How to Design Agility Drills: 5 Evidence-Based Tips

Tired of searching the internet for random agility drills? You're in the right place.

Instead of another generic list of "top agility drills for [insert sport]," this guide gives you 5 research-backed principles to help you design effective, sport-specific agility training that transfer to game performance.

1) Keep Movement Distances Short: 2–10 Meters

This mirrors the majority of agility actions in sports — quick bursts of movement with rapid changes in direction. Sheppard & Young (2006) found that most agility efforts in team sports occur within 5–10m. That said, it’s essential to tailor distances based on the demands of your sport.

Sport-specific guidelines*

  • ⚽️Soccer - 5-10 meters (Di Mascio & Bradley, 2013)

  • 🏀Basketball - 2-5 meters (Bishop et al., 2006)

  • 🎾Tennis - 2-8 meters (Fernandez et al., 2006)

  • 🏒Hockey - 5-13 meters (Jackson et al., 2016) 

*These vary based on many factors like position, gender, level (e.g., youth vs. elite), etc.

2) Use a 1:3 to 1:5 Work-to-Rest Ratio

Effective agility training demands maximum intensity and power output while maintaining quality technique, which requires proper recovery between reps. 

Seo et al. (2019) found that work-to-rest ratios between 1:3 and 1:5 improve agility, anaerobic power, and movement quality across various sports. Shorter rest times, like 1:2 or 1:1, may benefit endurance—but are less effective for agility development (Purnawan et al., 2022). But once again, it's important to consider your sport's demands.

General guidelines:

  • 8s work → 24–40s rest

  • 12s work → 36–60s rest

  • 20s work → 60–100s rest

Sport-specific guidelines*

  • ⚽️Soccer - 1:3 to 1:5 (10-20s work → 30-100s rest)

  • 🏀Basketball - 1:3 to 1:5 (10-20s work → 30-100s rest)

  • 🎾Tennis - 1:2 to 1:4 (10-20s work → 20-80s rest)

  • 🏒Hockey - 1:3 to 1:5 (10-20s work → 30-100s rest)

*These vary based on many factors like position, gender, level (e.g., youth vs. elite), etc.

3) Add a Reactive Stimulus

To mimic real-game demands, you need unpredictability and decision-making. This is why agility was redefined as “a rapid whole-body movement with change of velocity or direction in response to a stimulus’’ (Sheppard, 2005).

Research has found that adding a reactive stimulus (e.g., randomized visual or audio cues) can help:

  • Increase transfer to sports performance (Young & Farrow, 2013)

  • Improve reaction time & decision-making (Lucia et al., 2021)

  • Reduce injuries (e.g., ACL risk reduction — Pratt et al., 2024)

  • Elevate enjoyment and effort (Friebe et al., 2024)

You can do this with a partner, or if you are training alone, you can utilize tools like the SwitchedOn app, which allows you to customize randomized visual and audio stimuli (colors, numbers, arrows, moving balls, etc.).

 
 

4. Make It Competitive

Want to instantly boost intensity, focus, and effort? Add competition.

Whether it’s head-to-head races, 1v1 mirror drills, or timed challenges, competition introduces urgency and pressure that replicates game demands. It also makes training more fun and motivating—especially for youth and team settings.

Research supports that competition increases effort, engagement, and performance intensity (Lidor & Ziv, 2011).

 
 

5. Switch Up Your Drills

Repeating the same drill over and over creates robotic movement and unmotivated athletes. Switching up your drills helps keep athletes mentally engaged and develops adaptability, which is essential because athletes rarely face the exact same scenario twice.

Schöllhorn et al. (2009) found that varying drills enhances motor learning, adaptability, and performance transfer to competition.

Keep athletes sharp by regularly changing the constraints, including:

  • Drill structure

  • Cue types (visual, auditory, complexity, etc.)

  • Movement patterns

  • Game-like scenarios

The SwitchedOn app makes this easy with a customizable library of reactive agility drills (see examples below).

Tap the “TAP TO TRY” button below any drill while on your mobile device to go directly to the drill in the app.

Rapid Reactions

Box Agility (Audio Stimuli)

4 Cone Sprint/Backpedal

    • Bishop, Daniel & Wright, C.. (2006). A time-motion analysis of professional basketball to determine the relationship between three activity profiles: High, medium and low intensity and the length of the time spent on court. International Journal of Performance Analysis in Sport. 6. 130-139. 10.1080/24748668.2006.11868361. 

    • Di Mascio, M., & Bradley, P. S. (2013). Evaluation of the most intense high-intensity running period in English FA premier league soccer matches. Journal of strength and conditioning research, 27(4), 909–915. https://doi.org/10.1519/JSC.0b013e31825ff099

    • Fernandez, J., Mendez-Villanueva, A., & Pluim, B. M. (2006). Intensity of tennis match play. British journal of sports medicine, 40(5), 387–391. https://doi.org/10.1136/bjsm.2005.023168

    • Friebe, D., Banzer, W., Giesche, F., Haser, C., Hülsdünker, T., Pfab, F., Rußmann, F., Sieland, J., Spataro, F., & Vogt, L. (2024). Effects of 6-Week Motor-Cognitive Agility Training on Football Test Performance in Adult Amateur Players: A Three-Armed Randomized Controlled Trial. Journal of Sports Science & Medicine, 23(2), 276–288.https://www.jssm.org/researchjssm-23-276.xml.xml

    • Jackson, Joel & Snydmiller, Gary & Game, Alex & Gervais, Pierre & Bell, Gordon. (2016). Movement Characteristics and Heart Rate Profiles Displayed by Female University Ice Hockey Players. International Journal of Kinesiology and Sports Science. 4. 43-54. 10.7575/aiac.ijkss.v.4n.1p.43.

    • Lidor, R., & Ziv, G. (2011). Psychological Preparation in Competitive Sport. International Journal of Sports Science & Coaching, 6(3), 257–280.

    • Lucia, S., Bianco, V., Boccacci, L., & Di Russo, F. (2021). Effects of a Cognitive-Motor Training on Anticipatory Brain Functions and Sport Performance in Semi-Elite Basketball Players. Brain Sciences, 12(1), 68. https://doi.org/10.3390/brainsci12010068.

    • Pratt, K., Brown, P., Glassoff, M., Hofbauer, M., Kiltonic, K., Pearson, E., Rada, E., & Vigneault, J. (2024). A Pilot Study on Acute Reactive Agility Training and Its Influence on ACL Injury Risk Factors in Collegiate Athletes. ISBS Proceedings Archive, 42(1), Article 248.https://commons.nmu.edu/isbs/vol42/iss1/248/

    • Purnawan, A. C., Suharjana, Widiyanto, Yudhistira, D., Virama, L. O. A., & Naviri, S. (2022). The Effects of 1:1 Interval Ratio Training on Agility and Endurance of Young Football Players. Asian Exercise and Sport Science Journal, 7(1), 37–44. https://doi.org/10.30472/aesj.v7i1.352

    • Seo, M.-W., Lee, J.-M., Jung, H. C., Jung, S.-W., & Song, J. K. (2019). Effects of Various Work-to-Rest Ratios during High-Intensity Interval Training on Athletic Performance in Adolescents. International Journal of Sports Medicine, 40(8), 503–510.https://doi.org/10.1055/a-0927-6884

    • Sheppard, J. M., & Young, W. B. (2006). Agility literature review: classifications, training and testing. Journal of sports sciences, 24(9), 919–932. https://doi.org/10.1080/02640410500457109

    • Sheppard, J. M., Young, W. B., Doyle, T. L., Sheppard, T. A., & Newton, R. U. (2006). An evaluation of a new test of reactive agility and its relationship to sprint speed and change of direction speed. Journal of science and medicine in sport, 9(4), 342–349. https://doi.org/10.1016/j.jsams.2006.05.019

    • Schöllhorn, W. I., Mayer-Kress, G., Newell, K. M., & Michelbrink, M. (2009). Time scales of adaptive behavior and motor learning in the presence of stochastic perturbations. Human Movement Science, 28(3), 319–333. https://doi.org/10.1016/j.humov.2008.10.005

    • Young, W., & Farrow, D. (2013). The Importance of a Sport-Specific Stimulus for Training Agility. Strength and Conditioning Journal, 35(2), 39–43.

MORE INFO AND RESOURCES

  • Free scientific whitepaper on “The Neuroscience of Athletic Performance and the Incorporation of Cognitive Demands into Agility” (learn more).

  • Online educational course (learn more)

  • More agility drills and full training programs are available on the SwitchedOn app (download for free using the buttons below).

Brett JohnsonComment