Visual and skill effects on soccer passing performance, kinematics, and outcome estimations

The role of visual information and action representations in executing a motor task was examined from a mental representations approach. High-skill (n = 20) and low-skill (n = 20) soccer players performed a passing task to two targets at distances of 9.14 and 18.29 m, under three visual conditions: normal, occluded, and distorted vision (i.e., +4.0 corrective lenses, a visual acuity of approximately 6/75) without knowledge of results. Following each pass, participants estimated the relative horizontal distance from the target as the ball crossed the target plane. Kinematic data during each pass were also recorded for the shorter distance. Results revealed that performance on the motor task decreased as a function of visual information and task complexity (i.e., distance from target) regardless of skill level. High-skill players performed significantly better than low-skill players on both the actual passing and estimation tasks, at each target distance and visual condition. In addition, kinematic data indicated that high-skill participants were more consistent and had different kinematic movement patterns than low-skill participants. Findings contribute to the understanding of the underlying mechanisms required for successful performance in a self-paced, discrete and closed motor task.

[1]  David A. Rosenbaum,et al.  The Cambridge Handbook of Expertise and Expert Performance: Perceptual-Motor Expertise , 2006 .

[2]  Paul R. Ford,et al.  Examining Action Effects in the Execution of a Skilled Soccer Kick by Using Erroneous Feedback , 2007, Journal of motor behavior.

[3]  T. Carr,et al.  “As soon as the bat met the ball, I knew it was gone”: Outcome prediction, hindsight bias, and the representation and control of action in expert and novice baseball players , 2007, Psychonomic bulletin & review.

[4]  C. Bard,et al.  Deafferentation and pointing with visual double-step perturbations , 1999, Experimental Brain Research.

[5]  D. Elliott,et al.  The influence of visual target and limb information on manual aiming. , 1988, Canadian journal of psychology.

[6]  Steve Haake,et al.  The curve kick of a football I: impact with the foot , 2002 .

[7]  T. Schack,et al.  Action‐Theory Approach to Applied Sport Psychology , 2012 .

[8]  M Husain,et al.  The coordination of bimanual prehension movements in a centrally deafferented patient. , 2000, Brain : a journal of neurology.

[9]  J. van der Kamp,et al.  Catching optical information for the regulation of timing , 2004, Experimental Brain Research.

[10]  H. Hausenblas,et al.  Handbook of Sport Psychology , 2020 .

[11]  S. T. Klapp,et al.  Motor response programming during simple choice reaction time: The role of practice. , 1995 .

[12]  Derek T. Y. Mann,et al.  Perceptual-cognitive expertise in sport: a meta-analysis. , 2007, Journal of sport & exercise psychology.

[13]  M. Guadagnoli,et al.  Challenge Point: A Framework for Conceptualizing the Effects of Various Practice Conditions in Motor Learning , 2004, Journal of motor behavior.

[14]  Jacob Cohen Statistical Power Analysis for the Behavioral Sciences , 1969, The SAGE Encyclopedia of Research Design.

[15]  Keith Davids,et al.  Movement Models from Sports Reveal Fundamental Insights into Coordination Processes , 2005, Exercise and sport sciences reviews.

[16]  H. Ritter,et al.  Representation and learning in motor action – Bridges between experimental research and cognitive robotics , 2013 .

[17]  D. Nowak,et al.  Preserved and Impaired Aspects of Feed-Forward Grip Force Control After Chronic Somatosensory Deafferentation , 2008, Neurorehabilitation and neural repair.

[18]  Digby Elliott,et al.  The influence of skill in gymnastics and vision on dynamic balance. , 1996 .

[19]  R. Applegate,et al.  Set Shot Shooting Performance and Visual Acuity in Basketball , 1992, Optometry and vision science : official publication of the American Academy of Optometry.

[20]  R. Bootsma,et al.  Timing an attacking forehand drive in table tennis. , 1990 .

[21]  George C. Woo,et al.  PRIMARY CARE OPTOMETRY , 1991 .

[22]  Raoul Huys,et al.  Methodological Review and Evaluation of Research in Expert Performance in Sport , 2012 .

[23]  Effect representation and action planning: A preface , 2004 .

[24]  D. Elliott,et al.  Specificity of learning and dynamic balance. , 1996, Research quarterly for exercise and sport.

[25]  Itay Basevitch Visual And Skill Effects On Soccer Passing , 2012 .

[26]  Paul R. Ford,et al.  The role of external action-effects in the execution of a soccer kick: a comparison across skill level. , 2005, Motor control.

[27]  T. Schack,et al.  Representation of motor skills in human long-term memory , 2006, Neuroscience Letters.

[28]  S. Bennett,et al.  Extended Book Review: Dynamics of Skill Acquisition: A Constraints-Led Approach , 2007 .

[29]  C Sutter,et al.  Sensumotor transformation of input devices and the impact on practice and task difficulty , 2007, Ergonomics.

[30]  S Bennett,et al.  The manipulation of vision during the powerlift squat: exploring the boundaries of the specificity of learning hypothesis. , 1995, Research quarterly for exercise and sport.

[31]  Athanasios Katis,et al.  Biomechanical characteristics and determinants of instep soccer kick. , 2007, Journal of sports science & medicine.

[32]  David L Mann,et al.  Is optimal vision required for the successful execution of an interceptive task? , 2007, Human movement science.

[33]  Brian Kramer,et al.  Ground reaction forces and kinematics of plant leg position during instep kicking in male and female collegiate soccer players , 2008, Sports biomechanics.

[34]  William M. Land,et al.  Examination of visual information as a mediator of external focus benefits. , 2013, Journal of sport & exercise psychology.

[35]  Bruce Abernethy,et al.  Contrasting Approaches to the Study of Motor Expertise , 1994 .

[36]  K. A. Ericsson,et al.  Expert and exceptional performance: evidence of maximal adaptation to task constraints. , 1996, Annual review of psychology.

[37]  B. Bläsing,et al.  The cognitive structure of movements in classical dance , 2009 .

[38]  G Aksamit,et al.  Feedback Influences on the Skill of Putting , 1983, Perceptual and motor skills.