A Model to Simulate the Interference Effects of Acute Aerobic Exercise on Rate of Force Development in Weightlifters
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Abstract
Compelling data supports the concept that concurrent strength and aerobic training can interfere with adaptations to strength training related to speed, power, and rate of force development (RFD). Studies on this topic have primarily utilized non-athlete participants, with data subsequently extrapolated to athlete populations. Since there may be hesitancy to have athletes involved in research on the interference effects of aerobic exercise on strength specific adaptations, we built a model to simulate these effects and develop an equation to predict interference. The hypothesis tested in this project was that aerobic exercise is the main driver of interference on weightlifting-associated RFD, and that this interference can be modeled to generate an equation to predict changes in RFD. Python software was used to generate the model, perform the simulation and optimize variables that contribute to the interference effect. A nonlinear exponential interference model was created that simulates the changes in RFD from a force-time curve in response to acute aerobic exercise lasting from 2-minutes to 60-minutes in duration. RFD sensitivity to aerobic exercise was modeled such that values were reduced by approximately 70% after aerobic exercise less than 10 minutes, with further reduction to 80% with durations greater than 10-minutes. The prediction equation can be used by strength coaches to predict the interference of acute aerobic exercise on RFD and subsequently allow the coach to make informed decisions on training program design if there is a need to include aerobic exercise in a strength and/or power-based periodized plan.
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- last seen: 2026-05-20T01:45:00.602351+00:00