Keyphrases
Ankle Injuries
100%
Smart User
100%
Effective Data
100%
Shoes
100%
Injury Prevention
100%
Ankle Brace
68%
Ankle
62%
Human-in-the-loop
50%
Ankle Taping
37%
Control Algorithm
37%
Physical Activity
31%
Ankle Sprain
31%
Injury Prediction
31%
Ankle Support
25%
Ankle Motion
25%
Ankle Mechanics
25%
Injury Risk
25%
Ankle-foot
25%
Muscle Tissue
18%
Clinical Integration
18%
Intuitive User Interface
18%
Health Care Costs
18%
Smart Shoes
18%
Passive Support
18%
Giving Feedback
18%
Machine Learning Algorithms
18%
Biomechanical Data
18%
Soft Tissue
18%
Risk Metrics
18%
Assistive Control
18%
Inertial Measurement Unit Sensors
12%
Sagittal Plane
12%
Behavioral Compliance
12%
Financial Burden
12%
Ankle Sprain Prevention
12%
Prevention Strategies
12%
Intervention Project
12%
Accurate Modeling
12%
Mobile Interfaces
12%
User Compliance
12%
Nonlinear Dynamics
12%
Wireless Insole
12%
Tissue Degeneration
12%
Mobile Application
12%
Risk-neutral
12%
Topological Learning
12%
Chronic Ankle Instability
12%
Frontal Plane
12%
Wireless Sensor
12%
Data Recognition
12%
Time Estimation
12%
Activity Recognition
12%
Algorithm Dynamics
12%
In Situ
12%
Prediction Algorithms
12%
Assist-as-needed
6%
Risk Prediction Algorithm
6%
Project Vision
6%
Women in Engineering
6%
Recurrent Ankle Sprain
6%
Research Laboratories
6%
Closed-loop
6%
Ankle Stiffness
6%
Care Integration
6%
Sports Activity
6%
Active Support
6%
Soft Actuator Design
6%
Gait
6%
Engineering Science
6%
Engineering Computation
6%
Joint Support
6%
Walking Gait
6%
Innovative Approach
6%
Active Joint
6%
External Perturbation
6%
Validation Phase
6%
Knee
6%
Ankle muscles
6%
Free-living Conditions
6%
Joint Stability
6%
Gait Motion
6%
Health Outcomes
6%
Injury Control
6%
Health Anxiety
6%
Quality of Life
6%
Day Activities
6%
Dorsiflexion
6%
Edge Data
6%
Active Stiffness
6%
Clinical Recommendations
6%
Plantar Flexion
6%
Information Processing Technology
6%
Elderly Patients
6%
Integration Study
6%
Wireless Wearable Device
6%
Biomechanical Model
6%
Clinical Lab
6%
Stiffness Adjustment
6%
Biomechanical Modeling
6%
Active Ankle
6%
Motion Data
6%
Iterative Design
6%
Wearable Data
6%
Efficacy Testing
6%
Minorities in Engineering
6%
Risk Prediction
6%
Machine Learning Prediction
6%
Clinical Providers
6%
Design Integration
6%
In Situ Data
6%
Human Users
6%
Design Validation
6%
Wearable Sensors
6%
Evaluation Phase
6%
Joint Injury
6%
Clinical Efficacy
6%
Behavioral Sciences
6%
Machine Learning Control
6%
Sensor Data Processing
6%
Sensor Feedback
6%
Daily Activities
6%
Smart Health
6%
Sensor Data
6%
Risk Control
6%
Support Mechanisms
6%
Normal Walking
6%
Actuator
6%
Estimation Algorithms
6%
Intervention Effectiveness
6%
Continuous Assessment
6%
Behavioural Needs
6%
Motor Impairment
6%
User Needs
6%
Patient Care
6%
Fabric Type
6%
Educational Impact
6%
Evaluation Plan
6%
Course Offering
6%
Risk Measures
6%
Running Gait
6%
Musculoskeletal Injury
6%
Time-varying Data
6%
Behavioral Studies
6%
Individuals at Risk
6%
Clinical Prescription
6%
K-12 Students
6%
Rigorous Evaluation
6%
Data Risk
6%
Societal Level
6%
Actuation Technology
6%
Data Science
6%
Eversion
6%
College Level
6%
Lower Extremity
6%
Elderly People
6%
Computing Science
6%
Public Health Burden
6%
Arizona State University
6%
Engineering
Control Algorithm
100%
Smart Users
100%
Risk Prediction
66%
User Interface
66%
Limitations
50%
Machine Learning Algorithm
50%
Metrics
50%
Joints (Structural Components)
50%
Wearable Sensor
50%
Sensor Data
50%
Engineering
33%
Inertial Measurement
33%
Non-Linear Dynamic
33%
Wireless Sensor
33%
Collected Data
33%
Units of Measurement
33%
Sagittal Plane
33%
Estimation Time
33%
Mobile User
16%
Recurrent
16%
Actuation
16%
Term Goal
16%
Closed Loop
16%
Motion Data
16%
Application Interface
16%
Dorsiflexion
16%
Plantarflexion
16%
Biomechanical Model
16%
Scientific Solution
16%
Elderly Person
16%
Biomechanics
16%
Cutting Edge
16%