Variabilidad de la coordinación del movimiento humanoconcepto e interpretación

  1. Valldecabres, Raúl 1
  1. 1 Valencia International University (VIU)
Revista:
Lecturas: Educación física y deportes

ISSN: 1514-3465

Ano de publicación: 2021

Volume: 26

Número: 282

Tipo: Artigo

DOI: 10.46642/EFD.V26I282.2645 DIALNET GOOGLE SCHOLAR lock_openAcceso aberto editor

Outras publicacións en: Lecturas: Educación física y deportes

Resumo

The main objective of this paper is to present different theories about variability and movements variability associated with sports world and how it affects athletes and their performance or injury. Drawing on classical studies, where variability is analyzed from a mathematical perspective (taking into account only the standard deviation) this was interpreted as "noise" and was eliminated or had not considered; subsequently, other theories of dynamical systems that contradicted the above, considering the variability as necessary and inevitable because of the different constraints of the task, all analyzed with the most sophisticated technology, 3D images, powerful software and analysis data according to the technique used, the re-evaluation data to consider it positive or negative. Different studies in diverse sports the analyzed, but almost always in laboratory, which appears to leave open a line for future research in the field of real game, to take into account the interpretations limitations and/or restrictions of the environment in a particular time of the completion of the task, for that reason, the aim of this work is to know different human movement coordination variability stiles and the interpretation.

Referencias bibliográficas

  • Araki, H. (2011). Embodiment and movement in «coordination-theory». Advances in Exercise & Sports Physiology, 17(2), 38-38. https://dl.ndl.go.jp/info:ndljp/pid/10565530
  • Araujo, D., y Davids, K. (2011). What Exactly is Acquired During Skill Acquisition? Journal of Consciousness Studies, 18(3-4), 7-23. https://www.researchgate.net/publication/233604872
  • Araújo, D., Davids, K., Bennett, S.J., Button, C., y Chapman, G. (2004). Emergence of sports skills under constrains. En A.M. Williams, y N.J. Hodges (Eds.), Skill Acquisition in Sport: Research, Theory and Practice. Routledge.
  • Araújo, D., Davids, K., y Hristovski, R. (2006). The ecological dynamics of decision making in sport. Psychology of Sport and Exercise, 7(6), 653-676. https://doi.org/10.1016/j.psychsport.2006.07.002
  • Araújo, D., Davids, K., y Serpa, S. (2005). An ecological approach to expertise effects in decision-making in a simulated sailing regatta. Psychology of Sport and Exercise, 6(6), 671-692. https://doi.org/10.1016/j.psychsport.2004.12.003
  • Araújo, D., y Esteves, P.T. (2009). The irreducible variability of decision making in basketball. En A. Lorenzo, S.J. Ibañez, y E. Ortega (Eds.), Aportaciones teóricas y prácticas para el baloncesto del futuro (pp. 171-182). Wanceulen Editorial.
  • Arutyunyan, G.H., Gurfinkel, V.S., y Mirskii, M.L. (1969). Organization of movements on execution by man of an exact postural task. Biophysics, 14, 1162-1167.
  • Barab, S., Cherkes-Julkowski, M., Swenson, R., Garret, S., Shaw, R., y Young, M. (1999). Principles of self-organization: Ecologizing the learner-facilitator system. The journal of the learning sciences, 8(3/4), 349-390. https://doi.org/10.1080/10508406.1999.9672074
  • Bartlett, R. (1997). Current issues in the mechanics of athletic activities. A position paper. Journal of Biomechanics, 30(5), 477-486. https://doi.org/10.1016/S0021-9290(96)00173-X
  • Bartlett, R. (2007). Introduction to Sports Biomechanics: Analysing Human Movement Patterns. Routledge.
  • Bartlett, R., Wheat, J., y Robins, M. (2007). Is movement variability important for sports biomechanists? Sports Biomechanics, 6(2), 224-243. https://doi.org/10.1080/14763140701322994
  • Beek, P.J., Peper, C.E., y Stegeman, D.F. (1995). Dynamical models of movement coordination. Human Movement Science, 14(4/5), 573-608. https://doi.org/10.1016/0167-9457(95)00028-5
  • Bernstein, N. (1967). The co-ordination and regulation of movement. Pergamon Press.
  • Brisson, T.A., y Alain, C. (1996). Should Common Optimal Movement Patterns Be Identified as the Criterion to Be Achieved? Journal of Motor Behavior, 28(3), 211-223. https://doi.org/10.1080/00222895.1996.9941746
  • Buzzi, U.H., Stergiou, N., Kurz, M.J., Hageman, P.A., y Heidel, J. (2003). Nonlinear dynamics indicates aging affects variability during gait. Clinical Biomechanics, 18(5), 435-443. https://doi.org/10.1016/S0268-0033(03)00029-9
  • Calvo, A.L., Godoy, S.J.I., y Toro, E.O. (2009). Aportaciones teóricas y prácticas para el baloncesto del futuro. Wanceulen Editorial.
  • Cazzola, D., Pavei, G., y Preatoni, E. (2016). Can coordination variability identify performance factors and skill level in competitive sport? The case of race walking. Journal of Sport and Health Science, 5(1), 35-43. https://doi.org/10.1016/j.jshs.2015.11.005
  • Chang, R., Van Emmerik, R., y Hamill, J. (2008). Quantifying rearfoot–forefoot coordination in human walking. Journal of Biomechanics, 41(14), 3101-3105. https://doi.org/10.1016/j.jbiomech.2008.07.024
  • Chow, J.Y., Davids, K., Button, C., y Koh, M. (2008). Coordination changes in a discrete multi-articular action as a function of practice. Acta Psychologica, 127(1), 163-176. https://doi.org/10.1016/j.actpsy.2007.04.002
  • Cooper, S.J., y Dourish, C.T. (1990). An introduction to the concept of esterotypy and historical perspective on the role on brain domain. En Neurobiology of stereotyped behavior (S.J. Cooper and C.T. Dourish). Clarendon Press.
  • Cordo, P., Harnad, S., y Bower, J.M. (Eds.). (1994). Is the cerebellum a motor control device. En Movement Control. Cambridge University Press.
  • Cordovil, R., Araujo, D., Davids, K., Gouveia, L., Barreiros, J., Fernandes, O., y Serpa, S. (2009). The influence of instructions and body-scaling as constraints on decision-making processes in team sports. European Journal of Sport Science, 9(3), 169-179. https://doi.org/10.1080/17461390902763417
  • Correia, V., Araújo, D., Duarte, R., Travassos, B., Passos, P., y Davids, K. (2012). Changes in practice task constraints shape decision-making behaviours of team games players. Journal of Science and Medicine in Sport / Sports Medicine Australia, 15(3), 244-249. https://doi.org/10.1016/j.jsams.2011.10.004
  • Davids, K., y Araújo, D. (2010). The concept of ‘Organismic Asymmetry’ in sport science. Journal of Science & Medicine in Sport, 13(6), 633-640. https://doi.org/10.1016/j.jsams.2010.05.002
  • Davids, K., Araújo, D., Vilar, L., Renshaw, I., y Pinder, R. (2013). An Ecological Dynamics Approach to Skill Acquisition: Implications for Development of Talent in Sport. Talent Development & Excellence, 5(1). https://eprints.qut.edu.au/63711/
  • Davids, K., Glazier, P., Araujo, D., y Bartlett, R. (2003). Movement systems as dynamical systems. Sports Medicine, 33(4), 245-260. https://doi.org/10.2165/00007256-200333040-00001
  • DiCesare, C.A., Montalvo, A., Foss, K.D.B., Thomas, S.M., Hewett, T.E., Jayanthi, N.A., y Myer, G.D. (2019). Sport Specialization and Coordination Differences in Multisport Adolescent Female Basketball, Soccer, and Volleyball Athletes. Journal of Athletic Training, 54(10), 1105-1114. https://doi.org/10.4085/1062-6050-407-18
  • Fajen, B.R., y Warren, W.H. (2003). Behavioural dynamics of steering, obstacle avoidance, and route selection. Journal of Experimental Psychology. Human Perception and Performance, 29(2), 343-362. https://doi.org/10.1167/1.3.184
  • Fonseca, S., Milho, J., Passos, P., Araújo, D., y Davids, K. (2012). Approximate Entropy Normalized Measures for Analyzing Social Neurobiological Systems. Journal of Motor Behavior, 44(3), 179-183. https://doi.org/10.1080/00222895.2012.668233
  • Gibson, J.J. (1978). The Ecological Approach to the Visual Perception of Pictures. Leonardo, 11(3), 227. https://www.jstor.org/stable/1574154
  • Hamill, J., Haddad, J.M., y Van Emmerik, R.E.A. (2005). Using coordination measures for movement analysis. En Q. Wang (Ed.), Proceedings of XXIII International Symposium on Biomechanics in Sports (pp. 33-38). The Peoples Sports Press. https://ojs.ub.uni-konstanz.de/cpa/article/download/648/572/0
  • Hamill, J., McDermott, W.J., y Haddad, J.M. (2000). Issues in quantifying variability from a dynamical systems perspective. Journal of Applied Biomechanics, 16(4), 407-418. https://doi.org/10.1123/jab.16.4.407
  • Hamill, J., Palmer, C., y Van Emmerik, R.E. (2012). Coordinative variability and overuse injury. BMC Sports Science, Medicine and Rehabilitation, 4(1), 45. https://doi.org/10.1186/1758-2555-4-45
  • Headrick, J., Davids, K., Renshaw, I., Araújo, D., Passos, P., y Fernandes, O. (2012). Proximity-to-goal as a constraint on patterns of behaviour in attacker-defender dyads in team games. Journal of Sports Sciences, 30(3), 247-253. https://doi.org/10.1080/02640414.2011.640706
  • Heiderscheit, B.C. (2000). Movement Variability As a Clinical Measure for Locomotion. Journal of Applied Biomechanics, 16(4), 419. https://doi.org/10.1123/jab.16.4.419
  • Heiderscheit, B.C., Hamill, J., y van Emmerik, R.E.A. (2002). Variability of stride characteristics and joint coordination among individuals with patellofemoral pain. Journal of applied biomechanics, 18, 110-121. https://doi.org/10.1123/jab.18.2.110
  • James, C.R., Dufek, J.S., y Bates, B.T. (2000). Effects of injury proneness and task difficulty on joint kinetic variability. Medicine and Science in Sports and Exercise, 32(11), 1833-1844. https://doi.org/10.1097/00005768-200011000-00004
  • Jantzen, K.J., Oullier, O., y Kelso, J.A. (2008). Neuroimaging Coordination Dynamics in the Sport Sciences. Methods, 45(4), 325-335. https://doi.org/10.1016/j.ymeth.2008.06.001
  • Kelso, J.A.S. (1995). Dynamic Patterns: The Self-organization of Brain and Behaviour. MIT Press.
  • Komar, J., Seifert, L., y Thouvarecq, R.(2015). What Variability tells us about motor expertise: Measurements and perspectives from a complex system approach. Movement & Sport Sciences - Science & Motricité, (89), 65-77. https://doi.org/10.1051/sm/2015020
  • Latash, M. (2000). There is no motor redundancy in human movements. There is motor abundance. Motor Control, 4(3), 259-260. https://doi.org/10.1123/mcj.4.3.259
  • Lees, A., y Rahnama, N. (2013). Variability and typical error in the kinematics and kinetics of the maximal instep kick in soccer. Sports Biomechanics, 12(3), 283-292. https://doi.org/10.1080/14763141.2012.759613
  • Magill, R.A. (2001). Motor learning: Concepts and applications. McGraw-Hill.
  • Malacko, J., y Stanković, V. (2011). Canonical relations between variables of coordination abilities, variables of morphological characteristics and motor abilities of boys aged 11-12. Sport Science, 4(1), 73-77.
  • Marín, M.M., Hernández, F.M., y Pérez, L.M.R. (1999). Control y Aprendizaje Motor (A. Oña Sicilia, Ed.). Síntesis Editorial.
  • Miller, R.H., Chang, R., Baird, J.L., Van Emmerik, R.E.A., y Hamill, J. (2010). Variability in kinematic coupling assessed by vector coding and continuous relative phase. Journal of Biomechanics, 43(13), 2554-2560. https://doi.org/10.1016/j.jbiomech.2010.05.014
  • Miller, S. (2000). Variability in basketball shooting: Practical implications. Presentado en 18th International symposium on biomechanics in sport, Hong Kong.
  • Miller, Stuart (1998). The kinematics of inaccuracy in basketball shooting. Presentado en 16th International symposium on biomechanics in sports, Leeds Metropolitan University. https://ojs.ub.uni-konstanz.de/cpa/article/download/1634/1536
  • Mörtl, A., Lorenz, T., Vlaskamp, B., Gusrialdi, A., Schubö, A., y Hirche, S. (2012). Modeling inter-human movement coordination: Synchronization governs joint task dynamics. Biological Cybernetics, 106(4/5), 241-259. https://doi.org/10.1007/s00422-012-0492-8
  • Müller, H., y Sternad, D. (2004). Decomposition of variability in the execution of goal-oriented tasks: Three components of skill improvement. Journal of Experimental Psychology. Human Perception and Performance, 30(1), 212-233. https://doi.org/10.1037/0096-1523.30.1.212
  • Newell, K.M. (1985). Coordination, Control and Skill. En G. David, R.B. Wilberg, y I.M. Franks (Eds.), Advances in Psychology (pp. 295-317). Elsevier Science Publishers.
  • Newell, K.M. (1996). Change in movement and skill: Learning attention and transfer. En M.L. Latash, y M.T. Turvey (Eds.), Dexterity and Its Development (pp. 393-429). Psychology Press.
  • Newell, K.M., y Corcos, D.M. (1993). Variability and motor control. Human Kinetics Publishers.
  • Newell, K.M., Deutsch, K.M., Sosnoff, J.J., y Mayer-Kress, G. (2006). Variability in motor output as noise: A default and erroneous proposition? En K. Davids, S. Bennett, y K.M. Newell (Eds.), Movement System Variability (pp. 3-23). Human Kinetics Publishers.
  • Newell, K.M., y Vaillancourt, D.E. (2001). Dimensional change in motor learning. Human Movement Science, 20(4-5), 695-715. https://doi.org/10.1016/S0167-9457(01)00073-2
  • Newell, K.M., van Emmerik, R.E.A., y Sprague, R.l. (1991). Stereotypy and variability. En K.M. Newell, y D.M. Corcos (Eds.), Variability and motor control (pp. 92-116). Human Kinetics Publishers.
  • Orth, D., Davids, K., Araújo, D., Renshaw, I., y Passos, P. (2014). Effects of a defender on run-up velocity and ball speed when crossing a football. European Journal of Sport Science, 14(Suppl 1), S316-323. https://doi.org/10.1080/17461391.2012.696712
  • Pacheco, M.M., Hsieh, T.Y., y Newell, K.M. (2017). Search Strategies in Practice: Movement Variability Affords Perception of Task Dynamics. Ecological Psychology, 29(4), 243-258. https://doi.org/10.1080/10407413.2017.1368354
  • Pesce, C., Croce, R., Ben-Soussan, T.D., Vazou, S., McCullick, B., Tomporowski, P.D., y Horvat, M. (2019). Variability of practice as an interface between motor and cognitive development. International Journal of Sport and Exercise Psychology, 17(2), 133-152. https://doi.org/10.1080/1612197X.2016.1223421
  • Phillips, E., Davids, K., Renshaw, I., y Portus, M. (2010). Expert performance in sport and the dynamics of talent development. Sports Medicine, 40(4), 271-283. https://doi.org/10.2165/11319430-000000000-00000
  • Piek, J.P. (1998). Motor Behavior and Human Skill: A Multidisciplinary Approach. Human Kinetics Publishers.
  • Pincus, S.M. (1991). Approximate entropy as a measure of system complexity. Proceedings of the National Academy of Sciences, 88(6), 2297-2301. https://doi.org/10.1073/pnas.88.6.2297
  • Preatoni, E., Hamill, J., Harrison, A.J., Hayes, K., Van Emmerik, R.E.A., Wilson, C., y Rodano, R. (2013). Movement variability and skills monitoring in sports. Sports Biomechanics, 12(2), 69-92. https://doi.org/10.1080/14763141.2012.738700
  • Raikova, R.T. (2000). Some mechanical considerations on muscle coordination. Motor control, 4, 89-96. https://doi.org/10.1123/mcj.4.1.89
  • Richardson, M.J., Marsh, K.L., Isenhower, R.W., Goodman, J.R.L., y Schmidt, R.C. (2007). Rocking together: Dynamics of intentional and unintentional interpersonal coordination. Human Movement Science, 26(6), 867-891. https://doi.org/10.1016/j.humov.2007.07.002
  • Richardson, M.J., Marsh, K.L., y Schmidt, R.C. (2005). Effects of visual and verbal interaction on unintentional interpersonal coordination. Journal of experimental psychology. Human perception and performance, 31(1), 62-79. https://doi.org/10.1037/0096-1523.31.1.62
  • Saltzman, E., y Kelso, J.A. (1987). Skilled actions: A task-dynamic approach. Psychological Review, 94(1), 84-106. https://doi.org/10.1037/0033-295X.94.1.84
  • Schmidt, R.C., Carello, C., y Turvey, M.T. (1990). Phase transitions and critical fluctuations in the visual coordination of rhythmic movements between people. Journal Of Experimental Psychology. Human Perception And Performance, 16(2), 227-247. https://doi.org/10.1037/0096-1523.16.2.227
  • Schmidt, R., Zelaznik, H., Hawkins, B., Frank, J.S., y Quinn Jr., J.T. (1979). Motor-output variability: A theory for the accuracy of rapid motor acts. Psychological Review, 86(5), 415-451. https://doi.org/10.1037/0033-295X.86.5.415
  • Schöner, G., y Kelso, J.A. (1988). Dynamic pattern generation in behavioral and neural systems. Science, 239(4847), 1513-1520. https://doi.org/10.1126/science.3281253
  • Schroeder, M.R. (1991). Fractals, chaos, power laws: Minutes from an infinite paradise. Freeman and Company.
  • Seifert, L., Button, C., y Brazier, T. (2010). Interacting constrains and inter-limb co-ordination in swimming. En I. Renshaw, K. Davids, y G.J.P. Savelsbergh (Eds.), Motor Learning in Practice: A Constraints-Led Approach. Routledge.
  • Seifert, L., Button, C., y Davids, K. (2013). Key Properties of Expert Movement Systems in Sport: An Ecological Dynamics Perspective. Sports Medicine, 43(3), 167-178. https://doi.org/10.1007/s40279-012-0011-z
  • Seifert, L., y Davids, K. (2017). Ecological Dynamics: A Theoretical Framework for Understanding Sport Performance, Physical Education and Physical Activity. En P. Bourgine, P. Collet, y P. Parrend (Eds.), First Complex Systems Digital Campus World E-Conference 2015 (pp. 29-40). Springer International Publishing. https://doi.org/10.1007/978-3-319-45901-1_3
  • Seifert, L., Leblanc, H., Chollet, D., y Delignières, D. (2010). Inter-limb coordination in swimming: Effect of speed and skill level. Human Movement Science, 29(1), 103-113. https://doi.org/10.1016/j.humov.2009.05.003
  • Seifert, L., Leblanc, H., Herault, R., Komar, J., Button, C., y Chollet, D. (2011). Inter-individual variability in the upper–lower limb breaststroke coordination. Human Movement Science, 30(3), 550-565. https://doi.org/10.1016/j.humov.2010.12.003
  • Seifert, L., Wattebled, L., L’Hermette, M., y Herault, R. (2011). Inter-limb coordination variability in ice climbers of different skill level. Baltic Journal of Sport and Health Sciences, 80, 63-69. https://doi.org/10.33607/bjshs.v1i80.342
  • Shannon, C.E., y Weaver, W. (1949). A Mathematical Theory of Communication. The Bell System Technical Journal, 27, 379-423.
  • Sparrow, W.A., Donovan, E., van Emmerik, R., y Barry, E.B. (1987). Using relative motion plots to measure changes in intra-limb and inter-limb coordination. Journal of Motor Behavior, 19(1), 115-129. https://doi.org/10.1080/00222895.1987.10735403
  • Stankovic, V., y Malacko, J. (2008). Relations between systems of motor, cognitive and conative variables of top-class handball players. Kinesiologia Slovenica, 14(3), 33-43. https://www.researchgate.net/publication/261401578
  • Stergiou, N., Yu, Y., y Kyvelidou, A. (2013). A Perspective on Human Movement Variability With Applications in Infancy Motor Development. Human Kinetics Journal, 2(1), 93-102. https://doi.org/10.1123/krj.2.1.93
  • Swenson, R., y Turvey, M. (1991). Thermodynamic reasons for perception-action cycles. Ecological psychology, 3(4), 317-348. https://doi.org/10.1207/s15326969eco0304_2
  • Travassos, B., Araújo, D., Davids, K., Vilar, L., Esteves, P., y Vanda, C. (2012). Informational constraints shape emergent functional behaviours during performance of interceptive actions in team sports. Psychology of Sport and Exercise, 13(2), 216-223. https://doi.org/10.1016/j.psychsport.2011.11.009
  • Turvey, M.T., y Shaw, R.E. (1995a). Ecological foundations of cognition: I. Symmetry and specificity of animal–environment systems. Journal of Consciousness Studies, 6(11-12), 144-169.
  • Turvey, M.T., y Shaw, R.E. (1995b). Toward an ecological physics and a physical psychology. En R.L. Solso, y D.W. Massaro (Eds.), The science of the mind: 2001 and beyond (pp. 144-169). Oxford University Press.
  • Turvey, M.T., Shaw, R.E., Reed, E.S., y Mace, W.M. (1981). Ecological laws of perceiving and acting: In reply to Fodor and Pylyshyn. Cognition, 9(3), 237-304. https://doi.org/10.1016/0010-0277(81)90002-0
  • Van Gelder, T., y Port, R. (1995). Mind As Motion: Explorations in the Dynamics of Cognition. MIT Press.
  • Van Orden, G.C., Holden, J.G., y Turvey, M.T. (2003). Self-organization of cognitive performance. Journal of Experimental Psychology, 132(3), 331-350. https://doi.org/10.1037/0096-3445.132.3.331
  • Van Ulzen, N.R., Lamoth, C.J.C., Daffertshofer, A., Semin, G.R., y Beek, P.J. (2008). Characteristics of instructed and uninstructed interpersonal coordination while walking side-by-side. Neuroscience Letters, 432(2), 88-93. https://doi.org/10.1016/j.neulet.2007.11.070
  • Vidal, A., Wu, W., Nakajima, M., y Becker, J. (2018). Investigating the Constrained Action Hypothesis: A Movement Coordination and Coordination Variability Approach. Journal of Motor Behavior, 50(5), 528-537. https://doi.org/10.1080/00222895.2017.1371111
  • Vilar, L., Araújo, D., Davids, K., y Button, C. (2012). The role of ecological dynamics in analyzing performance in team sports. Sports Medicine, 42(1), 1-10.https://doi.org/10.2165/11596520-000000000-00000
  • Warren, W.H. (2006). The dynamics of perception and action. Psychological Review, 113(2), 358-389. https://doi.org/10.1037/0033-295X.113.2.358