Research

Research Field

Total Robotics / manufacturing Energy / environment Bioengineering Materials / safety Mobility

Mobility

Researchers are focusing their resources and capabilities on developing innovative medical and rehabilitation technologies to integrate into various cutting-edge mechanical systems, aiming to enhance the quality of life in an aging society through future mobility technology. This, in turn, will make the presence of mechanical engineering stronger in the era of the Fourth Industrial Revolution and contribute to securing the global competitiveness of domestic industries.

Professors	Laboratories	Research Field	Contacts
Choi, Byoung Ho	차세대재료물성평가연구실 Advanced Materials Characterization Lab. open_in_new	Material fracture behavior and durability assessment based on crack layer theory and experiments Mechanical-chemical degradation evaluation and lifespan prediction model construction Development of AI-based models (structure-processing-process relationship in polymers) Multi-physics analysis of thermal runaway phenomena in lithium-ion batteries Evaluation of damage and suitability of polymer materials in hydrogen economy	+82-2-3290-3378
Chung, Woo Jin	지능시스템 및 로보틱스 연구실 Intelling Systems & Robotics Laboratory open_in_new	Position Estimation Traversability Analysis Path Planning	+82-2-3290-3375
Hong, Dae Hie	메카트로닉스 및 로보틱스 연구실 Mechatronics & Robotics Lab. open_in_new	Mechatronics system design & control Minimally invasive surgical robot Construction automation & construction robot	+82-2-3290-3748
Im, Seong Kyun	기체역학 및 반응성유동 연구실 Gasdynamics and Reacting Flow Lab. open_in_new	Plasma-Assisted plastic energy recovery and utilization Prediction of unstart phenomena in scramjet engine under hypersonic flow conditions Simulation and prediction of wildfires Study of ammonia mechanisms and global mechanisms	+82-2-3290-3356
Kang, Yong Tae	에너지물질순환연구실 Energy Materials Criculation Lab. open_in_new	Sorption thermal battery systems, Absorption cycles & Heat pumps Indoor CO2 capture and integrated ventilation systems Heat-electricity conversion and storage system Solar cell thermal management by emulsion filters and passive cooling	+82-2-3290-59
Kim, Yong Chan	냉동공조 및 이상유동 연구실 TWO-PHASE FLOW Lab. open_in_new	PEMFC and Renewable energy Performance evaluation of low GWP refrigerants Next-generation refrigeration and HVAC system Cooling system for semiconductors	+82-2-921-5946
Lee, Ho Seong	최적 에너지 변환 시스템 연구실 Optimized Energy Conversion Systems Lab. open_in_new	Optimization of energy systems for building carbon reduction Thermal management systems for lithium-ion batteries (PCM, heat pipes, dielectrics) Development of simulation models for thermal management systems in electric vehicles Enhancing the performance of heat exchangers applied in electric vehicles	+82-2-3290-3891
Na, Sung Soo	차세대재료설계 및 다중센싱 연구실 Next Generation Design & Multi Sensing Lab. open_in_new	Mechanical properties of disease-causing proteins Detection of environmental nano-toxic substances	+82-2-3290-3370
Shim, Jae Kyung	기계설계 및 CAD 연구실 Mechanical Design & CAD Lab. open_in_new	Mechanism design and analysis methodologies using graph theory Performance enhancement through analysis of existing mechanisms Design and analysis of engine, suspension systems, and door mechanisms	+82-2-3290-3362
Shim, Joon Hyung	신재생에너지시스템 연구실 Renewable Energy System Lab. open_in_new	Eco-friendly hydrogen production, power generation, and other energy systems Component&material fabrication technologies (batteries, fuel cells) Vacuum deposition and liquid process technologies (atomic layer deposition, inkjet printing) Design and optimization of smart energy grid	+82-2-3290-3353
Song, Jae Bok	지능로봇 연구실 Intelligent Robotics Lab. open_in_new	Navigation Manipulation Robotic Systems Haptics	+82-2-3290-3363
Yoo, Dong Joo	차세대 전지 시스템 연구실 Advanced Battery System Lab. open_in_new	Next-generation electrolytes for fast charging and low-temperature operation Laser processing of cathode electrodes and physics-based electrochemical modeling Physics-based electrochemical modeling of sulfide-based solid-state batteries Study of cathode materials and degradation mechanisms in sulfide-based solid-state batteries	+82-2-3290-3367