Prevalence of interactions and influence of performance constraints on kick outcomes across Australian Football tiers: Implications for representative practice designs

Browne, Peter; Sweeting, Alice; Davids, Keith; Robertson, Sam

doi:10.1016/j.humov.2019.06.013

Cited by 22 publications

(36 citation statements)

References 29 publications

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“…Conversely, the strategy demonstrated in 1B appeared to be one in which the players "threw caution to the wind" in an attempt to optimize their perceived likelihood to score. To further these insights, practitioners could consider the use of more advanced machine learning techniques such as rule association (Browne et al, 2019). Such an approach extends the descriptive analysis described here through the appreciation of the interaction between nested task constraints, offering greater insight into the combination of constraints that are likely to shape the disposal characteristics in response to an emergent "tactical problem" experienced within the competition.…”

Section: Discussionmentioning

confidence: 99%

“…In this way, coaches are guiding the athletes to find solutions to the unknown problems that they may face in future competitions, not just repeating solutions for the training task problems (Araújo et al, 2009). For example, both tactical and strategical work in contemporary methods for preparation for team sports performance are now predicated on "Big Data" and technology implemented by teams of sports practitioners within the framework of an ecological dynamics rationale for learning designs in practice programs (Woods et al, 2019b;Browne et al, 2019).…”

Section: Synergy Formation In Athletes and Sports Teams Exploits Selfmentioning

confidence: 99%

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Sport Practitioners as Sport Ecology Designers: How Ecological Dynamics Has Progressively Changed Perceptions of Skill “Acquisition” in the Sporting Habitat

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Section: Discussionmentioning

confidence: 99%

Section: Synergy Formation In Athletes and Sports Teams Exploits Selfmentioning

confidence: 99%

Sport Practitioners as Sport Ecology Designers: How Ecological Dynamics Has Progressively Changed Perceptions of Skill “Acquisition” in the Sporting Habitat

et al. 2020

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“…Clearly, greater depth of, and diversity in key constraints and their interaction sampled from both competition and practice landscapes, would enable deeper insight into the representativeness of training tasks. One way to achieve this could be through the use of more advanced machine learning techniques, such as rule induction (for detailed methodological insight, see [25]).…”

Section: Representative Learning Designersmentioning

confidence: 99%

“…transiting from junior to senior competition, sustaining high-performance participation and prolonged success). Currently, targeted research is guiding the work of professionals in the practical integration of relevant propositions within specific sporting environments (for some notable examples, see [10,13,[22][23][24][25][26]). Continued examples of implementing an ecological dynamics framework by sporting practitioners could support those who seek to avoid reverting to more traditional models of performance preparation grounded in 'operational standards' or 'technical performance templates' prescribed in coaching manuals.…”

Section: Introductionmentioning

confidence: 99%

Theory to Practice: Performance Preparation Models in Contemporary High-Level Sport Guided by an Ecological Dynamics Framework

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A fundamental challenge for practitioners in high-level sporting environments concerns how to support athletes in adapting behaviours to solve emergent problems during competitive performance. Guided by an ecological dynamics framework, the design and integration of competitive performance preparation models that place athlete-environment interactions at the heart of the learning process may address this challenge. This ecological conceptualisation of performance preparation signifies a shift in a coach's role; evolving from a consistent solution provider to a learning environment designer who fosters local athlete-environment interactions. However, despite the past decades of research within the ecological dynamics framework developing an evidence-based, theoretical conceptualisation of skill acquisition, expertise and talent development, an ongoing challenge resides within its practical integration into sporting environments. This article provides two case examples in which high-level sports organisations have utilised an ecological dynamics framework for performance preparation in Australian football and Association Football. A unique perspective is offered on experiences of professional sport organisations attempting to challenge traditional ideologies for athlete performance preparation by progressing the theoretical application of ecological dynamics. These case examples intend to promote the sharing of methodological ideas to improve athlete development, affording opportunities for practitioners and applied scientists to accept, reject or adapt the approaches presented here to suit their specific ecosystems.

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“…Whilst constraints can be collected from training and competition environments, such approaches often overlook constraint interaction and are unable to capture then analyse the complexity of systems in full [8,9]. Recently, the interaction among constraints was examined via machine learning techniques in Australian football (AF) [6,10]. The application of a rules-based approach enables the complexity of RLD to be measured, through the identification of key constraint interactions based on both their frequency and their displayed influence on behaviours.…”

Section: Introductionmentioning

confidence: 99%

Applications of a working framework for the measurement of representative learning design in Australian football

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Representative learning design proposes that a training task should represent informational constraints present within a competitive environment. To assess the level of representativeness of a training task, the frequency and interaction of constraints should be measured. This study compared constraint interactions and their frequencies in training (match simulations and small sided games) with competition environments in elite Australian football. The extent to which constraints influenced kick and handball effectiveness between competition matches, match simulations and small sided games was determined. The constraints of pressure and time in possession were assessed, alongside disposal effectiveness, through an association rule algorithm. These rules were then expanded to determine whether a disposal was influenced by the preceding disposal. Disposal type differed between training and competition environments, with match simulations yielding greater representativeness compared to small sided games. The subsequent disposal was generally more effective in small sided games compared to the match simulations and competition matches. These findings offer insight into the measurement of representative learning designs through the non-linear modelling of constraint interactions. The analytical techniques utilised may assist other practitioners with the design and monitoring of training tasks intended to facilitate skill transfer from preparation to competition.

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Prevalence of interactions and influence of performance constraints on kick outcomes across Australian Football tiers: Implications for representative practice designs

Cited by 22 publications

References 29 publications

Sport Practitioners as Sport Ecology Designers: How Ecological Dynamics Has Progressively Changed Perceptions of Skill “Acquisition” in the Sporting Habitat

Sport Practitioners as Sport Ecology Designers: How Ecological Dynamics Has Progressively Changed Perceptions of Skill “Acquisition” in the Sporting Habitat

Theory to Practice: Performance Preparation Models in Contemporary High-Level Sport Guided by an Ecological Dynamics Framework

Applications of a working framework for the measurement of representative learning design in Australian football

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