International Conference

2023

[75] M. Kim, M. Kang, and I. G. Jang, "Estimation of the Mutual Inductance in Multi-receiver Wireless Power Transfer Systems," IEEE WPTCE 2023.

[74] B. J. Chun, H. Koh, I. G. Jang, "Deep learning-based patchwise 3D bone microstructure reconstruction," WCSMO 2023.

[73] S. Kim, G. Kim, I. G. Jang, "Topology Optimization for Vehicle Routing Problems," WCSMO 2023.

2022

[72] M. Kim, I. G. Jang, "Mutual Inductance Estimation for Multi-receiver Wireless Power Systems Using Current Information," IEEE WPTC 2022.

[71] M. Kim, I. G. Jang, "Analytical Investigation of Approximating the Optimal Operating Condition of Multi-receiver Wireless Power Transfer Systems in Real Time," ACSMO 2022.

[70] H. Koh, I. G. Jang, "Bone Microstructure Reconstruction from Low-resolution Skeletal Images Using Deep Learning with Node-Link Graph-Based Connectivity ," ACSMO 2022.

[69] M. Kang, I. G. Jang, "Determination of the Optimal Load Condition for Multi-receiver Wireless Power Transfer Systems," ACSMO 2022.

[68] C. W. Lee, I. G. Jang, "Two-stage Topology Optimization Framework of a Rare-earth-free Synchronous Reluctance Motor Considering Manufacturability and Structural Safety," ACSMO 2022.

2021

[67] S.M. Sin, B. J. Chun, I.G.Jang, "Deep learning-based patchwise resolution enhancement with quilting algorithm," ESB 2021. 

[66] J. J. Kim, B. J. Chun, I. G. Jang, "Topology Optimization-based Bone Microstructure Reconstruction from CT Scan Data," ASEM 2021. 

[65] B. J. Chun, S. M. Sin, I.G.Jang, "Patchwise bone microstructure reconstruction," ASEM 2021. 

2020

[64] B. J. Chun, S. M. Sin, I. G. Jang, "Patchwise-connected resolution enhancement for healthy weight-bearing bones using deep learning," ACSMO 2020. 

[63] J. Kim, I. G. Jang, "Lightweight Design of a Door-trim Jig Using Topology Optimization and Additive Manufacturing," ACSMO 2020. 

[62] B. J. Chun, I. G. Jang, "A validation study of determining the representative static loads for dynamic loading for conducting efficient bone remodeling simulation," ACSMO 2020. 

[61] M. Kim, I. G. Jang, "Optimization-based Determination of the Resonance Condition for Multi-receiver Wireless Power Transfer Systems," ACSMO 2020. 

[60] J. J. Kim, Y. H Lee, BJ. Chun, I. G. Jang, "Topology Optimization-based Human Bone Microstructure Reconstruction for Improving the Accuracy of Bone Strength Assessment: Cadaveric Validation Study," ACSMO 2020. 

2019

[59] S. B. Lee, M. Kim, I.G. Jang, "Determination of the Optimal Resonant Condition for Multi-Receiver Wireless Power Transfer Systems", IEEE WPTC 2019. 

[58] B. J. Chun, I. G. Jang, "Determination of the representative static loads for dynamic loads: A case of gait cycle", ESB 2019. 

[57] J. J. Kim, Y. H. Lee, B. J. Chun and I. G. Jang,"Topology Optimization-based Bone Reconstruction for QCT Scan Data: Clinical Feasibility Study with Micro-CT Scan Data," ESB 2019. 

[56] B. J. Chun, I. G. Jang, "Determination of the representative static loads for dynamic loading for efficient bone remodeling simulation: a case study of walking," WCSMO 2019. 

[55] J. J. Kim, Y. Yu and I. G. Jang, "Acceleration of Topology Optimization-based Bone Microstructure Reconstruction using Artificial Neural Networks," WCSMO 2019. 

[54] S. B. Lee, M. Kim, and I. G. Jang, "Determination of the Optimal Resonant Condition for Multi-receiver Wireless Power Transfer system," WCSMO 2019.

2018

[53] Y. H. Lee, J. J. Kim and I. G. Jang, "Computational study on age-related changes of trabecular bone microarchitecture using topology optimization-based resolution enhancement for the proximal femur CT images," KCR 2018. 

[52] J. J. Kim, I. G. Jang,"Clinical case study of topology optimization-based resolution enhancement of clinical CT images for investigating age-related trabecular changes," WCB 2018.

[51] J. J. Kim, B. J. Chun and I. G. Jang, "Topology optimization-based resolution enhancement of clinical CT images for investigating bone microstructure," WCB 2018. 

[50] C. Lee, J. Lee, S. B. Lee, and I. G. Jang, "Shape Optimization of Switched Reluctance Motors Considering Complicate Shape," IEEE Conference on Electromagnetic Field Computation, 2018. 

[49] S. B. Lee, M. Kim, and I. G. Jang, "Layout Optimization of the Receiver Coils for Maximizing the Efficiency of Multi-transmitter Wireless Power Transfer Systems," ACSMO 2018. 

[48] C. Lee, J. Lee, S. B. Lee, and I. G. Jang, "Development of Optimization Framework for Switched Reluctance Motors Considering Complicate Shape and Electric Parameters," ACSMO, 2018. 

[47] J. J,Kim, and I. G. Jang,"A new application of topology optimization: bone microstructure reconstruction with CT scan images," ACSMO 2018. 

[46] J. J,Kim, Y. Yu and I. G.Jang,"Topology optimization-based bone microstructure reconstruction complemented by neural networks," ACSMO 2018.  

2017

[45] J. J. Kim, B. J.Chun, Y. H. Lee, and I. G. Jang, "Clinical case study of topology optimization-based resolution enhancement of CT images for proximal femur," KCR 2017.

[44] J. J. Kim, Y. H. Lee, and I. G. Jang,"Topology optimization-based resolution enhancement for skeletal images," ESB 2017.

[43] J. J. Kim, Y. H. Lee, and I. G. Jang,"Resolution enhancement of 3-D quantitative computed tomography image for proximal femur by using analogy between topology optimization and phenomenological bone remodeling," WCSMO 2017.

[42] J. Nam and I. G. Jang, "Automated finite element model generation of a proximal femur using plain radiographs and statistical models," KCR 2017. 

2016

[41] S. Kim, K. Jang, I. G. Jang, "Case study of queue growth equalization for urban traffic signal optimization," ACSMO 2016. 

[40] J. H. Kim, Y. J. Shin, I. G. Jang, "Dual-mode Operation of the Distributed Actuation Mechanism for a Finger-type Manipulator", ACSMO 2016. 

[39] J. J. Kim and I. G. Jang, "3-D Localized resolution enhancement of skeletal image for volume of interest based on topology optimization", ACSMO 2016. 

[38] S. B. Lee, C. Lee and I. G. Jang, "Determination of optimal coils for wireless power transfer systems using smooth boundary representation," ACSMO 2016. 

2015

[37] S. Kim, J. Byun, K. Jang, I. G. Jang, "Case study of queue growth equalization for urban traffic signal optimization," WCSMO-11, Sydney, Australia, 2015. 

[36] J. H. Kim, Y. J. Shin, S. H. Kim, I. G. Jang, "Dual-mode operation of the finger-type manipulator based on distributed actuation mechanism," WCSMO-11, Sydney, Australia, 2015. 

[35] S. B. Lee and I. G. Jang, "Layout optimization of the secondary coils for wireless power transfer systems," WCSMO-11, Sydney, Australia, 2015. 

[34] S. B. Lee and I. G. Jang, "Layout optimization of the secondary coils for wireless power transfer systems," IEEE WPTC, Colorado, USA, 2015. 

[33] J. J. Kim, Y. H. Lee, I. G. Jang, "Resolution enhancement of skeletal QCT images for the volumes of interest," RSNA, Chicago, USA, 2015. 

[32] J. J. Kim, Y. H. Lee, I. G. Jang, "Localized resolution enhancement of QCT images for investigating trabecular architecture in proximal femur," KCR, Seoul, Korea, 2015. 

[31] J. J. Kim and I. G. Jang, "Localized resolution enhancement of skeletal images based on topology optimization," WCSMO-11, Sydney, Australia, 2015. 

[30] J. H. Kim, Y. J. Shin, K. S. Kim, I. G. Jang, "Application of distributed actuation mechanism to a hydraulic excavator," IEEE SysCon, Vancouver, Canada, 2015. 

2014

[29] J. H. Kim, Y. J. Shin, K. S. Kim, I. G. Jang, "Development of a New Hydraulic Excavator based on Distributed Actuation Mechanism," CJK-OSM8, Gyeongju, Korea, 2014. 

[28] S. B. Lee, S. Ahn, I. G. Jang, "Development of the optimization framework for wireless power transfer system," CJK-OSM8, Gyeongju, Korea, 2014. 

[27] S. B. Lee, S. Ahn, I. G. Jang, "Development of the optimization framework for wireless power transfer systems," IEEE WPTC, Jeju Island, Korea, 2014. 

[26] S. B. Lee, S. Ahn, I. G. Jang, "Optimization of the wireless power transfer system in an electric railway," IEEE WPTC, Jeju Island, Korea, 2014. 

[25] J. J. Kim and I. G. Jang, "Quantitative computed tomography image resolution enhancement based on topology optimization," IBEC, Gwangju, Korea, 2014. 

[24] J. J. Kim and I. G. Jang, "Fully automated segmentation of the proximal femur based on the complementary properties of thresholding and watershed algorithm," IBEC, Gwangju, Korea, 2014. 

[23] J. J. Kim, Y. H. Lee, I. G. Jang, "QCT image enhancement for investigating trabecular architecture in proximal femur," KCR, Seoul, Korea, 2014. 

[22] J. J. Kim, Y. K. Kim, I. G. Jang, "Computational study of cortical and trabecular bone in human proximal femur during aging," KCR, Seoul, Korea, 2014. 

~2013

[21] S. B. Lee, S. Ahn, I. G. Jang, "Development of an optimization algorithm of the wireless power transfer," APRSC, Taipei, Taiwan, 2013. 

[20] S. B. Lee, S. Ahn, I. G. Jang, "Development of an optimization algorithm of the wireless power transfer," CODE, Jeju Island, 2012. 

[19] Y. Kim, Y. K. Kim, K. Kim, S. Kim, B. M. Kwak, Y. S. Jung, I. G. Jang, E. H. Kim, "Structure optimization of 1-D laser sensors assembly for robust 6-DOF measurement," IEEE SysCon, Vancouver, Canada, 2012. 

[18] Y. Jung, I. G. Jang, B. M. Kwak, Y. K. Kim, Y. Kim, S. Kim, K. S. Kim, E. H. Kim, "Advanced sensing system of crane spreader motion (for Mobile Harbor)," IEEE SysCon, Vancouver, Canada, 2012. 

[17] Y. K. Kim, Y. Kim, K. Kim, S. Kim, Y. S. Jung, I. G. Jang, E. H. Kim, "Developing a robust sensing system for remote relative 6-DOF motion using 1-D laser sensors," IEEE SysCon, Vancouver, Canada, 2012. 

[16] I. G. Jang, B. M. Kwak, "Conceptual design of Mobile Harbor based on topology optimization," CJK OSM, Kyoto, Japan, 2012. 

[15] I. G. Jang, B. M. Kwak, "Optimal layout of an offshore crane using topology optimization," ASME, Houston, USA, 2012. 

[14] Q. H. Ngo, Y. Yu, E. H. Kim, I. G. Jang, K. S. Hong, "Orientation control of a cranes spreader: Application on mobile harbor," ICCAS, Gyeonggi-do, Korea, 2011. 

[13] Y. Jung, Y. K. Kim, Y. H. Kim, Y. G. Yu, E. H. Kim, I. G. Jang, S. H. Kim, B. M. Kwak, K. S. Kim, "Robust measurement of spreader motion for mobile harbor," SDPS, Jeju Island, Korea, 2011. 

[12] E. H. Kim, Y. S. Jung, Y. G. Yu, S. W. Kwon, H. J. Ju, I. G. Jang, S. H. Kim, B. M. Kwak, K. S. Kim, "Design a novel mechanism and control for the Mobile Harbor" SDPS, Jeju Island, Korea, 2011. 

[11] E. H. Kim, I. G. Jang, K. W. Kwak, Y. K. Kim, S. H. Kim, B. M. Kwak, K. S. Kim, "Design an intelligent spreader for Mobile Harbor based on virtual force algorithm," SDPS, Jeju Island, Korea, 2011. 

[10] E. H. Kim, K. W. Kwak, Y. K. Kim, I. G. Jang, Y. S. Park, B. M. Kwak, "Development of an auto-positioning spreader for Mobile Harbor," MOVIC, Tokyo, Japan, 2010. 

[9] U. J. Jung, S. B. Jeong, I. G. Jang, G. J. Park, "Size optimization of the crane for the mobile harbor," CJK OSM, Kyoto, Japan, 2010. 

[8] B. M. Kwak, E. J. Yoo, Y. H. Sung, I. G. Jang, "Pattern design of non-pneumatic tire for stiffness using topology optimization," ASME IDETC CIE, Quebec, Canada, 2009. 

[7] I. G. Jang, I. Y. Kim, "Topology optimization for the study of disc degeneration on the trabecular architecture in human lumbar spine," WCSMO, Lisboa, Portugal, 2009. 

[6] I. G. Jang, I. Y. Kim, B. M. Kwak, "Comparison of strain energy density based bone remodeling simulation and structural topology optimization," CANCAM, Toronto, Canada, 2007. 

[5] I. G. Jang, I. Y. Kim, B. M. Kwak, "Structural topology design using design space optimization," CANCAM, Toronto, Canada, 2007. 

[4] I. G. Jang, B. M. Kwak, "Evolutionary topology optimization for large-scale problems using design space adjustment and refinement," WCSMO, Rio de Janeiro, Brasil, 2005. 

[3] I. G. Jang, J. E. An, B. M. Kwak, "Bone growth simulation using evolutionary topology optimization," ICMOBT, Hawai, USA, 2005. 

[2] I. G. Jang, B. M. Kwak, "Evolutionary topology optimization using design space optimization and its application," ICCES, Chennai, India, 2005. 

[1] I. G. Jang, B. M. Kwak, "Design space optimization for topology based on fixed grid," AIAA/ISSMO MAO, Newyork, USA, 2004.