Hyundo Choi scite author profile

There are many important factors in developing an exoskeleton for assisting human locomotion. For example, the weight should be sufficiently light, the assist torque should be high enough to assist joint motion, and the assistance timing should be just right. Understanding how these design parameters affect overall performance of a complex human-machine system is critical for the development of these types of systems. The present study introduces an assistance timing controller that regulates assistance timing such that peak joint velocity and peak assistance power are offset by a reference value for our hip-type exoskeleton. This is followed by measuring the manner in which various assistance timing references affect an important metric for performance, namely metabolic cost. The results indicate that net metabolic cost exhibits a concave up pattern with the most reduction of 21%, when compared to walking without the exoskeleton, at 0% assistance timing reference. The study also examines assistance timing's effect on gait parameters; increase in assistance timing reference increases step length, decreases cadence, and increases walk ratio (i.e. step length/cadence ratio) during treadmill walking.

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Compact Hip-Force Sensor for a Gait-Assistance Exoskeleton System

Choi

Seo

Hyung

et al. 2018

Sensors

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In this paper, we propose a compact force sensor system for a hip-mounted exoskeleton for seniors with difficulties in walking due to muscle weakness. It senses and monitors the delivered force and power of the exoskeleton for motion control and taking urgent safety action. Two FSR (force-sensitive resistors) sensors are used to measure the assistance force when the user is walking. The sensor system directly measures the interaction force between the exoskeleton and the lower limb of the user instead of a previously reported force-sensing method, which estimated the hip assistance force from the current of the motor and lookup tables. Furthermore, the sensor system has the advantage of generating torque in the walking-assistant actuator based on directly measuring the hip-assistance force. Thus, the gait-assistance exoskeleton system can control the delivered power and torque to the user. The force sensing structure is designed to decouple the force caused by hip motion from other directional forces to the sensor so as to only measure that force. We confirmed that the hip-assistance force could be measured with the proposed prototype compact force sensor attached to a thigh frame through an experiment with a real system.

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Environmental innovation inertia: Analyzing the business circumstances for environmental process and product innovations

Choi

2018

Bus Strat Env

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We categorize the environmental innovations used in the environmental management and innovation management literature into two types: environmental process and product innovations. By using objective measurements of internal and external business circumstances from a large‐scale survey of manufacturing firms in Korea, we investigate whether firms delay adoption of specific environmental innovations and if so how to overcome the passive nature of environmental innovation activities. The main findings are as follows. Both low operational performance and high export intensity are likely to lead to environmental process innovations. On the contrary, they do not play a significant role in increasing environmental product innovations. Instead, environmental product innovations take place under normative pressure. These results contribute to the “it pays to be green” and true sustainability discussion by examining the business environmental fit of a focal firm—either with environmental process innovations or with environmental product innovations.

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Technology-push and demand-pull factors in emerging sectors: evidence from the electric vehicle market

Choi

2017

Industry and Innovation

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Surgical Robot for Single-Incision Laparoscopic Surgery

Choi

Kwak

Lim

et al. 2014

IEEE Trans. Biomed. Eng.

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This paper introduces a novel surgical robot for single-incision laparoscopic surgeries. The robot system includes the cone-type remote center-of-motion (RCM) mechanism and two articulated instruments having a flexible linkage-driven elbow. The RCM mechanism, which has two revolute joints and one prismatic joint, is designed to maintain a stationary point at the apex of the cone shape. By placing the stationary point on the incision area, the mechanism allows a surgical instrument to explore the abdominal area through a small incision point. The instruments have six articulated joints, including an elbow pitch joint, which make the triangulation position for the surgery possible inside of the abdominal area. The presented elbow pitch structure is similar to the slider-crank mechanism but the connecting rod is composed of a flexible leaf spring for high payload and small looseness error. We verified the payload of the robot is more than 10 N and described preliminary experiments on peg transfer and suture motion by using the proposed surgical robot.

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Hyundo Choi

A mediating role of innovation capability between entrepreneurial competencies and competitive advantage

Can hydrogen fuel vehicles be a sustainable alternative on vehicle market?: Comparison of electric and hydrogen fuel cell vehicles

RNN-Based On-Line Continuous Gait Phase Estimation from Shank-Mounted IMUs to Control Ankle Exoskeletons

Effects of assistance timing on metabolic cost, assistance power, and gait parameters for a hip-type exoskeleton

Compact Hip-Force Sensor for a Gait-Assistance Exoskeleton System

Environmental innovation inertia: Analyzing the business circumstances for environmental process and product innovations

Technology-push and demand-pull factors in emerging sectors: evidence from the electric vehicle market

Surgical Robot for Single-Incision Laparoscopic Surgery

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