Power profiling and the power-duration relationship in cycling: a narrative review

Peter Leo*, James Spragg, Tim Podlogar, Justin S. Lawley, Iñigo Mujika

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Emerging trends in technological innovations, data analysis and practical applications have facilitated the measurement of cycling power output in the field, leading to improvements in training prescription, performance testing and race analysis. This review aimed to critically reflect on power profiling strategies in association with the power-duration relationship in cycling, to provide an updated view for applied researchers and practitioners. The authors elaborate on measuring power output followed by an outline of the methodological approaches to power profiling. Moreover, the deriving a power-duration relationship section presents existing concepts of power-duration models alongside exercise intensity domains. Combining laboratory and field testing discusses how traditional laboratory and field testing can be combined to inform and individualize the power profiling approach. Deriving the parameters of power-duration modelling suggests how these measures can be obtained from laboratory and field testing, including criteria for ensuring a high ecological validity (e.g. rider specialization, race demands). It is recommended that field testing should always be conducted in accordance with pre-established guidelines from the existing literature (e.g. set number of prediction trials, inter-trial recovery, road gradient and data analysis). It is also recommended to avoid single effort prediction trials, such as functional threshold power. Power-duration parameter estimates can be derived from the 2 parameter linear or non-linear critical power model: P(t) = W′/t + CP (W′—work capacity above CP; t—time). Structured field testing should be included to obtain an accurate fingerprint of a cyclist’s power profile.
Original languageEnglish
Pages (from-to)301-316
Number of pages15
JournalEuropean Journal of Applied Physiology
Volume122
Issue number2
Early online date27 Oct 2021
DOIs
Publication statusPublished - Feb 2022

Keywords

  • Analysis
  • Performance
  • Power output
  • Prediction
  • Racing
  • Training

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