A simple method for measuring power, force, velocity properties, and mechanical effectiveness in sprint running.

P Samozino, G Rabita, S Dorel, J Slawinski, N Peyrot, E Saez de Villarreal, J-B Morin

June 2016 Scand J Med Sci Sports

Synopsis of Social media discussions

The discussions mostly support the practicality and relevance of the article, with examples such as mentions of load-velocity profiling, Pmax values, and personal application data, highlighting the perceived importance of these techniques. The tone varies from technical enthusiasm to casual curiosity, reflecting both interest and recognition of the method’s potential influence in sprint training.

A
Agreement
 Moderate agreement

Most discussions acknowledge the effectiveness and practicality of the proposed measurement method, with some emphasizing its usefulness in real-world training and performance analysis.

I
Interest
 High level of interest

Posts show high interest, with users exploring specific details like load-velocity profiling and Pmax values, and referencing additional resources for deeper understanding.

E
Engagement
 Moderate level of engagement

Posts demonstrate moderate engagement, with individuals reflecting on applications, sharing personal data, and discussing implications, although some are more casual or brief.

I
Impact
 Moderate level of impact

There is a recognition that this method could significantly improve sprint analysis and training, although some remain cautious about its limitations or novelty.

Social Mentions

YouTube

2 Videos

Facebook

2 Posts

Twitter

16 Posts

Metrics

Video Views

197,810

Total Likes

4,034

Extended Reach

275,018

Social Features

20

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Effective Technique for Measuring Sprint Power and Mechanics

Effective Technique for Measuring Sprint Power and Mechanics

A simple, field-based method using an inverse dynamic approach estimates force and power-velocity relationships during sprinting, relying only on anthropometric and spatiotemporal data. The method shows high accuracy and reliability for assessing sprint mechanics.

The Sprint Project

January 19, 2022

175,181 views

Effective Force and Power Assessment in Sprint Biomechanics

Effective Force and Power Assessment in Sprint Biomechanics

This video discusses a simple, reliable field-based method for measuring force, power, and velocity in sprinting. It highlights the use of an inverse dynamic approach leveraging anthropometric and spatiotemporal data for practical performance analysis.

Stuart McErlain-Naylor

June 12, 2020

22,629 views

  • とよずみわたる【パーソナルトレーナー、S&Cコーチ】
    @bbody_bee (Twitter)

    RT @taku0726_tr: 現場で使える力・速度・パワーの測定方法
    view full post

    February 27, 2022

    5

  • Haruto Arai
    @HarutoAra1 (Twitter)

    RT @taku0726_tr: 現場で使える力・速度・パワーの測定方法
    view full post

    February 26, 2022

    5

  • Coach Saki「アスリートに最高の準備を提供する人」
    @coach_saki (Twitter)

    RT @taku0726_tr: 現場で使える力・速度・パワーの測定方法
    view full post

    February 26, 2022

    5

  • 西岡卓哉 Takuya Nishioka
    @taku0726_tr (Twitter)

    現場で使える力・速度・パワーの測定方法
    view full post

    February 26, 2022

    65

    5

  • Louis Cunningham
    @LPCunningham_ (Twitter)

    RT @SportsmithHQ: 7) After the load-velocity profiling we will have our Pmax value which will occur at 50% V0 decrement. Some great papers…
    view full post

    November 23, 2021

    1

  • Sportsmith
    @SportsmithHQ (Twitter)

    7) After the load-velocity profiling we will have our Pmax value which will occur at 50% V0 decrement. Some great papers to look into for more details on sprint profiling: https://t.co/TMxz8Yk7Oe https://t.co/LtdRdjsi5K https://t.co/hwVoEsOpqH https://t.co/OV1NGfXVgq
    view full post

    November 23, 2021

    2

    1

  • F. Dave McInerney
    @fdave2 (Twitter)

    RT @CoachNiklos: Playing around with some previous data from @RileyLees and his NFL pro day training and created pre/post FVP profile Pret…
    view full post

    September 22, 2021

    3

  • Riley Lees
    @RileyLees (Twitter)

    RT @CoachNiklos: Playing around with some previous data from @RileyLees and his NFL pro day training and created pre/post FVP profile Pret…
    view full post

    September 21, 2021

    3

  • Mike Niklos
    @CoachNiklos (Twitter)

    Playing around with some previous data from @RileyLees and his NFL pro day training and created pre/post FVP profile Pretty cool to see the difference between the two & the impact his training had with these curves Resources: https://t.co/fh1aJP6yCg https://t.co/qdQ8ziDrz1 https://t.co/Am93M5eru8
    view full post

    September 21, 2021

    5

    3

  • Pascal EDOUARD
    @PascalEdouard42 (Twitter)

    @sprinterzycom @BaptCorcelle @lahti_johan @jb_morin @R_Nagahara @PierreSamozino For clear and detailed information please read: https://t.co/EYKYrJxbuA https://t.co/7oeYBk3YYj https://t.co/WfzErKyiiI https://t.co/mbSMNqVORM
    view full post

    August 10, 2021

    5

  • TAKE
    @shortsoul6 (Twitter)

    RT @taku0726_tr: スプリントの力ー速度プロファイル(例:30m走→スマホのカメラで撮影して5mごとのタイムを算出)を行えば、超高価な床反力計の上で走らなくても、地面反力の傾きを数値化して、走りの加速効率を簡単かつ正確に評価できる。 これ本当凄い。 https…
    view full post

    July 22, 2021

    3

  • 永田 将行
    @gorigoriPT (Twitter)

    RT @taku0726_tr: スプリントの力ー速度プロファイル(例:30m走→スマホのカメラで撮影して5mごとのタイムを算出)を行えば、超高価な床反力計の上で走らなくても、地面反力の傾きを数値化して、走りの加速効率を簡単かつ正確に評価できる。 これ本当凄い。 https…
    view full post

    July 22, 2021

    3

  • kazuki ando 安藤 和生
    @kazukianrakudo (Twitter)

    RT @taku0726_tr: スプリントの力ー速度プロファイル(例:30m走→スマホのカメラで撮影して5mごとのタイムを算出)を行えば、超高価な床反力計の上で走らなくても、地面反力の傾きを数値化して、走りの加速効率を簡単かつ正確に評価できる。 これ本当凄い。 https…
    view full post

    July 22, 2021

    3

  • 西岡卓哉 Takuya Nishioka
    @taku0726_tr (Twitter)

    スプリントの力ー速度プロファイル(例:30m走→スマホのカメラで撮影して5mごとのタイムを算出)を行えば、超高価な床反力計の上で走らなくても、地面反力の傾きを数値化して、走りの加速効率を簡単かつ正確に評価できる。 これ本当凄い。 https://t.co/GnJswtp7nU https://t.co/x55QdIodXm
    view full post

    July 21, 2021

    63

    3

  • Hal Toulon
    @HAL_Toulon (Twitter)

    [LAMHESS] [hal-01389134] A simple method for measuring power, force, velocity properties, and mechanical effectiveness in sprint running https://t.co/q8GSCWShKR
    view full post

    November 19, 2019

  • Hal Toulon
    @HAL_Toulon (Twitter)

    [LAMHESS] [hal-01389134] A simple method for measuring power, force, velocity properties, and mechanical effectiveness in sprint running https://t.co/S3LDGQtYdx
    view full post

    February 12, 2019

Abstract Synopsis

  • The study developed a simple, field-based method using an inverse dynamic approach to estimate force and power-velocity relationships during sprinting, relying only on anthropometric and spatiotemporal data.
  • Validation against force plate measurements showed that the method has high accuracy and reliability, with low bias and narrow limits of agreement for key variables like force, velocity, and power output.
  • The results suggest that this practical, easy-to-use method can effectively assess sprinting mechanics and force application in real-world settings, making it useful for training and performance analysis.]