Add to ORKGPhysiological differences between individuals can significantly affect human thermal response to the environment. In practice, most thermal models use a single set of physiological data to represent an average person. We have developed a model to translate descriptive data about an individual into a set of physiological parameters which may be used in thermal models. We have incorporated these parameters into a model of human thermoregulation and comfort, which may be used to predict variations in thermal response between individuals. This paper presents this model and examples of its use in thermal simulation. r 2001 Elsevier Science Ltd. All rights reserved
Dissertations, Academic -- University of Missouri--Columbia -- Mechanical and aerospace engineering....
The human body's heat exchange and its interaction with the surrounding environment has in the past ...
A sound statistical methodology is presented for modelling the correspondence between the characteri...
This paper proposes the methodology to quantify the individual difference in temperature regulation ...
Current thermal comfort models used in practice do not consider physiological and psychological diff...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
moregulation for the simulation of heat stress response. J Appl Physiol 90: 1943–1954, 2001. — A pop...
A multi-segmental mathematical model of human thermoregulation was tested for its capability to pred...
moregulation for the simulation of heat stress response. J Appl Physiol 90: 1943–1954, 2001. — A pop...
The Berkeley Comfort Model is based on the Stolwijk model of human thermal regulation but includes s...
A new Human Thermal Model (HTM) has been developed at VTT Technical Research Centre of Finland (VTT)...
In recent years there has been a growing demand from research, military and the industry for robust,...
In this paper, a novel dynamic simulation model of the thermal behavior of the human body towards th...
Holistically understanding the impact of inhomogeneous and time dependent indoor climatic effects on...
Dissertations, Academic -- University of Missouri--Columbia -- Mechanical and aerospace engineering....
The human body's heat exchange and its interaction with the surrounding environment has in the past ...
A sound statistical methodology is presented for modelling the correspondence between the characteri...
This paper proposes the methodology to quantify the individual difference in temperature regulation ...
Current thermal comfort models used in practice do not consider physiological and psychological diff...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
Various and disparate technical disciplines have identified a growing need for tools to predict huma...
moregulation for the simulation of heat stress response. J Appl Physiol 90: 1943–1954, 2001. — A pop...
A multi-segmental mathematical model of human thermoregulation was tested for its capability to pred...
moregulation for the simulation of heat stress response. J Appl Physiol 90: 1943–1954, 2001. — A pop...
The Berkeley Comfort Model is based on the Stolwijk model of human thermal regulation but includes s...
A new Human Thermal Model (HTM) has been developed at VTT Technical Research Centre of Finland (VTT)...
In recent years there has been a growing demand from research, military and the industry for robust,...
In this paper, a novel dynamic simulation model of the thermal behavior of the human body towards th...
Holistically understanding the impact of inhomogeneous and time dependent indoor climatic effects on...
Dissertations, Academic -- University of Missouri--Columbia -- Mechanical and aerospace engineering....
The human body's heat exchange and its interaction with the surrounding environment has in the past ...
A sound statistical methodology is presented for modelling the correspondence between the characteri...