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Sports Medicine

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01.01.2017 | Leading Article

Current Approaches to Tactical Performance Analyses in Soccer Using Position Data

verfasst von: Daniel Memmert, Koen A. P. M. Lemmink, Jaime Sampaio

Erschienen in: Sports Medicine | Ausgabe 1/2017

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Abstract

Tactical match performance depends on the quality of actions of individual players or teams in space and time during match-play in order to be successful. Technological innovations have led to new possibilities to capture accurate spatio-temporal information of all players and unravel the dynamics and complexity of soccer matches. The main aim of this article is to give an overview of the current state of development of the analysis of position data in soccer. Based on the same single set of position data of a high-level 11 versus 11 match (Bayern Munich against FC Barcelona) three different promising approaches from the perspective of dynamic systems and neural networks will be presented: Tactical performance analysis revealed inter-player coordination, inter-team and inter-line coordination before critical events, as well as team-team interaction and compactness coefficients. This could lead to a multi-disciplinary discussion on match analyses in sport science and new avenues for theoretical and practical implications in soccer.

Ali A. Measuring soccer skill performance: a review. Scand J Med Sci Sports. 2011;11:170–83.CrossRef

Walter F, Lames M, McGarry T. Analysis of sports performance as a dynamic system by means of relative phase. Int J Comput Sci Sport. 2007;6:35–41.

Memmert D. Testing of tactical performance in youth elite soccer. J Sports Sci Med. 2010;9:199–205.PubMedPubMedCentral

Vilar L, Araújo D, Davids K, et al. The role of ecological dynamics in analysing performance in team sports. Sports Med. 2012;42:1–10.CrossRefPubMed

Williams AM, Ford PR. Expertise and expert performance in sport. Int Rev Sport Exerc Psychol. 2008;1:4–18.CrossRef

Brefeld U, Knauf K, Memmert D. Spatio-temporal convolution kernels. Mach Learn. 2016;102(2):247–73. doi:10.1007/s10994-015-5520-1.CrossRef

Kempe M, Grunz A, Memmert D. Detecting tactical patterns in basketball: comparison of merge self-organising maps and dynamic controlled neural networks. Eur J Sport Sci. 2015;15:249–55. doi:10.1080/17461391.2014.933882.CrossRefPubMed

Lago C. The influence of match location, quality of opposition, and match status on possession strategies in professional association football. J Sports Sci. 2009;27:1463–9. doi:10.1080/02640410903131681.CrossRefPubMed

Perl J, Memmert D. Special issue: Network approaches in complex environments. Hum Mov Sci. 2012;31:267–70.CrossRefPubMed

10.

Lemmink KAPM, Frencken WGP. Tactical performance analysis in invasion games: Perspectives from a dynamical system approach with examples from soccer. In: McGarry T, O’Donoghue P, Sampaio J, editors. Routledge handbook of sports performance analysis. London: Routledge; 2013. p. 89–100.

11.

Memmert D. Teaching tactical creativity in team and racket sports: research and practice. Routledge; Abingdon; 2015.

12.

Franks I. Qualitative and quantitative analysis. Coach Rev. 1985;8:48–50.

13.

Soccer Tenga A. In: McGarry T, O’Donoghue P, Sampaio J, editors. Routledge handbook of sports performance analysis. London: Routledge; 2013. p. 323–37.

14.

Olthof SBH, Frencken WGP, Lemmink KAPM. The older, the wider: on-field tactical behavior of elite-standard youth soccer players in small-sided games. Hum Mov Sci. 2015;41:92–102.CrossRefPubMed

15.

Gréhaigne JF, Godbout P. Collective variables for analysing performance in team sports. In: McGarry T, O’Donoghue P, Sampaio J, editors. Routledge handbook of sports performance analysis. London: Routledge; 2013. p. 101–14.

16.

Baca A. Tracking motion in sport—trends and limitations. In: Hammond J, editor. Proc. of the 9th Australasian Conf. on Mathematics and Computers in Sport. MathSport (ANZIAM). 2008. p. 1–7.

17.

Perl J, Memmert D, Baca A, et al. Sensors, monitoring, and model-based data analysis in sports, exercise and rehabilitation. In: Lai DTH, Begg RK, Palaniswami M, editors. Sensor networks – challenges towards practical application. Boca Raton: Taylor and Francis; 2012. pp. 375–405.

18.

Baca A, Dabnichki P, Heller M, et al. Ubiquitous computing in sports: a review and analysis. J Sports Sci. 2009;27:1335–46.CrossRefPubMed

19.

Castellano J, Figueira B, Coutinho D, et al. Identifying the effects from the quality of opposition in a football team positioning strategy. Int J Perform Anal Sport. 2013;13(3):822–32.

20.

Moura FA, Martins LEB, Anido RO, et al. A spectral analysis of team dynamics and tactics in Brazilian football. J Sports Sci. 2013;31(14):1568–77.CrossRefPubMed

21.

Fujimura A, Sugihara K. Geometric analysis and quantitative evaluation of sport teamwork. Syst Comp Jpn. 2005;35(6):49–58.CrossRef

22.

Fonseca S, Milho J, Travassos B, et al. Spatial dynamics of team sports exposed by Voronoi diagrams. Hum Mov Sci. 2012;31(6):1652–9.CrossRefPubMed

23.

Taki T, Hasegawa JI. Visualization of dominant region in team games and its application to teamwork analysis. In: Computer graphics international, 2000. Proceedings. IEEE. p. 227–235.

24.

Kang CH, Hwang JR, Li KJ. Trajectory analysis for soccer players. In: Data mining workshops, 2006. ICDM Workshops 2006. Sixth IEEE International Conference on. IEEE. p. 377–381.

25.

Horton M, Gudmundsson J, Chawla S, et al. Classification of passes in football matches using spatiotemporal data. arXiv:1407.5093.

26.

Gudmundsson J, Wolle T. Towards automated football analysis: algorithms and data structures. In: Proc. 10th Australasian Conf. on mathematics and computers in sport.

27.

Wei X, Sha L, Lucey P, et al. Large-scale analysis of formations in soccer. In: Digital image computing: techniques and applications (DICTA), 2013 International Conference on. IEEE. p. 1–8.

28.

Hirano S, Tsumoto S. Grouping of soccer game records by multiscale comparison technique and rough clustering. In: Hybrid intelligent systems, 2005. HIS’05. Fifth International Conference on. IEEE. p. 6.

29.

Gudmundsson J, Wolle T. Football analysis using spatio-temporal tools. Comput Environ Urban Syst. 2014;47:16–27.CrossRef

30.

Sampaio J, Maçãs V. Measuring tactical behaviour in football. Int J Sports Med. 2012;33:395–401.CrossRefPubMed

31.

Bialkowski A, Lucey P, Carr P, et al. Recognising team activities from noisy data. In: Computer vision and pattern recognition workshops (CVPRW), 2013 IEEE Conference on. IEEE. p. 984–990.

32.

Bialkowski A, Lucey P, Carr P, et al. Large-scale analysis of soccer matches using spatiotemporal tracking data. In: Data mining (ICDM), 2014 IEEE international conference on. IEEE. p. 725–730.

33.

Gonçalves B, Figueira B, Maçãs V, et al. Effect of player position on movement behaviour, physical and physiological performances during an 11-a-side football game. J Sports Sci. 2014;32:191–9.CrossRefPubMed

34.

Frencken WGP, Lemmink KAPM, Delleman N, et al. Oscillations of centroid position and surface area of soccer teams in small-sided games. Eur J Sport Sci. 2011;11:215–23.CrossRef

35.

Frencken WGP, Lemmink KAPM, van de Poel H, et al. Variability of inter team distance associated with match events in elite-standard soccer. J Sports Sci. 2012;30:1207–13.CrossRefPubMed

36.

Memmert D, Perl J. Analysis and simulation of creativity learning by means of artificial neural networks. Hum Mov Sci. 2009;28:263–82.CrossRefPubMed

37.

Memmert D, Perl J. Game creativity analysis by means of neural networks. J Sport Sci. 2009;27:139–49.CrossRef

38.

Richman J, Moorman J. Physiological time-series analysis using approximate entropy and sample entropy. Am J Physiol. 2000;278:H2039–49.

39.

Pincus S. Approximate entropy as a measure of system-complexity. Proc Natl Acad Sci. 1991;88:2297–301.CrossRefPubMedPubMedCentral

40.

Kurz M, Stergiou N. Applied dynamic systems theory for the analysis of movement. In: Stergiou N, editor. Innovative analyses of human movement. Champaign: Human Kinetics; 2004. p. 93–119.

41.

Palut Y, Zanone P. A dynamical analysis of tennis: concepts and data. J Sports Sci. 2005;23:1021–32.CrossRefPubMed

42.

Folgado H, Duarte R, Fernandes O, et al. Competing with lower level opponents decreases intra-team movement synchronisation and time-motion demands during pre-season soccer matches. PLOS One. 2014;9:e97145. doi:10.1371/journal.pone.0097145.CrossRefPubMedPubMedCentral

43.

Perl J, Tilp M, Baca A, et al. Neural networks for analysing sports games. In: McGarry T, O’Donoghue P, Sampaio J, editors. Routledge Handbook of Sports Performance Analysis. Routledge: Abingdon; 2013. pp. 237–47.

44.

Perl J. A neural network approach to movement pattern analysis. Hum Mov Sci. 2014;23:605–20.CrossRef

45.

Perl J, Grunz A, Memmert D. Tactics in soccer: an advanced approach. Int J Comput Sci Sport. 2013;12:33–44.

46.

Grunz A, Memmert D, Perl J. Tactical pattern recognition in soccer games by means of special self-organizing maps. Hum Mov Sci. 2012;31:334–43.CrossRefPubMed

47.

Glazier PS. Towards a grand unified theory of sports performance. Hum Mov Sci. 2016 (in press).

Titel: Current Approaches to Tactical Performance Analyses in Soccer Using Position Data
verfasst von: Daniel Memmert
Koen A. P. M. Lemmink
Jaime Sampaio
Publikationsdatum: 01.01.2017
Verlag: Springer International Publishing
Erschienen in: Sports Medicine / Ausgabe 1/2017
Print ISSN: 0112-1642
Elektronische ISSN: 1179-2035
DOI: https://doi.org/10.1007/s40279-016-0562-5

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