LegMaker Military performance lab
Rehabwheel Tactical Performance Lab
(Investigational Device | Soldier Kinetics)
Functional Limitation Notice: This system (Inclusive of all Hardware, AI Software, and Mobile Interfaces) is NOT FDA REGISTERED and is classified as an Investigational Device per 21 CFR Part 812. Use is strictly restricted to Biomechanical Research, Combat Readiness Validation, and Non-Medical Performance Optimization under the direct supervision of qualified military personnel. Data generated is informational only and does not constitute medical advice, diagnosis, or a definitive "Return to Duty" clearance.
Technical Summary
Mobile Command: Package includes an iPhone 15 for real-time field data visualization.
AI Access: Includes a 6-month institutional license for the proprietary tactical-optimized AI engine.
Autonomous Power: Features an 8-hour high-capacity rechargeable battery, specifically engineered for autonomous operation in austere environments and high-G combat scenarios.
Tactical Performance Indicators (The Top 10)
Primary Data Vectors
Vertical Launch Torque (Nm):
What it tracks: The maximum rotational force generated during the explosive "loading" phase of a dynamic vertical movement (e.g., bounding over obstacles or rapid stand-to-fire).
Why it matters: Quantifies a soldier’s explosive power. Critical for breaching, vehicle egress, and dominating elevated positions.
Eccentric Landing Buffer (ELB):
What it tracks: The unique ability of the kinetic chain (ankles, knees, hips) to absorb and dissipate force upon high-velocity impact.
Why it matters: This is the patellar tendon and meniscus shield. It detects if a warfighter is landing “heavy” or compensating due to pain—the leading predictor of chronic joint degradation under load.
Bilateral Load Symmetry (%):
What it tracks: A real-time, high-precision comparison of power distribution between the left and right legs during dynamic movement or tactical repositioning.
Why it matters: Elite standards require <8% variance. Asymmetry signals compensatory injury risk in patrol, ruck marches, or CQB.
Neural Recruitment Latency (ms):
What it tracks: The exact micro-second time delay between the AI stimulation command and the initial muscle contraction.
Why it matters: Identifies “Invisible CNS Burnout.” Slow signals mean delayed protective reflexes—high risk for ACL/MCL failure under combat stress.
Performance-Optimization Metrics
Breaching Kinetic Chain Efficiency:
What it tracks: The seamless transfer of energy from the ground, through the legs, into weapon handling and explosive entry.
Why it matters: Ensures operators are not over-relying on upper body, preserving endurance in prolonged engagements.
First-Step Explosiveness (RFD):
What it tracks: The specific Rate of Force Development during multi-planar tactical drives and rushes.
Why it matters: Determines ability to close distance on targets or evade threats in milliseconds.
Lateral Perimeter Stability:
What it tracks: Shear force and joint stability in the knee and ankle during rapid lateral maneuvers, room clearing, or defensive positioning.
Why it matters: Essential for maintaining footing under fire and preventing ankle/knee collapse in uneven terrain.
High-Intensity "Contact" Conditioning:
What it tracks: Mechanical work performed during high-contact drills, room clearing, and casualty drags versus physiological load.
Why it matters: Differentiates general fitness from combat-specific conditioning. Identifies operators redlining before failure.
Load-Management AI Forecast:
What it tracks: Micro-deviations in movement mechanics and landing buffer (ELB) over extended sessions.
Why it matters: The AI predicts strain or breakdown before it occurs, allowing commanders to rotate personnel at the optimal moment.
The "Elite" Readiness Grade (1-100):
What it tracks: A proprietary aggregate score of all 50+ Lab data points into a single actionable number.
Why it matters: The final metric for command: “Is this operator mission-ready?”