Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

How to Conclude a Suspended Sports League?

Published Online:18 Jun 2024https://doi.org/10.1287/msom.2022.0558

References

  • Aoki RYS, Assuncao RM, Vaz de Melo POS (2017) Luck is hard to beat: The difficulty of sports prediction. Matwin S, Yu S, Farooq F, eds. Proc. 23rd ACM SIGKDD Internat. Conf. Knowledge Discovery Data Mining (Association for Computing Machinery, New York), 1367–1376.Google Scholar
  • Bean JC, Birge JR (1980) Reducing travelling costs and player fatigue in the national basketball association. Interfaces 10(3):98–102.LinkGoogle Scholar
  • Bickel JE (2007) Some comparisons among quadratic, spherical, and logarithmic scoring rules. Decision Anal. 4(2):49–65.LinkGoogle Scholar
  • Bouzarth EL, Cromer AW, Fravel WJ, Grannan BC, Hutson KR (2020) Dynamically scheduling NFL games to reduce strength of schedule variability. J. Sports Analytics 6(4):281–293.CrossrefGoogle Scholar
  • Bozóki S, Csató L, Temesi J (2016) An application of incomplete pairwise comparison matrices for ranking top tennis players. Eur. J. Oper. Res. 248(1):211–218.CrossrefGoogle Scholar
  • Breiman L (1996) Bagging predictors. Machine Learn. 24(2):123–140.CrossrefGoogle Scholar
  • Breiman L (2001) Random forests. Machine Learn. 45(1):5–32.CrossrefGoogle Scholar
  • Briskorn D, Drexl A (2009) A branch-and-price algorithm for scheduling sport leagues. J. Oper. Res. Soc. 60(1):84–93.CrossrefGoogle Scholar
  • Brown M, Sokol J (2010) An improved LRMC method for NCAA basketball prediction. J. Quant. Anal. Sports 6(3):1–23.Google Scholar
  • Chater M, Arrondel L, Gayant J-P, Laslier J-F (2021) Fixing match-fixing: Optimal schedules to promote competitiveness. Eur. J. Oper. Res. 294(2):673–683.CrossrefGoogle Scholar
  • Chen T, Guestrin C (2016) XgBoost: A scalable tree boosting system. Krishnapuram B, Shah M, eds. Proc. 22nd ACM SIGKDD Internat. Conf. Knowledge Discovery Data Mining (Association for Computing Machinery, New York), 785–794.Google Scholar
  • Cocchi G, Galligari A, Nicolino FP, Piccialli V, Schoen F, Sciandrone M (2018) Scheduling the Italian national volleyball tournament. Interfaces 48(3):271–284.LinkGoogle Scholar
  • Cortes C, Vapnik V (1995) Support-vector networks. Machine Learn. 20(3):273–297.CrossrefGoogle Scholar
  • Csató L (2021a) A simulation comparison of tournament designs for the world men’s handball championships. Internat. Trans. Oper. Res. 28(5):2377–2401.CrossrefGoogle Scholar
  • Csató L (2021b) Coronavirus and sports leagues: Obtaining a fair ranking when the season cannot resume. IMA J. Management Math. 32(4):547–560.CrossrefGoogle Scholar
  • Diaconis P, Graham RL (1977) Spearman’s footrule as a measure of disarray. J. Roy. Statist. Soc. Ser. B Methodological 39(2):262–268.CrossrefGoogle Scholar
  • Durbin J, Stuart A (1951) Inversions and rank correlation coefficients. J. Roy. Statist. Soc. Ser. B Methodological 13(2):303–309.CrossrefGoogle Scholar
  • Fawcett T (2006) An introduction to ROC analysis. Pattern Recognition Lett. 27(8):861–874.CrossrefGoogle Scholar
  • FiveThirtyEight (2022) NBA game predictions. Retrieved January 20, https://projects.fivethirtyeight.com/2022-nba-predictions/games/.Google Scholar
  • Fleurent C, Ferland JA (1993) Allocating games for the NHL using integer programming. Oper. Res. 41(4):649–654.LinkGoogle Scholar
  • Frank M, Wolfe P (1956) An algorithm for quadratic programming. Naval Res. Logist. Quart. 3(1–2):95–110.CrossrefGoogle Scholar
  • Fry MJ, Ohlmann JW (2012a) Introduction to the special issue on analytics in sports, part I: General sports applications. Interfaces 42(2):105–108.LinkGoogle Scholar
  • Fry MJ, Ohlmann JW (2012b) Introduction to the special issue on analytics in sports, part II: Sports scheduling applications. Interfaces 42(3):229–231.LinkGoogle Scholar
  • Gneiting T, Raftery AE (2007) Strictly proper scoring rules, prediction, and estimation. J. Amer. Statist. Assoc. 102(477):359–378.CrossrefGoogle Scholar
  • Goossens D, Spieksma F (2009) Scheduling the Belgian soccer league. Interfaces 39(2):109–118.LinkGoogle Scholar
  • Halberstadt JB, Levine GM (1999) Effects of reasons analysis on the accuracy of predicting basketball games. J. Appl. Soc. Psych. 29(3):517–530.CrossrefGoogle Scholar
  • Hastie T, Tibshirani R, Friedman J (2009) The Elements of Statistical Learning: Data Mining, Inference, and Prediction, vol. 2 (Springer, New York).CrossrefGoogle Scholar
  • Henz M (2001) Scheduling a major college basketball conference-revisited. Oper. Res. 49(1):163–168.LinkGoogle Scholar
  • Huang GB, Zhu QY, Siew CK (2006) Extreme learning machine: Theory and applications. Neurocomputing 70(1–3):489–501.CrossrefGoogle Scholar
  • Jaggi M (2013) Revisiting Frank–Wolfe: Projection-free sparse convex optimization. Dasgupta S, McAllester D, eds. Proc. 30th Internat. Conf. Machine Learn., vol. 28 (PMLR, New York), 427–435.Google Scholar
  • Jiaqi Xu J, Fader PS, Veeraraghavan S (2019) Designing and evaluating dynamic pricing policies for Major League Baseball tickets. Manufacturing Service Oper. Management 21(1):121–138.LinkGoogle Scholar
  • Johnstone DJ, Jose VRR, Winkler RL (2011) Tailored scoring rules for probabilities. Decision Anal. 8(4):256–268.LinkGoogle Scholar
  • Kendall MG (1938) A new measure of rank correlation. Biometrika 30(1/2):81–93.CrossrefGoogle Scholar
  • Kvam P, Sokol JS (2006) A logistic regression/Markov chain model for NCAA basketball. Naval Res. Logist. 53(8):788–803.CrossrefGoogle Scholar
  • Magel R, Melnykov Y (2014) Examining influential factors and predicting outcomes in European soccer games. Internat. J. Sports Sci. 4(3):91–96.Google Scholar
  • Martin T, Hofman JM, Sharma A, Anderson A, Watts DJ (2016) Exploring limits to prediction in complex social systems. Bourdeau J, Hendler J, Nkambou R, eds. Proc. 25th Internat. Conf. World Wide Web (International World Wide Web Conferences Steering Committee, Republic and Canton of Geneva), 683–694.Google Scholar
  • Miljković D, Gajić L, Kovačević A, Konjović Z (2010) The use of data mining for basketball matches outcomes prediction. IEEE 8th Internat. Sympos. Intelligent Systems Informatics (IEEE, Piscataway, NJ), 309–312.Google Scholar
  • Mišić VV, Perakis G (2020) Data analytics in operations management: A review. Manufacturing Service Oper. Management 22(1):158–169.LinkGoogle Scholar
  • Motegi S, Masuda N (2012) A network-based dynamical ranking system for competitive sports. Sci. Rep. 2(1):904.CrossrefGoogle Scholar
  • NBA (2020a) NBA articles. Retrieved May 31, https://www.nba.com/news/coronavirus-pandemic-causes-nba-suspend-season.Google Scholar
  • NBA (2020b) NBA statistics homepage. Retrieved May 31, https://www.nba.com/stats.Google Scholar
  • NBA.com (2023) NBA play-in tournament. Retrieved December 21, https://www.nba.com/news/nba-play-in-tournament.Google Scholar
  • NBAstuffer (2023) Strength of schedule (SoS). Retrieved October 1, https://www.nbastuffer.com/analytics101/strength-of-schedule-sos/.Google Scholar
  • Nemhauser GL, Trick MA (1998) Scheduling a major college basketball conference. Oper. Res. 46(1):1–8.LinkGoogle Scholar
  • Niculescu-Mizil A, Caruana R (2005) Predicting good probabilities with supervised learning. Proc. 22nd Internat. Conf. Machine Learn. (Association for Computing Machinery, New York), 625–632.Google Scholar
  • Pedregosa F, Varoquaux G, Gramfort A, Michel V, Thirion B, Grisel O, Blondel M, et al. (2011) Scikit-learn: Machine learning in Python. J. Machine Learn. Res. 12(85):2825–2830.Google Scholar
  • Platt J (1999) Probabilistic outputs for support vector machines and comparisons to regularized likelihood methods. Adv. Large Margin Classifiers 10(3):61–74.Google Scholar
  • Prasetio D, Harlili D (2016) Predicting football match results with logistic regression. 2016 Internat. Conf. Adv. Informatics Concepts Theory Appl. (ICAICTA) (IEEE, Piscataway, NJ), 1–5.Google Scholar
  • Rasmussen RV, Trick MA (2008) Round robin scheduling—A survey. Eur. J. Oper. Res. 188(3):617–636.CrossrefGoogle Scholar
  • Sagi O, Rokach L (2018) Ensemble learning: A survey. WIREs Data Mining Knowledge Discovery 8(4):e1249.CrossrefGoogle Scholar
  • Shen Y (2005) Loss Functions for Binary Classification and Class Probability Estimation (University of Pennsylvania, Philadelphia).Google Scholar
  • Spearman C (1904) The proof and measurement of association between two things. Amer. J. Psych. 15(1):72–101.CrossrefGoogle Scholar
  • Sziklai BR, Biró P, Csató L (2022) The efficacy of tournament designs. Comput. Oper. Res. 144(1):105821.CrossrefGoogle Scholar
  • Van Eetvelde H, Hvattum LM, Ley C (2023) The probabilistic final standing calculator: A fair stochastic tool to handle abruptly stopped football seasons. AStA Adv. Statist. Anal. 107(1):251–269.CrossrefGoogle Scholar
  • Van Haaren J, Davis J (2015) Predicting the final league tables of domestic football leagues. Kay A, Owen A, Halkon B, King M, eds. Proc. 5th Internat. Conf. Math. Sport (Loughborough University, UK), 202–207.Google Scholar
  • Weiss HJ (1986) The bias of schedules and playoff systems in professional sports. Management Sci. 32(6):696–713.LinkGoogle Scholar
  • Westphal S (2014) Scheduling the German basketball league. Interfaces 44(5):498–508.LinkGoogle Scholar
  • Yannakakis M (1985) On a class of totally unimodular matrices. Math. Oper. Res. 10(2):280–304.LinkGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree