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Fig. 2. (A) Biological basis of Tb control.
am, metabolic proportionality factor; endoc. law,
endocrine controllers law; shiv, shivering thermogenesis; non-shiv,
non-shivering thermogenesis. These four blocks constitute the metabolic rate
controller/process in our model (see B). Behav. law, posture controllers law;
aK, proportionality factor for non-evaporative heat
transfer; aEHL, proportionality factor for evaporative
heat transfer; shape, body positioning; vasomotor: peripheral blood perfusion;
S/P, sweating and panting. These six blocks constitute the thermal conductance
controller/process in our model (see B). HP, heat production; HL, heat loss;
TC/S, core and skin temperatures. The thermal
characteristics of the body correspond to the thermal inertia and
`disturbances' to TA in our model. Notice that our model
does not take into account local loops and other central nervous system areas
interfering in the control. (Scheme based on fig. 2 of
Cooper, 2002). (B) Schematic
representation of the Tb control system modelled in Eq.
1-3. See text for details. Compare this control system to the biological one
presented in A.
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