-class competitive badminton players. Studies in Physical Culture and Tourism 16(3), 259-265.Search in Google Scholar
R Core Team (2021). R: A language and environment for statistical computing. R Foundation for Statistical Computing. Vienna. Austria.Search in Google Scholar
Radfern M.S., Yardley L., Bronstein A.M. (2001). Visual influences on balance. Journal of Anxiety Disorders 15(1-2), 81-94. DOI: 10.1016/S0887-6185(00)00043-8Search in Google Scholar
Rezaee M., Ghasemi A., Momeni M. (2012). Visual and athletic skills training enhance sport performance. European Journal of Experimental Biology 2(6), 2243-2250.Search in Google Scholar
Ryu D., Abernethy B., Mann D.L., Poolton J.M., Gorman A.D. (2013). The role of central and peripheral vision in expert decision making. Perception 42, 591-607. DOI: 10.1068/p7487Search in Google Scholar
Schaffer K. (2019). Three-dimensional symmetries in dance and other movement arts. Bridges. Conference Proceedings.Search in Google Scholar
Schnyder U., Vater Ch., Kredel R., Hossner E.J. (2015). Peripheral perception in offside decision-making in football. In: 7. Jahrestagung der sportwissenschaftlichen Gesellschaft der Schweiz (SGS). “Sportwissenschaften - Im Plural“. Sportwissenschaftliche Gesellschaft der Schweiz. DOI: 10.7892/boris.63409Search in Google Scholar
Schumacher N., Schmidt M., Reer R., Braumann K.M. (2019). Peripheral vision tests in sports: Training effects and reliability of peripheral perception test. International Journal of Environmental Research and Public Health 16(24), 5001. DOI: 10.3390/ijerph16245001Search in Google Scholar
Williams J.M., Thirer J. (1975). Vertical and horizontal peripheral vision in male and female athletes and nonathletes. Research Quarterly. American Alliance for Health, Physical Education and Recreation 46(2), 200-205. DOI: 10.1080/10671315.1975.10615324Search in Google Scholar
Witchalls J., Waddington G., Adams R., Blanch P. (2013). Evaluation of the relative contribution of peripheral and focal vision to proprioceptive differentiation of underfoot inversion angles in young elite athletes. Perceptual & Motor Skills: Physical Development & Measurement 117(3), 923-934.Search in Google Scholar
Worth L. (2015). Symmetry and asymmetry in dance and movement training using the Feldenkrais Method®. Theatre, Dance and Performance Training 6(2), 130-144. DOI: 10.1080/19443927.2015.1049708Search in Google Scholar
Vater C., Strasburger H. (2021). Topical review: The top five peripheral vision tools in sport. Optometry and Vision Science 98(7), 704-722. DOI: 10.1097/OPX.0000000000001732Search in Google Scholar
Vater Ch., Wolfe B., Rosenholtz R. (2022). Peripheral vision in real-world tasks: A systematic review. Psychonomic Bulletin & Review 29, 1531-1557. DOI: 10.3758/s13423-022-02117-wSearch in Google Scholar
Vila-Maldonado S., Abellán J., Sáez-Gallego N.M., García--López L.M., Contreras O.R. (2014). Decision-making and visual perception skills in youth volleyball players and non--players. Journal of Sport and Health Research 6(3), 265-276.Search in Google Scholar
Żwierko T. (2007). Differences in peripheral perception between athletes and nonathletes. Journal of Human Kinetics 19, 53-62.Search in Google Scholar
Żwierko T., Głowacki T., Osiński W. (2008). The effect of specific anaerobic exercises on peripheral perception in handball players. Kinesiologia Slovenica 14(1), 68-76.Search in Google Scholar