| Wetting characteristics of insect wing surfaces D Byun, J Hong, JH Ko, YJ Lee, HC Park, BK Byun, JR Lukes Journal of Bionic Engineering 6 (1), 63-70, 2009 | 257 | 2009 |
| Design and stable flight of a 21 g insect-like tailless flapping wing micro air vehicle with angular rates feedback control HV Phan, T Kang, HC Park Bioinspiration & biomimetics 12 (3), 036006, 2017 | 232 | 2017 |
| Analytical design model for a piezo-composite unimorph actuator and its verification using lightweight piezo-composite curved actuators KJ Yoon, KH Park, SK Lee, NS Goo, HC Park Smart Materials and Structures 13 (3), 459, 2004 | 169 | 2004 |
| Design and manufacture of a lightweight piezo-composite curved actuator KJ Yoon, S Shin, HC Park, NS Goo Smart Materials and Structures 11 (1), 163, 2002 | 169 | 2002 |
| Direct measurement of slip flows in superhydrophobic microchannels with transverse grooves D Byun, J Kim, HS Ko, HC Park Physics of Fluids 20 (11), 2008 | 165 | 2008 |
| Effect of an artificial caudal fin on the performance of a biomimetic fish robot propelled by piezoelectric actuators S Heo, T Wiguna, HC Park, NS Goo Journal of Bionic Engineering 4 (3), 151-158, 2007 | 153 | 2007 |
| Insect-inspired, tailless, hover-capable flapping-wing robots: Recent progress, challenges, and future directions HV Phan, HC Park Progress in Aerospace Sciences 111, 100573, 2019 | 150 | 2019 |
| Performance improvement of IPMC (ionic polymer metal composites) for a flapping actuator SG Lee, HC Park, D Pandita Surya, Y Young-Tai International Journal of Control, Automation, and Systems 4 (6), 748-755, 2006 | 143 | 2006 |
| An efficient assumed strain element model with six DOF per node for geometrically non‐linear shells HC Park, C Cho, SW Lee International Journal for Numerical Methods in Engineering 38 (24), 4101-4122, 1995 | 138 | 1995 |
| Equivalent modeling for ionic polymer–metal composite actuators based on beam theories S Lee, HC Park, KJ Kim Smart materials and structures 14 (6), 1363, 2005 | 135 | 2005 |
| Characteristics of a beetle's free flight and a flapping-wing system that mimics beetle flight QV Nguyen, HC Park, NS Goo, D Byun Journal of Bionic Engineering 7 (1), 77-86, 2010 | 132 | 2010 |
| Mechanisms of collision recovery in flying beetles and flapping-wing robots HV Phan, HC Park Science 370 (6521), 1214-1219, 2020 | 112 | 2020 |
| Relationship between wingbeat frequency and resonant frequency of the wing in insects N San Ha, QT Truong, NS Goo, HC Park Bioinspiration & biomimetics 8 (4), 046008, 2013 | 102 | 2013 |
| A modified blade element theory for estimation of forces generated by a beetle-mimicking flapping wing system QT Truong, QV Nguyen, VT Truong, HC Park, DY Byun, NS Goo Bioinspiration & biomimetics 6 (3), 036008, 2011 | 102 | 2011 |
| Design and demonstration of a locust-like jumping mechanism for small-scale robots QV Nguyen, HC Park Journal of Bionic Engineering 9 (3), 271-281, 2012 | 92 | 2012 |
| Effects of corrugation of the dragonfly wing on gliding performance WK Kim, JH Ko, HC Park, D Byun Journal of theoretical biology 260 (4), 523-530, 2009 | 92 | 2009 |
| Towards the long-endurance flight of an insect-inspired, tailless, two-winged, flapping-wing flying robot HV Phan, S Aurecianus, TKL Au, T Kang, HC Park IEEE Robotics and Automation Letters 5 (4), 5059-5066, 2020 | 91 | 2020 |
| KUBeetle-S: An insect-like, tailless, hover-capable robot that can fly with a low-torque control mechanism HV Phan, S Aurecianus, T Kang, HC Park International Journal of Micro Air Vehicles 11, 1756829319861371, 2019 | 91 | 2019 |
| Stable vertical takeoff of an insect-mimicking flapping-wing system without guide implementing inherent pitching stability HV Phan, QV Nguyen, QT Truong, TV Truong, HC Park, NS Goo, D Byun, ... Journal of Bionic Engineering 9 (4), 391-401, 2012 | 90 | 2012 |
| Three-dimensional cure simulation of composite structures by the finite element method HC Park, NS Goo, KJ Min, KJ Yoon Composite Structures 62 (1), 51-57, 2003 | 90 | 2003 |
