Squat assessments are important for evaluating lower-limb strength, mobility, and movement control.

This module delivers an automated analysis of squat mechanics, making it ideal for rehabilitation, strength training, and movement screening.

Typical applications

• ✅ Identify compensatory strategies or mobility restrictions affecting squat performance
• ✅ Identifies asymmetries and compensations through frontal plane lean and pelvis translations
• ✅ Highlights postural control and force transfer efficiency to guide strength and rehab plan

Treadmill running assessment is a powerful tool for understanding running efficiency and biomechanical contributors to injury.

This module provides an automated analysis of treadmill running mechanics and quantifies spatiotemporal parameters and other metrics that may correlate with running efficiency, impact, and injury risk.

Typical applications

• ✅ Pinpoint biomechanical contributors to running injury
• ✅ Identify inefficient or injury-prone running mechanics
• ✅ Track adaptations over time and support return-to-run decisions after injury
• ✅ Test the effect of different footwear on running mechanics

Walking (gait) assessment is a core component of evaluating mobility, balance, and neuromuscular coordination.

This module offers an automated analysis of treadmill walking mechanics. It captures both spatiotemporal and kinematic parameters, helping clinicians detect subtle abnormalities and monitor changes over time.

Typical applications

• ✅ Identify gait deviations (e.g., Trendelenburg gait, foot drop gait) linked to neurological, orthopedic, or age-related conditions
• ✅ Support a fall risk and independence assessment of a patient
• ✅ Track rehabilitation progress of patients (e.g., post stroke)

Sit-to-stand is a fundamental functional task that reflects lower limb capacity, balance, and mobility.

This module provides an automated biomechanical analysis of sit-to-stand performance, whether as a single repetition or during repeated transitions (e.g., Five-Time Sit-to-Stand Test [5xSTS]). The module also highlights if the patient follows a knee versus hip-trunk rising strategy.

The module has its main application in older populations and patients that are rehabilitating from serious (neural) debilitating injury.

Typical applications

• ✅ Assess gross motor function in older adults and/or impaired populations
• ✅ Track rehabilitation progress of patients (e.g., post stroke)

Drop Vertical Jump (DVJ) assessment is widely used to evaluate landing mechanics, dynamic stability, and lower-limb alignment under load.

This module provides an automated biomechanical analysis of sit-to-stand performance, whether as a single repetition or during repeated transitions (e.g., Five-Time Sit-to-Stand Test [5xSTS]). The module has its main application in older populations and patients that are rehabilitating from serious (neural) debilitating injury.

Typical applications

• ✅ Monitor landing control and alignment during return-to-sport progressions
• ✅ Identify athletes at risk of injury
• ✅ Compare neuromuscular control side-to-side or across time to track rehab or training progress

Countermovement jump (CMJ) assessment is a gold-standard test for evaluating explosive lower-limb power, neuromuscular performance, and fatigue.

This module provides an automated analysis of jump mechanics, ideal for both performance and rehabilitation settings.

Typical applications

• ✅ Support return to sport decisions by identifying asymmetries and misalignments
• ✅ Track athlete strength and explosiveness progression
• ✅ Detect neuromuscular fatigue by comparing current performance to baseline

Range-of-motion (ROM) assessment is a cornerstone in evaluating joint mobility, flexibility, and musculoskeletal health.

This module delivers an automated, repeatable analysis of ROM across joints during any movement.

Typical applications

• ✅ Track a patient joint mobility post-surgery in consecutive sessions
• ✅ Identify movement restrictions or joint stiffness that may hamper other functional movements and explain compensations

Running assessment is a powerful tool for understanding running efficiency and biomechanical contributors to injury.

This module provides an automated analysis of overground running mechanics and quantifies spatiotemporal parameters and other metrics that may correlate with running efficiency, impact, and injury risk.

Typical applications

• ✅ Pinpoint biomechanical contributors to running injury
• ✅ Identify inefficient or injury-prone running mechanics
• ✅ Track adaptations over time and support return-to-run decisions after injury
• ✅ Test the effect of different footwear on running mechanics

Walking (gait) assessment is a core component of evaluating mobility, balance, and neuromuscular coordination.

This module offers an automated analysis of overground walking mechanics. It captures both spatiotemporal and kinematic parameters, helping clinicians detect subtle abnormalities and monitor changes over time.

Typical applications

• ✅ Identify gait deviations (e.g., Trendelenburg gait, foot drop gait) linked to neurological, orthopedic, or age-related conditions
• ✅ Support a fall risk and independence assessment of a patient
• ✅ Track rehabilitation progress of patients (e.g., post stroke)

Hops are a staple functional test to assess explosiveness and readiness to return to sport.

This module provides an objective biomechanical assessment of various single leg hop types (e.g., single hop, double hop, triple hop, crossover).

Typical applications

• ✅ Support return to sport decisions by identifying asymmetries and misalignments
• ✅ Track athlete strength and explosiveness progression reliably
• ✅ Give patients/athletes feedback and have them execute hop exercises with optimal form