Shoe size independent foot pressure analysis
Learn how the OpenGo system makes foot pressure distributions and related measures independent from the shoe size of different subjects.
Event Based Analysis of Motion Sequences
Learn how to easily extract the sensor raw data of motion sequences using event markers and Moticon’s OpenGo Python library.
Gait Analysis with 29 lines of Python code – programming with the OpenGo text export
Learn how 29 lines of Python code can analyze gait data from Moticon’s OpenGo Sensor Insoles. Plot per-step total force curves for different walking speeds programmatically.
Foot pressure related outcomes of the OpenGo gait report
Learn about the different foot pressure distributions computed by the OpenGo gait report, and how they are exported to spreadsheets.
Foot pressure analysis functions
Learn about easy-to-use tools for working with foot pressure and computing accumulated pressure distributions using the OpenGo analysis functions.
Foot pressure visualization widgets
Explore how the OpenGo software visualizes foot pressure distributions in real time, using various widgets for comprehensive motion analysis and plantar pressure mapping.
Realtime foot pressure mapping
OpenGo sensor insoles offer realtime foot pressure mapping during motion with powerful visualization widgets in the OpenGo software, useful for gait analysis, functional movement studies, and biofeedback.
Why maximum body mass for measurements isn’t just one number when talking pressure mapping systems
Discover the maximum body mass for Moticon sensor insoles based on shoe size. Get insights for accurate biomechanical measurements.
The 2 Minute Walk Test’s outcome parameters
The 2-Minute Walk Test is essential for assessing walking capacity and endurance, providing a quick snapshot of physical function in diverse populations.
The 15 Seconds Treadmill Run Test’s outcome parameters
ReGo’s 15 Seconds Treadmill Run Test provides detailed running analysis, highlighting key parameters like gait line and cadence to improve performance and reduce injury risk.
The 15 Seconds Treadmill Walk Test’s outcome parameters
Gait testing on a treadmill with ReGo provides valuable insights into human movement for medical, clinical, sports, and research applications. It analyzes gait lines, stride length, and foot angles to inform diagnosis, treatment, and performance optimization.
The Free Distance Walk and Return Test’s outcome parameters
Gait analyses are essential for diagnosing conditions, planning interventions, and tracking rehabilitation progress. ReGo offers unbiased measurements, including force, pressure, and spatio-temporal parameters, helping optimize patient outcomes. Learn more and request a detailed parameter list.
Foot Tapping’s outcome parameters
Discover the Foot Tapping test’s role in assessing lower limb neuromuscular function for athletic performance. Explore skip counts, skip frequency, plantar pressure distribution, and center of pressure outcomes.
The Single Leg Stance Test’s outcome parameters
ReGo enhances balance testing with quantitative assessments for athletes, elderly patients, and injury recovery. See how it improves decision-making for trainers and therapists.
The Balance Squat Test’s outcome parameters
The Balance Squat assesses dynamic balance, detects asymmetries, predicts injury risk, and supports RTS decisions after ACL injuries or reconstruction.
The 30 Seconds Side Hop’s outcome parameters
Discover how the 30 Seconds Side Hop test assesses ACL injury recovery. Evaluate hop performance, asymmetries, and pressure distribution in RTS testing.
The Balance Front Hop’s test outcomes
The Balance Front Hop assesses readiness for RTS post-injury, focusing on stability and asymmetries. Explore key outcome parameters for enhanced decision-making in sports rehabilitation.
The Balance Side Hop’s outcome parameters
Use Balance Side Hop to assess stability after ankle sprains or ACL injuries. Measure Sway Area & Balance Point to guide return-to-sports decisions. Access PDF for comprehensive details.
The Drop jump’s outcome parameters
Uncover athlete potential with Drop Jump insights. Explore reactive strength index, force-time curve, and more. Download parameter list for comprehensive analysis.
The Single Leg Jump Distance’s outcome parameters
The primary outcome parameter of the ReGo Single Leg Jump Distance is jump distance. ReGo offers a variety of additional quantitative and qualitative parameters to evaluate stability and symmetry.
The Counter Movement Jump’s outcome parameters
Primary outcome parameter in CMJ: jump height. ReGo system offers insights into force, timing, pressure, and load distribution pre-takeoff. Fill form for PDF with full parameter list and test details.
