In today’s world, improving human comfort while reducing energy consumption is an increasingly important issue in many fields, including air conditioning equipment design in vehicles, buildings, factories, and homes; materials; clothing and wearable devices; and medical equipment design.
In particular, the need for sustainability-driven design is key to balancing comfort with efficient energy management.

ThermoAnalytics integrates physiology-based human comfort simulation software with TAITherm thermal simulation software to enable advanced simulations under a variety of environmental conditions, including convection, conduction, radiation, and sunlight.
By leveraging this technology, we provide solutions for optimal comfort design while improving energy efficiency.

Learn how advanced comfort simulation models are being applied in a variety of fields.

comfort by combining 1D and 3D domain simulation processes and integrating thermal and energy management simulations to improve heating and cooling systems for comfort and efficiency, control modeling methods in HVAC applications, comfort applications and convection modeling methods in comfort applications.

Understanding of human physiology, comfort and sensory perception and comfort simulation for different populations (comfort in East Asia) as a predictor of human temperature and comfort. Simulation-based test design and simulation of the impact of clothing and wearable electronics on consumer comfort and medical devices for temperature control.

Simulation of weather effects, including sunlight, and simulation of cabin ECUs to prevent performance degradation as a reliability improvement for vehicle electronics

Challenges in architecture include transient simulation of buildings with long-term weather effects and the development of home heating controllers using simulation. Microclimate simulation of cities is another example.