Company
We provide leading numerical simulation technology, modelling services and software solutions for quantitative analysis of human thermophysiological and perceptual responses with applications in sports, clothing research, military applications, biometeorology, physiotherapy, architecture, automotive and aerospace industries, medical engineering, and forensic research.
Founded in 2008, Ergonsim has ever since promoted numerical computer simulation of human beings as a cost-efficient tool for integrated, user-optimized product design. Ergonsim supports industrial partners, university and research institutes in efforts to implement quantitative thermophysiological simulation to develop new technical solutions and devise personalized methods, algorithms, and procedures in areas where human thermal responses and interactions play an important role.
Ergonsim is the developer of the original FPC Model which has found wide-spread use as a widely validated simulation tool in multiple disciplines of human endeavour.
Dedicated numerical modelling of thermophysiological effects, regulatory processes, tissue temperature responses, thermal and perceptual behaviours, personal factors.
Personal exposures to wide ranging environmental and exercise conditions including special, complex and extreme scenarios. Quantitative heat stress, thermal comfort, risk of frostbite analysis.
Deployment of thermal physiology and comfort simulation as a cost-efficient design tool to aid the development of technical products and solutions optimized for user health, well-being and comfort.
Coupled systems interfaces for non-invasive body monitoring, smart clothing, thermal and sweating manikin control, computer simulation of human-environment thermal interactions.
Quantitative modelling and optimisation of heat and cold therapies, whole-body and local stimulations, development of individualized exposure protocols and algorithms for personal safety limits.
Post-mortem body cooling- and detailed time-of-death analysis for even complex transient exposures, water immersion scenarios and a wide range of body characteristics.
In-depth expert knowledge in numerical modelling and simulation of heat and mass transfer processes in living tissues and at the body surface.
Targeted modelling of specific thermophysiological phenomena,
regulatory processes and critical human exposure scenarios.
Tailored simulation solutions and satisfied customers world-wide and across a broad spectrum of human endeavour applications.