Thermal Haptics for Fire Simulation :
Radiative and Convective Heat Transfer Model from Fire Dynamics Data
DURATION
2023.05 - Present
2 years 8 months
(ongoing)
KEY WORDS
VR
Simulation
RESEARCH
Thermal haptic
Contribution
Team Leader
Engineering
Design Research
CO-WORKER
Jiyoon Lee
Sungmo Lee
Nahyun Lee
This work present a framework that provides users with thermal haptic feedback through a fire training simulation driven by fire dynamics data. Simulations based on fire dynamics data have great potential to reproduce highly realistic fire scenarios. Previous research has primarily focused on enhancing real-time visual realism, whereas attempts to integrate thermal feedback have been relatively limited. Proposed model incorporates fire dynamics data to approximate real-time convective and radiative heat transfer.
Independent Research
|
2023.05 ~ 2023.01
Reference
Hoseok Jung, Jiyoon Lee, and Hyunimin Kang. 2025. Thermal Haptics for Fire Simulation: Radiative and Convective Heat Transfer Model from Fire Dynamics Data. In Proceedings of IEEE International Symposium on Mixed and Augmented Reality (ISMAR ‘25). (Research demonstration). DOI: [https://doi.org/10.1109/ISMAR-Adjunct68609.2025.00305]