Lago, C. & Martin, R. Determinants of possession in football. J. Sports Science. 25969–974 (2007).
Google Scholar
Mann, DTY, Williams, AM, Ward, P J. Sport Exerc. mental illness 29457–478 (2007).
Google Scholar
Casanova, F. and many others. Effects of long intermittent exercise on perceptual-cognitive processes. Medicine Science Sports Exercise. 451610–1617 (2013).
Google Scholar
Scharfen, H.-E. & Memmert, D. Measurement of cognitive functions in experts and elite athletes: A meta-analytic review. Apple. Cogn psychiatry. 33843–860 (2019).
Google Scholar
Voss, MW, Kramer, AF, Basak, C., Prakash, RS & Roberts, B. Are expert athletes 'expert' in the cognitive laboratory? A meta-analytic review of cognition and sport expertise. Apple. Cogn psychiatry. 24812–826 (2010).
Google Scholar
Machado, G. & da Costa, IT TacticUP video test for soccer: development and validation. Before. mental illness 111690 (2020).
Google Scholar
Che, X. and many others. Two-dimensional and three-dimensional multi-object tracking learning performance in young female soccer players: role of running experience as reflected by heart rate variability. Physiol. behave 258114009. https://doi.org/10.1016/j.physbeh.2022.114009 (2023)
Schumacher, N., Schmidt, M., Wellman, K. & Brauman, K.-M. General Perceptual-Cognitive Abilities: Age and Position in Soccer. PLOS ONE 13e0202627 (2018).
Google Scholar
Moore, D., Larkin, B. & Honor, O. Decision-making skills of high-performance youth soccer players. Ger. J. Exercise Sports Res. 51102–111 (2021).
Google Scholar
Vilar, L., Araújo, D., Davids, K. & Bar-Yam, Y. Science of winning soccer: Emergent pattern-forming dynamics in association football. J. Cyst. Science is complex 2673–84 (2013).
Google Scholar
Roca, A., Ford, PR & Memmert, D. Perceptual-cognitive processes underlying creative expertise in soccer. mental illness Res. 851146–1155 (2021).
Google Scholar
de Waelle, S., Warlop, G., Lenoir, M., Bennett, SJ & Deconinck, FJA Development of perceptual-cognitive skills in youth volleyball players. J. Sports Science. 391911–1925 (2021).
Google Scholar
Schapschröer, M., Baker, J. & Schorer, J. Exploring the relationship between physical exercise load and pattern recall performance in female handball players. Express. Brain Res. 2341713–1723 (2016).
Google Scholar
Gorman, AD, Abernethy, B QJ Express. mental illness 2006(68), 1813–1831 (2015).
Google Scholar
North, JS, Hope, E. & Williams, AM The relative importance of different perceptual-cognitive skills during anticipation. Hmm. Motion Science 49170–177 (2016).
Google Scholar
Gorman, AD, Abernethy, B QJ Express. mental illness 2006(65), 1151–1160 (2012).
Google Scholar
Ward, B J. Sport Exerc. mental illness 2593–111 (2003).
Google Scholar
Van Marseveen, MJJ, Oudejans, RRD, Mann, DL & Savelsbergh, GJP Perceptual-cognitive ability and in situ performance of soccer players. QJ Express. mental illness 2006(71), 455–470 (2018).
Google Scholar
Gorman, AD, Abernethy, B Atten. perception. mental illness 75835–844 (2013).
Google Scholar
Farrow, D., McRae, J., Cross, J. & Abernethy, B. Reexamining the relationship between pattern recall and anticipatory ability. Int. J. Sport Psychol. 4191–106 (2010).
Google Scholar
Callen, A. and many others. The role of domain-specific and domain-general cognitive functions and abilities in sports performance: A meta-analysis. mental illness Bull. 1471290–1308 (2021).
Google Scholar
Abernethy, B., Farrow, D. & Mann, TL In Cambridge Handbook of Expertise and Expert Performance, (eds Erickson, KA and many others.) 677–695 (Cambridge University Press, 2018).
McRobert, AP, Ward, P., Eccles, DW & Williams, AM The effect of manipulating context-specific information on perceptual-cognitive processes during a simulated anticipation task. Bro. J. Psychol. 102519–534 (2011).
Google Scholar
Abernethy, B., Gill, DP, Parks, SL & Packer, ST Expertise and perception of dynamics and situational probability information. perception 30233–252 (2001).
Google Scholar
Sarmento, H., Anguera, T., Campaniso, J. & Leitao, J. Development and validation of a coding system to study the attacking process in soccer. Medicine 46401 (2010).
Google Scholar
Tenga, A Int. J. Perform. Anal. game 11545–552 (2011).
Google Scholar
Lowe, B. and many others. A systematic study of collective tactical behaviors in soccer using positional data. Sports Medicine. 50343–385 (2020).
Google Scholar
Niu, Z, Gao, X Pattern recognition. 451937–1947 (2012).
Google Scholar
Gorman, AD, Abernethy, B QJ Express. mental illness 2006(66), 2219–2236 (2013).
Google Scholar
Sherwood, S., Smith, D Euro. J. Sports Science. 19834–841 (2019).
Google Scholar
Rob, M. & Farrow, D. Examining the consistency and specificity of pattern recall in team handball. Int. J. Sport Psychol. 46513–527 (2015).
Google Scholar
Huijgen, BCH and many others. Cognitive functions in elite and sub-elite youth soccer players aged 13 to 17 years. PLOS ONE 10e0144580 (2015).
Google Scholar
Fernandez-Navarro, J., Fradua, L., Zubillaga, A., Ford, PR & McRobert, AP Attacking and defensive styles in soccer: an analysis of Spanish and English elite teams. J. Sports Science. 342195–2204 (2016).
Google Scholar
van Maarseveen, MJJ, Oudejans, RRD & Savelsbergh, GJP Pattern recall skills of skilled soccer players: two new methods used. Hmm. Motion Science 4159–75 (2015).
Google Scholar
Kazak, AE Editorial: Journal Article Reporting Standards. I am mental illness 731-2 (2018).
Google Scholar
Hewitt, A., Greenham, G. & Norton, K. Game style in soccer: what is it and can we quantify it?. Int. J. Perform. Anal. game 16355–372 (2016).
Google Scholar
Gómez, M. -Á., Mitrotasios, M., Armatas, V. & Lago-Peñas, C. Analysis of playing styles based on team quality and competition location in Greek professional soccer. Int. J. Perform. Anal. game 18986–997 (2018).
Google Scholar
Pate, R. Football Chance: Tactics and Strategy. In Science and football (eds Reilly, D. and many others.) 293–301 (E and FN Spahn, 2018).
Google Scholar
Goes, FR, Brink, MS, Elferrink-Gemser, MT, Kempe, M. & Lemmink, KAPM Tactics of successful attacks in professional association football: large-scale spatial analysis of dynamic subgroups using positional tracking data. J. Sports Science. 39523–532 (2021).
Google Scholar
Fernandez-Navarro, J., Fradua, L., Zubillaga, A. & McRobert, AP Evaluating the effectiveness of playing styles in elite soccer. Int. J. Sports Science. Coach. 14514–527 (2019).
Google Scholar
Asian-Clemente, JA, Rabano-Muñoz, A., Suarez-Arrones, L. & Requena, B. Different pitch structures control external and internal loads in young professional soccer players during transfer games. Biology game. https://doi.org/10.5114/biolsport.2023.124848 (2023)
Google Scholar
Alvarez, GA & Franconeri, SL How many objects can you track? Evidence for a monitoring mechanism with resource-limited attention. J. Wis. 714.1-14.10 (2007).
Google Scholar
Bradley, B.S and many others. Effect of playing formation on high-intensity running and technical profiles in English FA Premier League soccer matches. J. Sports Science. 29821–830 (2011).
Google Scholar
Chung, D., Carvalho, D., Casanova, F. & Silva, B. Manipulation effect of number of players on spatial and concentration principles of game representation during soccer small-sided and conditioned games. JPES 19381–386 (2019).
Google Scholar
Fehd, HM & Seiffert, AE Looking at the center of targets helps track multiple objects. J. Wis. 1019.1-19.13 (2010).
Google Scholar
Craig, CM and many others. Optic variables are used to determine the arrival position of the future ball in expert and novice soccer players. Atten. perception. mental illness 71515–522 (2009).
Google Scholar