International Journal

[43] Myeongsub Kim, and Sukyung Park, Enhancing Accuracy and Convenience of Golf Swing Tracking with a Wrist-Worn Single Inertial Sensor, Scientific Reports, (Under Review)

[42] Myeongsub Kim, and Sukyung Park, Golf swing segmentation from a single IMU using machine learning, Sensors 20.16, 2020

[41] Myunghyun Lee, and Sukyung Park, Estimation of Three-Dimensional Lower Limb Kinetics Data during Walking Using Machine Learning from a Single IMU Attached to the Sacrum, Sensors 20.21, 2020

[40] Hyeob Choi, and Sukyung Park, Three dimensional upper limb joint kinetics of a golf swing with measured internal grip force, Sensors 20.13, 2020

[39] Hyunho Jeong, and Sukyung Park, Estimation of the ground reaction forces from a single video camera based on the spring-like center of mass dynamics of human walking, Journal of Biomechanics, Vol 113, 2020

[38] Bumjoon Kim, Hyerim Lim, and Sukyung Park, Spring-loaded inverted pendulum modeling improves neural network estimation of ground reaction forces, Journal of Biomechanics, Vol 113, 2020

[37] Hyerim Lim, Bumjoon Kim, and Sukyung Park, Prediction of Lower Limb Kinetics and Kinematics during Walking by a Single IMU on the Lower Back Using Machine Learning, SENSORS, Vol 20, 2020

[36] Hyerim Lim and Sukyung Park, A bipedal compliant walking model generates periodic gait cycles with realistic swing dynamics, Journal of Biomechanics, Vol 91, pp79-84, 2019

[35] Lee, Changwon and Park, Sukyung, Estimation of Unmeasured Golf Swing of Arm Based on the Swing Dynamics, INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING, Vol 19, pp745-751, 2018

[34] Hansol X. Ryu and Sukyung Park, Estimation of unmeasured ground reaction force data based on the oscillatory characteristics of the center of mass during human walking, Journal of Biomechanics, Vol 71, pp135-143, 2018

[33] Hyerim Lim and Sukyung Park, Kinematics of lower limbs during walking are emulated by springy walking model with a compliantly connected, off-centered curvy foot, Journal of Biomechanics, Vol 71, pp119-126, 2018

[32] Kang Sw.,Choi H.,Park HI.,Choi BG.,Im HB.,Shin DJ.,Jung YG.,Lee JY.,Park HW.,Park SK. and Roh JS., The Development of an IMU Integrated Clothes for Postural Monitoring Using Conductive Yarn and Interconnecting Technology, SENSORS, Vol 17(11), 2017

[31] Keonyoung Oh and Sukyung Park, The bending stiffness of shoes is beneficial to running energetics if it does not disturb the natural MTP joint flexion, Journal of Biomechanics, Vol 53, pp127-135, 2017

[30] Hyunggwi Song, Heewon Park, and Sukyung Park, A springy pendulum could describe the swing leg kinetics of human walking, Journal of Biomechanics, Vol 49(9), pp1504-1509, 2016

[29] Mummolo, C., Park, S., Mangialardi, L., and Kim, J.H., Computational evaluation of load carriage effects on gait balance stability, Computer Methods in Biomechanics and Bio-medical Engineering, Vol 19(11), pp1127-1136, 2016

[28] Hyerim Lim, Heewon Park and Sukyung Park, The compliant walking model with a curvy foot reflecting the position of ankle could reproduce the ankle torque profile, Journal of Mechanical Science and Technology, Vol 29(6), pp2307-2311, 2015, IF 0.703

[27] Hyeob Choi and Sukyung Park, Estimation of sitting posture using the combination of ground reaction force, Journal of Mechanical Science and Technology, Vol 29(4), pp1657-1662, 2015, IF 0.703

[26] Seyoung Kim, Sukyung Park, and Sangkyu Choi, Countermovement strategy changes with vertical jump height to accommodate feasible force constraints, Journal of Biomechanics, Vols 47(12), pp3162–3168, 2014, IF 2.496

[25] Keonyoung Oh, Jaekwan Ryu, and Sukyung Park, A modeling study of mechanical energetic optimality in incline walking, Journal of Mechanical Science and Technology, Vols 28(4), pp1393-1401, 2014, IF 0.70

[24] Myunghyun Lee, Seyoung Kim, and Sukyung Park, Resonance-based oscillations could describe human gait mechanics under various loading conditions, Journal of Biomechanics, Vols 47(1), pp319–322, 2014, IF 2.496

[23] Chang Keun Jung and Sukyung Park, Compliant bipedal model with the center of pressure excursion associated with oscillatory behavior of the center of mass reproduces the human gait dynamics, Journal of Biomechanics, Vols 47(1), pp223–229, 2014, IF 2.496, CT(Web of Science): 0, CT(Google): 0

[22] Heewon Park, Sukyung Park, Increase of push-off propulsion to compensate heel strike loss during step-to-step transition is limited at faster gait speeds, International Journal of Precision Engineering and Manufacturing, Vol. 14(5), pp. 825-829, 2013, IF 1.5

[21] Hyunhwa Hong, Seyoung Kim, Cheolwoong Kim, Soonhyuck Lee and Sukyung Park, Spring-like gait mechanics observed during walking in both young and older adults, Journal of Biomechanics, Vols 46(1), pp77–82, 2013, IF 2.496

[20] Ju-Ho Jung, Jung-Woo Choi, Sukyung Park and Yang-Hann Kim, Equalization Filter Design for Downfiring Flat Television Speakers, Applied Acoustics, 2013, IF 1.068

[19] Changwon Lee and Sukyung Park, A mechanical model of stereocilia that demonstrates a shift in the high-sensitivity region due to the interplay of a negative stiffness and an adaptation mechanism, Bioinspiration & Biomimetics, Vols 7(4):046013, 2012, IF 2.534

[18] Hyeob Choi, Yongwoo Yi, Sukyung Park, Effect of awareness about sensory conflict to linear motion perception, Journal of Biomechanical Science and Engineering, 2012 IF N/A

[17] Keonyoung Oh, Juhyun Baek, and Sukyungp Park, Gait strategy changes with acceleration to accommodate the biomechanical constraint on push-off propulsion, Journal of Biomechanics, Vol. 45(16), pp. 2920-2926, 2012, IF 2.496

[16] Seyoung Kim, Christopher G. Atkeson and Sukyung Park, Perturbation-dependent selection of postural feedback gain and its scaling, Journal of Biomechanics, Vol. 45(8), pp1379–1386, 2012, IF 2.496

[15] Seyoung Kim and Sukyung Park, The oscillatory behavior of the CoM facilitates mechanical energy balance between push-off and heel strike, Journal of Biomechanics, Vol. 45(2), 2012, IF 2.496

[14] Seyoung Kim and Sukyung Park, Leg stiffness increases with speed to modulate gait frequency and propulsion energy, Journal of Biomechanics, Vol. 44, pp1253-1258, 2011, IF 2.496, CT(Web of Science): 11, CT(Google): 26

[13] Jin Yeom and Sukyung Park, A gravitational impulse model predicts collision impulse and mechanical work during a step-to-step transition, Journal of Biomechanics, Vol. 44: 59-67, 2011, IF 2.496, CT(Web of Science): 9, CT(Google): 19

[12] Koeun Kim and Sukyung Park, A mechanical model of the gating spring mechanism of stereocilia, J Biomech, Vol. 42: 2158-2164, 2009, IF 2.496

[11] Seyoung Kim, Fay B. Horak, Patricia Carlson-Kuhta and Sukyung Park, Postural Feed-back Scaling Deficits in Parkinson’s Disease, J Neurophysiology, Vol. 102: 2010-2920, 2009, IF 3.041, CT(Web of Science): 11, CT(Google): 21

[10] Yongwoo Yi and Sukyung Park, Effect of reduced cutaneous cues on motion perception and postural control, Exp brain research, Vol. 195: 361-369, 2009, IF 2.168

[9] Koeun Lim, and Sukyung Park, A Conceptual Model of Micro Inertial Sensor Mimick-ing Amplifying Mechanism of the Hair Cells, Key Engineering Materials, Vol. 326-328: 827-830, 2006, IF N/A

[8] Seyoung Kim and Sukyung Park, Human Postural Feedback Response Described by Ei-genvector, Key Engineering Materials, Vol. 326-328: 739-742, 2006, IF N/A

[7] Sukyung Park, Claire Gianna-Poulin, F. Owen Black, Scott Wood, and Daniel M. Mer-feld, Roll Rotation Cues Influence Roll Tilt Perception Assayed Using a Somatosensory Technique, J Neurophysiol, Vol. 96: 486-491, 2006, IF 3.041

[6] A.V. Alexandrov, A.A. Frolov, F.B. Horak, P. Carlson-Kuhta, and S. Park, Feedback Equilibrium Control During Human Standing, Biol. Cybern. Vol. 93: 309-322, 2005, IF 1.933

[5] D. Merfeld, Sukyung Park, C. Gianna-Poulin, F. Black, and S. Wood, Vestibular Per-ception and Action Employ Qualitatively Different Mechanisms: II. VOR and Percep-tual Responses during Combined Tilt&Translation, J Neurophysiol, Vol. 94: 199-205, 2005, IF 3.041

[4] D. Merfeld, Sukyung Park, C. Gianna-Poulin, F. Black, and S. Wood, Vestibular Per-ception and Action Employ Qualitatively Different Mechanisms: I. Frequency Re-sponse of VOR and Perceptual Responses during Translation and Tilt, J Neurophysiol, Vol. 94: 186-198, 2005, IF 3.041

[3] Sukyung Park and Arthur D. Kuo, An Optimal Estimator Model of Multi-Sensory Pro-cessing in Human Postural Control, Key Engineering Materials, Vol. 277-279: 142-147, 2005, IF N/A

[2] Sukyung Park, Fay B. Horak, and Arthur D. Kuo, The Effect of Initial Lean on the Scaling of Postural Feedback Responses, Key Engineering Materials Vol. 277-279: 148-154, 2005, IF N/A

[1] Sukyung Park, Fay B. Horak, and Arthur D. Kuo, Postural Feedback Responses Scale with Biomechanical Constraints in Human Standing, Experimental Brain Research, Vol. 154: 417-427, 2004, IF 2.168, CT(Web of Science): 90, CT(Google): 137