Closed beta opening summer 2026

Lab-grade sprint analysis. No lab required.

Sprintalyze turns a smartphone video into a full biomechanical report in minutes. Ground contact times, joint angles, stride parameters, left–right asymmetry, and plain-language coaching insights. No markers, no hardware, no hours of post-processing.

  • Body + feet at sub-pixel precision
  • Minutes, not hours
  • No markers. No lab.
How it works

Three steps from sprint to insight.

No markers. No motion-capture suit. Just a smartphone and a tripod.

  1. 01

    Film

    Point a smartphone at the sprinter. Record a single run at 120 fps from a tripod. No markers, no suit, no lighting setup.

    120 FPS OR MORE · SIDE VIEW · 1 TAKE
  2. 02

    Analyze

    A two-stage pipeline locates the athlete, then localises a sprint-optimised skeleton (full body plus heel, big toe, and small toe on each foot) with temporal smoothing tuned for ground-contact timing.

    MULTI-STAGE AI · SUB-PIXEL FEET · SPRINT-TUNED
  3. 03

    Understand

    Get per-step metrics, whole-stride averages, left–right asymmetry flags, and automatic coaching cues written in plain training language.

    PER-STEP · ZONE-AVERAGED · INTERPRETED
What you get

Every number a sprint coach actually wants.

Not a wall of raw data. Structured metrics, per-step and per-zone, with the context needed to act on them.

  • 92 msavg GCT

    Ground contact & flight times

    Per step, accurate to the millisecond, with inner-contact zone averaging so you measure true top-speed, not the warm-up.

  • 165°peak knee drive

    Joint angles

    Hip, knee, and ankle across the full stride. Measured at the phases coaches actually care about: touchdown, mid-stance, toe-off.

  • 4.42 Hzstep freq

    Stride parameters

    Step length, step frequency, and duty factor per athlete, per session, per zone. Tracked over time on athlete-level dashboards.

  • 7.4 cmvertical osc.

    Center-of-mass trajectory

    Vertical oscillation, horizontal displacement, and leg-stiffness proxy — the signals that distinguish efficient top-speed mechanics.

  • ±3.1%L/R delta

    Left–right asymmetry

    Flag contact-time, step-length, and joint-angle imbalances across sides. Spot hidden risk before it becomes an injury.

  • AUTOcoaching cues

    Automatic interpretation

    Every metric gets a band, a plain-language interpretation, and where appropriate a short coaching cue. Never prescription, always insight.

See it in action

From a sprint video to a readable answer.

Two screens from the app: the full-detail Results view for when you want the raw data, and the Top Speed Feedback view for when you want a verdict.

12:21 Mi, 22. Apr
Both Video Skeleton
Frame 160 / 355 0.67 s
9.85 m/s AVG COM SPEED
2.03 s EST. 20M FLY TIME
  • STRIDE LEN2.13
  • STRIDE FREQ5.15
  • COM DIST1.08
  • GC TIME114
  • FLIGHT103
  • DUTY FACT0.524
Speed & stride length per step
12:24 Top Speed Feedback
5.8 / 10 Average
9.85 m/s AVG TOP SPEED
2.03 s EST. 20M FLY TIME

Focus Areas

Foot Strike Position 23.7 cm · Concerning

Severe overstriding. The foot is landing far ahead of the hip on every step.

Strike under the hip Don’t reach
Flight Time 103.1 ms · Average

Flight time is a bit outside the ideal window.

Fuller push off the ground
Why Sprintalyze

Measured where it matters. Beside the track.

The honest comparison. Lab systems are still the scientific gold standard; we aim to give you 90% of that depth at 0.1% of the cost and 10% of the friction.

Sprintalyze Lab systems Competitors Visual analysis
Cost Affordable subscription × €50k – €500k ~€250/yr + per-analysis Free
Time to result Minutes × Hours to days Long processing Immediate, subjective
Accuracy Multi-stage markerless AI Gold standard Single-stage · MediaPipe × Human eye
Usable at the track Yes, during the session × No Not practical Limited
Automatic interpretation Plain-language cues Raw data only Raw data only × None

Pricing figures for other tools reflect publicly available information at time of writing. We’ll keep this comparison current and publish validation data as studies complete.

Built on science

Peer-reviewed models. Practitioner-grade engineering.

The pose-estimation research under Sprintalyze will be published and open, rooted in academic gait research. We sit on top of it. Carefully.

  • Markerless pose pipeline

    A multi-stage markerless AI pipeline locates the athlete and extracts a sprint-tuned skeleton: body plus detailed foot landmarks. Optimised for the joints and contact points that actually drive sprint biomechanics.

  • Signal processing tuned for sprint

    Temporal filtering and outlier rejection tuned for sprint kinematics remove detection noise while preserving the high-frequency content that matters for ground-contact timing.

  • Privacy by design

    Videos are processed to extract the keypoint skeleton, then deleted. Only the extracted keypoints and the athlete metadata you create are stored. Infrastructure runs on EU servers. Delete any athlete, and all their data, in one tap.

  • Validation in progress

    We’re comparing Sprintalyze’s measurements against marker-based gold-standard systems in partnership with sports-science labs. Results will be published here as studies complete.

Who it’s for

Coaches and scientists who want measured answers.

If you’ve ever said “looked better today” and wished you had a number, you’re the person we built this for.

  • Sprint coach

    Track & field clubs, federation programs, collegiate teams.
    • Cut the “I think we looked smoother today” loop. Get measured step-by-step numbers you can track across months.
    • Top-speed mechanics, acceleration mechanics, asymmetry — in a format you can show the athlete on the spot.
  • S&C coach

    Football, rugby, NFL, field sports, combine prep.
    • Screen entire rosters at the start of pre-season without a timing system or a lab.
    • Identify players leaking energy at contact, and quantify the gap instead of calling it a “feel”.
  • Sports scientist

    Olympic training centers, university labs, performance diagnosticians.
    • Add a field-deployable markerless layer to your existing marker-based protocol.
    • Access the raw keypoint data on request. We’ll publish validation as studies complete.
FAQ

The questions coaches ask first.

Join the Beta

Early access. Priority seats.

We’re onboarding a small group of coaches through summer 2026. Priority goes to sprint and S&C coaches working with competitive athletes. Leave your details and we’ll be in touch before public launch.

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