From treadmill to outdoor overground walking: Enhancing ground contact timing detection for older adults using transfer learning
This study evaluates the effectiveness of transfer learning to adapt deep learning models trained on young adult treadmill data for accurate ground contact timing detection in older adults across diverse outdoor terrains.
Validity of a Wearable Digital Insole for Assessing Gait ON and OFF in Parkinson’s Disease
This study evaluates the concordance of the Moticon ReGo digital insole with the GAITRite system for measuring spatiotemporal gait parameters in Parkinson’s disease patients during ON and OFF medication states.
Sensor Insoles: A Review
This review evaluates the state of the art in sensor insole technology, highlighting the transition from stationary laboratory infrastructure to mobile, wearable systems for natural gait analysis.
Selection of insole pressure sensors for ground reaction force estimation through studying principal component analysis
The study aimed to identify the optimal number and location of pressure sensors in insoles, specifically Moticon and Fscan, for accurate estimation of Ground Reaction Force (GRF) components during walking, utilizing Principal Component Analysis (PCA) and Artificial Neural Networks (ANN).
Development and Validation of a Modular Sensor-Based System for Gait Analysis and Control in Lower-Limb Exoskeletons
This study introduces a modular sensor-based system to enhance biomechanical evaluation and control in lower-limb exoskeletons, utilizing advanced sensor technologies and fuzzy logic.
Concurrent validity of instrumented insoles measuring gait and balance metrics in Parkinson’s disease
The purpose of this study was to examine the concurrent validity of the sensor insole for measuring temporal and vertical force variables during sprinting.
Accuracy of the fully integrated Insole3’s estimates of spatiotemporal parameters during walking
This study investigated the accuracy of the Insole3 wireless shoe device in estimating several clinically useful spatiotemporal parameters (STPs).
A wearable real-time kinetic measurement sensor setup for human locomotion
This study established a fully wearable system, based on commercially available sensors (inertial measurement units + pressure insoles), that can measure both kinematic and kinetic motion data simultaneously and support wireless frame-by-frame streaming.
Three-Dimensional Lower-Limb Kinematics from Accelerometers and Gyroscopes with Simple and Minimal Functional Calibration Tasks: Validation on Asymptomatic Participants
This study aimed at evaluating the validity of a 7-IMUs system against the optoelectronic system.
Validity and Reliability of Body-Worn Biomechanical Sensor Platform for Gait Analysis
The paper hypothesized that muscle capacity utilization during level walking would be reduced, reflecting a reduced relative demand on quadriceps.
Evaluation of the Foot Center of Pressure Estimation from Pressure Insoles during Sidestep Cuts, Runs and Walks
The aim of this study was to estimate the CoP position from Moticon pressure insoles during sidestep cuts, runs and walks.
In-Shoe Training Professional: Sensors for the Objectification of Testing in Elite Sports
This paper introduces a mobile method using sensor insoles to conduct and evaluate biomechanical measurements within the context of sports motor function tests.
Validity and Reliability of the Insole3 Instrumented Shoe Insole for Ground Reaction Force Measurement during Walking and Running
This study evaluated whether the Insole3 is a valid and reliable alternative to force plates for measuring vGRF.
Validation of Plantar Pressure and Reaction Force Measured by Moticon Pressure Sensor Insoles on a Concept2Rowing Ergometer
The purpose of this study was to determine the reliability and validity of plantar pressure and reaction force measured using the Moticon and Pedar-x sensor insoles while rowing on a Concept2 ergometer.
Continuous Analysis of Running Mechanics by Means of an Integrated INS/GPS Device
This paper describes a single body-mounted sensor that integrates accelerometers, gyroscopes, compasses, barometers, a GPS receiver, and a methodology to process the data for biomechanical studies.
Validation of a wearable sensor insole device for analysis of postural control
The aim of the study is to determine the root cause of balance complications, a person may undergo clinician-supervised qualitative tests, which can be subjective in nature and may not detect small changes over time.
Concurrent validity and reliability of wireless instrumented insoles measuring postural balance and temporal gait parameters
The OpenGo system seems very promising to take gait analysis out of laboratory settings due to its capability of long-term measurements and mobility. The OpenGo’s concurrent validity and reliability are assessed.
Validation of Moticon’s OpenGo sensor insoles during gait, jumps, balance and cross-country skiing specific imitation movements
The purpose of this study was the experimental validation of the OpenGo sensor insole system compared to PedarX sensor insole and AMTI force-plate systems.
Biofeedback in Partial Weight Bearing: Validity of 3 Different Devices
Validity of 3 biofeedback devices (OpenGo science, SmartStep, and SensiStep) was assessed. Healthy participants were instructed to walk at a self-selected speed with crutches under 3 different weight-bearing conditions.
Validation and reliability testing of a new, fully integrated gait analysis insole
The goal of this study was to investigate the validity and reliability of this new insole system in a group of healthy individuals.
Validation and reliability testing of a new, fully integrated gait analysis insole
The goal of this study was to investigate the validity and reliability of this new insole system in a group of healthy individuals.
