Hyunglae Lee

Development of a Modular Actuator for Hip and Ankle Joint

Developing a modular actuator (device) for hip and ankle joints to control and assist in respective movements.

Program: MORE

Effects of Parkinson’s Disease and a Secondary Cognitive Task on Postural Sway and Reactive Balance

Studying the impact of external stress on the balance of Parkinson’s disease patients allows for better development of treatments.

Program: FURI

Patient-Adaptive Robotic Balance Training for Lower-Extremity Stroke Rehabilitation

Assessing the use of robotic balance training to improve post-stroke stability will verify its advantages as a rehabilitation method.

Program: FURI

Gait Entrainment Using a Soft Robot Hip Exoskeleton

Implementing a soft robot hip exoskeleton will help improve the existing rehabilitation processes for post-stroke patients with asymmetrical walking.

Program: MORE

Sex Differences in the Bilateral Frontal Plane Ankle Stiffness During Standing with Different Weight Bearings

Studying the sex difference in bilateral ankle stiffness can aid in targeted interventions and better medical devices for lower extremity disabilities.

Program: FURI

Bilateral Ankle Stiffness Characterization in Frontal Plane for Different Weight Loadings

The baseline bilateral ankle stiffness model will help with the clinical assessment and diagnosis of patients with chronic ankle instability.

Program: MORE

Quantification of Shoulder Joint Impedance Based on Various Arm Postures

Studying shoulder impedance allows for the development of control systems for assistive devices to enhance performance during human-robot interaction.

Program: MORE

Variable Stiffness as Control Scheme for Enhancing Active Ankle Foot Orthosis

Studying the effectiveness of various stiffness controller schemes will improve the performance of ankle orthosis devices.

Program: MORE

Characterizing Postural Stability During Smartphone Use on Dynamically Unstable Environments

Studying how standing balance is affected while doing common smartphone tasks on various ground surfaces will help find means for fall prevention.

Program: FURI

Effectiveness of Waist Vibrotactile Feedback for Improving Posture Balance

This study verifies the effectiveness of improving posture stability through vibrotactile biofeedback in ocean-like circumstances.

Program: MORE

Curved Implementation in a Variable Impedance Controller for a Robotic Ankle Joint

Expanding the applicability of an ankle robot controller onto curved paths will allow for improved lower-limb rehabilitation.

Program: FURI

Combined Effect of Variable Stiffness and Damping Controller to Correct and Augment Ankle Motion

Gait robots that introduce impedance (stiffness and damping) will help reduce muscle fatigue and correct gait deviation while walking.

Program: MORE

Towards the Development of a Longitudinal Rehabilitation Study for Postural Stability in Children with Cerebral Palsy

Studying how children with cerebral palsy balance under certain circulstances will inform future rehabilitation methods.

Program: GCSP research stipend

A Soft Robotic Hip Exosuit (SR-HExo) to Enable Entrainment during Human Locomotion

A wearable, soft robotic exosuit could provide rehabilitative assistance and benefit the 7 million Americans who live with disabilities from stroke.

Program: MORE

Factors that Influence Ankle Stiffness During the Stance Phase of Walking

Predicting the stiffness of the human ankle joint will add to the toolkit that clinicians use for assessing patients.

Program: MORE

Modulating Gait Symmetric Adaptation via Split-Belt Treadmill Distortion and Explicit Visual Feedback Distortion and Evaluating the Aftereffects of Adapted Step Length Symmetry

Researching the effects of gait modulation training will help develop more effective rehabilitation therapies for stroke patients.

Program: MORE

Development of a Wearable Hybrid-PassiveAnkle-Foot Orthosis for Rehabilitative and Assistive Applications

Developing an efficient ankle-foot orthosis will help the elderly and those with neuromuscular disorders to walk.

Program: FURI

The Use of a Virtual Cane for Improving Standing Postural Stability

Developing and verifying a new virtual cane assistive device will improve human standing balance in real-life challenging environments.

Program: MORE

Study Examining Human Postural Stability with Perturbations Applied Utilizing Dual-Axis Robotic Platform

Studying human stability under 2D perturbations will aid the development of assistive devices and rehabilitation methods to improve balance.

Program: FURI

Characterization and Modeling of Ankle Impedance During the Stance Phase of Walking

Understanding why ankle stiffness properties change the way they do will help aid in the creation of new medical assistive devices.

Program: MORE

Study on Human Postural Stability During Upright Standing Using Novel Two-Axis Robotic Platform

Studying human postural stability under unstable environments enables the development of therapeutic training and assistive devices.

Program: MORE

Replication of a Two-Axis Robotic Platform for Improved Ankle Characterization and Postural Stability Studies

Replicating a multi-axis robotic platform for medical applications will help study human ankle impedance and postural stability.

Program: FURI

Muscle Response During Multidirectional Interaction with a Variable Damping Controlled Ankle Robot

Studying user effort during interaction with a variable damping controlled robot will inform the development of more efficient exoskeletons.

Program: GCSP research stipend

Variable Impedance Control of the Robotic Ankle Joint

Designing a controller for wearable robots that is safe and stable, but does not require the human user to move slowly with high effort, will improve robotic ankle joints.

Program: MORE

Understanding the Effects of Gait Adaptation from the Combination of Visual and Split-Belt Distortion

Understanding the effect of visual feedback on gait will improve the effects of treadmill rehabilitation on stroke patients.

Program: FURI

Design and Characterization of Variable Stiffness Soft Actuators for Lateral Ankle Support

Designing a soft robotic exosuit with inflatable fabric-based actuators will provide better lateral support for the ankle in walking rehabilitation.

Program: FURI

Design Optimization of the Active Ankle-Foot Orthosis (AAFO)

Optimizing a motorized ankle-foot orthosis will assist in the rehabilitation process for people suffering from neuromuscular conditions.

Program: FURI

Modeling of Environment Dependent Modulation of Ankle Impedance During Walking

Modeling the human ankle during walking in variable environments will help design better controllers for lower-extremity wearable robotics.

Program: FURI

Variable Impedance as Control Scheme for Enhanced Performance and Stability of Active Ankle Foot Orthosis

Investigating the effect of user-determined variable resistance control of active orthosis will reduce muscle fatigue and improve gait correction.

Program: MORE

Quantifying Muscular Response During Physical Human-Robot Interaction With a Variable Damping Controller

Testing the ability of a robotic controller to reduce human muscle activation will increase the efficiency of human-robot interfaces.

Program: KEEN

Understanding the Effects of Gait Adaptation from the Combination of Visual and Split-Belt Distortion

Studying the effects of combining visual and tactile modulation of gait will help increase efficacy and retention in stroke patient rehabilitation.

Program: FURI

2D Variable Damping Control of the Robotic Ankle Joint to Improve Trade-off between Agility and Stability and Reduce Effort

Designing and testing a controller for wearable robots that is safe and stable will help improve their performance in stability, agility and effort.

Program: MORE

Investigation of Sex Differences in 2-Dimensional Ankle Stiffness During Upright Standing

Understanding of sex differences in ankle biomechanics will serve as basis to develop risk assessment tools for ankle injury.

Program: FURI

A Force-Tracking Restraint System for Novel Movement and Sensation in Virtual Reality

Force tracking could make virtual reality more immersive and interactive, allowing it to have wider uses in health care and other fields.

Program: FURI

Variable Damping Control of Robotic Ankle Joint to Improve the Tradeoff Between Performance and Stability in the Frontal Plane

Exploring the use of robotic damping control will improve the performance and stability of physically interactive robots.

Program: FURI

Investigation of Underlying Mechanisms for the Modulation of Multi-dimensional Ankle Stiffness

Improved characterization of ankle stiffness will help design orthotics and prosthetics and improve understanding of neuromuscular diseases.

Program: MORE

Sex Differences in Voluntary Control Dynamics of the Knee and Ankle

Knowing the difference between how men and women voluntarily control their knees will help educate us in preventing athletic injuries.

Program: MORE

Variable Damping Control of the Robotic Ankle Joint to Improve Trade-off between Performance and Stability

Program: FURI

Voluntary Response Mechanics of the Human Ankle

Program: FURI

A Comprehensive Study of Sex Difference in Neuromuscular Control of the Knee Joint

Program: MORE

Evaluating the Effects of a Negatively-Damped Ankle-Foot Orthosis on Gait

Program: MORE

Stability of Ankle Motion in Eversion and Inversion Motion

Program: FURI

The Response of the Human Ankle to Variable Negative Damping

Program: FURI

Modeling the Voluntary Reflex of the Human Ankle

Program: MORE

Implementation of Self Adjustable Treadmill

Program: MORE