This field explores AI-based electric systems and e-actuator technologies for next-generation construction machinery.

Our research includes system control, inverter and motor technologies, optimized design, and performance verification for high-efficiency and reliable operation.

This field explores hydrogen fuel cell power systems and advanced hydrogen storage and fueling technologies for future construction machinery.

Our research covers hydrogen supply, air and heat management, and MH-based hydrogen storage and refueling systems to enhance efficiency, safety, and reliability. 

This field explores the reliability, safety, and performance of hydrogen-powered construction machinery through comprehensive vehicle testing.

Our research covers driving, stability, vibration, fuel efficiency, and functional performance tests, supported by integrated hydrogen refueling and testing infrastructure. 

This field explores hydrogen-based and carbon-free engine technologies for next-generation construction machinery.

Our research covers engine system conversion, hardware development, and ECU calibration to achieve significant carbon reduction with stable and efficient performance. 

This field explores advanced energy devices and thermal management technologies for construction machinery in extreme environments.

Our research covers energy design, thermal regulation, and smart materials to enhance reliability and performance in space, deep-sea, and polar conditions. 

This field explores thermal safety technologies for battery systems used in next-generation construction machinery.

Our research covers battery thermal management, Li-ion battery pack design, and fire suppression technologies to reduce thermal runaway risks and improve system reliability. 

This field explores vibration and dust resistance technologies for next-generation power systems in construction machinery.

Our research covers vibration analysis, isolation design optimization, and environmental durability evaluation to enhance system reliability and performance under severe operating conditions. 

This field explores the operational characteristics of off-road vehicles through real-world data collection and statistical analysis.

Our research supports the development of representative operating modes for construction machinery, helping improve performance evaluation and system optimization. 

This field explores evaluation and certification technologies for advanced power systems used in next-generation construction machinery.

We provide testing and technical support for fuel cells, hydrogen engines, and batteries.