Methods of performance analysis in women’s Australian football: a scoping review

Background The first women’s Australian football (AF) professional competition was established in 2017, resulting in advancement in performance analysis capabilities within the sport. Given the specific constraints of women’s AF, it is currently unclear what match-play performance analysis methods and techniques are implemented. Therefore, the aim of this scoping review was to describe and critically appraise physical, technical, and tactical performance analysis methods that have been employed in women’s and girls’ AF match-play. Methodology A systematic search was conducted on the 27th of June 2022 through five databases. Eligibility criteria were derived from the PCC framework with the population (P) of women and girls AF players, of any level of play; concepts (C) of interest which were measures, data, and methods related to the sport’s physical, technical, and tactical performance; and the context (C) of methods that analysed any match-play performance. A narrative synthesis was conducted using extracted study characteristic data such as sample size, population, time period, collection standards, evaluation metrics for results, and application of thematic categorisations of previous sports performance reviews. Critical appraisal of eligible studies’ methodologies was conducted to investigate research quality and identify methodological issues. Results From 183 studies screened, twelve eligible studies were included, which examined match-play through physical (9/12, 75%), technical (4/12, 33%), and tactical analysis (2/12, 17%). Running demands and game actions analysis were the most researched in senior women’s AF. Research into junior girls’ AF match-play performance has not been investigated. No research has been conducted on non-running physical demands, contact demands, acceleration, and tactical aspects of women’s AF. All studies utilised either inferential statistics or basic predictive models. Critical appraisal deemed most studies as low risk of bias (11/12, 92%), with the remaining study having satisfactory risk. Conclusions Future research utilising increased longitudinal and greater contextual data is needed to combat the prominent issue of data representativeness to better characterise performance within women’s and girls’ AF. Additionally, research involving junior and sub-elite AF players across the talent pathways is important to conduct, as it provides greater context and insight regarding development to support the evolving elite women’s AF competition. Women’s AF has been constrained by its resource environment. As such, suggestions are provided for better utilisation of existing data, as well as for the creation of new data for appropriate future research. Greater data generation enables the use of detailed machine learning predictions, neural networks, and network analysis to better represent the intertwined nature of match-play performance from technical, physical, and tactical data.

[1]  Anna V. Lorimer,et al.  The Relationship Between Undulatory Underwater Kick Performance Determinants and Underwater Velocity in Competitive Swimmers: A Systematic Review , 2022, Sports Medicine - Open.

[2]  C. Minahan,et al.  Stroke Kinematics, Temporal Patterns, Neuromuscular Activity, Pacing and Kinetics in Elite Breaststroke Swimming: A Systematic Review , 2022, Sports Medicine - Open.

[3]  Isaiah Di Domenico,et al.  Technical performance in elite women’s Australian football – comparisons with men’s football, identifying important performance characteristics and apparent trends , 2021, International Journal of Performance Analysis in Sport.

[4]  M. Watsford,et al.  An assessment of physical and spatiotemporal behaviour during different phases of match play in professional Australian football , 2021, Journal of sports sciences.

[5]  Anthea C. Clarke,et al.  Evolving peak period, match movement, and performance demands in elite women's Australian football. , 2021, Journal of science and medicine in sport.

[6]  Grant M. Duthie,et al.  Preparing for an Australian Football League Women's League Season , 2020, Frontiers in Sports and Active Living.

[7]  G. Duthie,et al.  Quantifying the Movement Characteristics of Australian Football League Women's Competition , 2020, Journal of strength and conditioning research.

[8]  Ian N. Durbach,et al.  Integrating machine learning and decision support in tactical decision-making in rugby union , 2020, J. Oper. Res. Soc..

[9]  Jocelyn K Mara,et al.  Methods of performance analysis in team invasion sports: A systematic review , 2020, Journal of sports sciences.

[10]  Stephen J Kelly,et al.  Phases of match-play in professional Australian Football: Distribution of physical and technical performance , 2020, Journal of sports sciences.

[11]  P. Gastin,et al.  Network analysis of kick-in possession chains in elite Australian football , 2020, Journal of sports sciences.

[12]  M. Cardinale,et al.  The Effect of High Volume Power Training on Repeated High-Intensity Performance and the Assessment of Repeat Power Ability: A Systematic Review , 2020, Sports Medicine.

[13]  Wei Luo,et al.  Understanding the relative contribution of technical and tactical performance to match outcome in Australian Football , 2020, Journal of sports sciences.

[14]  Anna V. Lorimer,et al.  A systematic review of the biomechanical research methods used in strongman studies , 2020, Sports biomechanics.

[15]  S. Emmonds,et al.  The Challenge of Applying and Undertaking Research in Female Sport , 2019, Sports Medicine - Open.

[16]  S. Robertson,et al.  Modeling the Quality of Player Passing Decisions in Australian Rules Football Relative to Risk, Reward, and Commitment , 2019, Front. Psychol..

[17]  C. Young,et al.  Modelling Match Outcome in Australian Football: Improved accuracy with large databases , 2019, Int. J. Comput. Sci. Sport.

[18]  Alice J. Sweeting,et al.  The relationship of team and individual athlete performances on match quarter outcome in elite women's Australian Rules football. , 2019, Journal of science and medicine in sport.

[19]  P. Gastin,et al.  Understanding effective tactics in Australian football using network analysis , 2019, International Journal of Performance Analysis in Sport.

[20]  T. Gabbett,et al.  A skill profile of the national women’s Australian football league (AFLW) , 2019 .

[21]  Anthea C. Clarke,et al.  Comparison of the match running demands of elite and sub-elite women’s Australian Football , 2019 .

[22]  Zachary Munn,et al.  Systematic review or scoping review? Guidance for authors when choosing between a systematic or scoping review approach , 2018, BMC Medical Research Methodology.

[23]  J. McGowan,et al.  PRISMA Extension for Scoping Reviews (PRISMA-ScR): Checklist and Explanation , 2018, Annals of Internal Medicine.

[24]  Sam Robertson,et al.  Collective team behaviour of Australian Rules football during phases of match play , 2018, Journal of sports sciences.

[25]  D. Austin,et al.  Applied Sport Science of Australian Football: A Systematic Review , 2018, Sports Medicine.

[26]  T. Gabbett,et al.  Physical fitness and peak running periods during female Australian football match-play , 2018 .

[27]  Anthea C. Clarke,et al.  Physical demands and technical performance in Australian Football League Women's (AFLW) competition match-play. , 2017, Journal of science and medicine in sport.

[28]  T. Gabbett,et al.  The Influence of Physical Qualities on Activity Profiles of Female Australian Football Match Play. , 2017, International journal of sports physiology and performance.

[29]  S. Robertson,et al.  Evolution of game-play in the Australian Football League from 2001 to 2015 , 2017, Journal of sports sciences.

[30]  Tim J Gabbett,et al.  The Influence of Rotations on Match Running Performance in Female Australian Football Midfielders. , 2017, International journal of sports physiology and performance.

[31]  T. Gabbett,et al.  The influence of contextual factors on running performance in female Australian Football match-play. , 2017, Journal of strength and conditioning research.

[32]  T. Woods The use of team performance indicator characteristics to explain ladder position at the conclusion of the Australian Football League home and away season , 2016 .

[33]  Anna Volossovitch,et al.  Performance Analysis in Team Sports , 2016 .

[34]  R. J. Johnston,et al.  Movement Profiles, Match Events, and Performance in Australian Football , 2016, Journal of strength and conditioning research.

[35]  Sam Robertson,et al.  Explaining match outcome in elite Australian Rules football using team performance indicators , 2016, Journal of sports sciences.

[36]  A. Raynor,et al.  The application of a multi-dimensional assessment approach to talent identification in Australian football , 2016, Journal of sports sciences.

[37]  Sam Robertson,et al.  Predicting higher selection in elite junior Australian Rules football: The influence of physical performance and anthropometric attributes. , 2015, Journal of science and medicine in sport.

[38]  Hugo Sarmento,et al.  Match analysis in football: a systematic review , 2014, Journal of sports sciences.

[39]  Stephen J Kelly,et al.  Validity and Interunit Reliability of 10 Hz and 15 Hz GPS Units for Assessing Athlete Movement Demands , 2014, Journal of strength and conditioning research.

[40]  R. Aughey Widening margin in activity profile between elite and sub-elite Australian football: a case study. , 2013, Journal of science and medicine in sport.

[41]  D. Meyer,et al.  Influence of Physical Fitness, Age, Experience, and Weekly Training Load on Match Performance in Elite Australian Football , 2013, Journal of strength and conditioning research.

[42]  Keith Davids,et al.  Performance analysis in team sports: Advances from an Ecological Dynamics approach , 2013 .

[43]  Keith Davids,et al.  The Role of Ecological Dynamics in Analysing Performance in Team Sports , 2012, Sports Medicine.

[44]  M L Watsford,et al.  Movement Demands and Match Performance in Professional Australian Football , 2011, International Journal of Sports Medicine.

[45]  Adrian J. Gray,et al.  Match Analysis and the Physiological Demands of Australian Football , 2010, Sports medicine.

[46]  T. McGarry Applied and theoretical perspectives of performance analysis in sport: Scientific issues and challenges , 2009 .

[47]  Trevor Hastie,et al.  An Introduction to Statistical Learning , 2013, Springer Texts in Statistics.

[48]  Jason D Vescovi,et al.  Velocity thresholds for women's soccer matches: sex specificity dictates high-speed running and sprinting thresholds - Female Athletes in Motion (FAiM). , 2015, International journal of sports physiology and performance.