Microclimate management systems for detecting surface performance

What is claimed is: 1. A microclimate management system comprising: a person support surface including an inlet sensor provided within the person support surface at a first end of the person support surface and an outlet sensor provided within the person support surface at a second end of the person support surface opposite the first end of the person support surface; a fluid supply device coupled to an inlet of the person support surface and configured to supply fluid to the inlet of the person support surface such that the fluid is circulated to an outlet of the person support surface; and a controller operatively coupled to the fluid supply device, the inlet sensor of the person support surface, and the outlet sensor of the person support surface, the controller configured to: determine a reference line indicating an optimal rate of change, the reference line reaching a steady state at a first time; detect an inlet condition value of the fluid at the inlet of the person support surface with the inlet sensor; detect an outlet condition value of the fluid at the outlet of the person support surface with the outlet sensor; determine a difference between the inlet condition value and the outlet condition value; and transmit a first alert in response to determining that a rate of change of the difference between the inlet condition value and the outlet condition value falls below a lower condition threshold after the first time. 2. The microclimate management system of claim 1 , wherein the controller is further configured to transmit a second alert in response to determining that the rate of change of the difference between the inlet condition value and the outlet condition value is above an upper condition threshold. 3. The microclimate management system of claim 1 , wherein the inlet condition value and the outlet condition value are determined based on one or more of a temperature and a humidity of the fluid detected at the inlet and the outlet of the person support surface, respectively. 4. The microclimate management system of claim 1 , wherein the inlet is provided at a first end of the person support surface and the outlet is provided at an opposite end of the person support surface. 5. The microclimate management system of claim 2 , wherein the upper condition threshold and the lower condition threshold are dependent on an elapsed time after the fluid supply device is activated to supply fluid into the person support surface. 6. The microclimate management system of claim 2 , further comprising: an input device communicatively coupled to the controller and configured to receive one or more physiological attributes of a person supported on the person support surface, wherein the upper condition threshold and the lower condition threshold are adjusted based on the one or more physiological attributes. 7. The microclimate management system of claim 6 , further comprising: one or more load sensors communicatively coupled to the controller and provided at the person support surface, wherein the controller is configured to activate the fluid supply device in response to the load sensor detecting a load above a load threshold. 8. A person support apparatus comprising: a lower frame; a lift mechanism coupled to the lower frame; an upper frame movably supported above the lower frame by the lift mechanism; a person support surface provided on the upper frame, the person support surface including an inlet sensor provided within the person support surface at a first end of the person support surface and an outlet sensor provided within the person support surface at a second end of the person support surface opposite the first end of the person support surface; a fluid supply device coupled to an inlet of the person support surface and configured to supply fluid to the inlet of the person support surface such that fluid is circulated to an outlet of the person support surface; and a controller operatively coupled to the fluid supply device the inlet sensor of the person support surface, and the outlet sensor of the person support surface, the controller configured to: determine a reference line indicating an optimal rate of change, the reference line reaching a steady state at a first time; detect an inlet condition value of the fluid at the inlet of the person support surface with the inlet sensor; detect an outlet condition value of the fluid at the outlet of the person support surface with the outlet sensor; determine a difference between the inlet condition value and the outlet condition value; and transmit a first alert in response to determining that a rate of change of the difference between the inlet condition value and the outlet condition value falls below a lower condition threshold after the first time. 9. The person support apparatus of claim 8 , wherein the controller is further configured to transmit a second alert in response to determining that the rate of change of the difference between the inlet condition value and the outlet condition value is above an upper condition threshold. 10. The person support apparatus of claim 8 , wherein the inlet condition value and the outlet condition value are determined based on one or more of a temperature and a humidity of the fluid detected at the inlet and the outlet of the person support surface, respectively. 11. The person support apparatus of claim 8 , wherein the inlet is provided at a first end of the person support surface and the outlet is provided at an opposite end of the person support surface. 12. The person support apparatus of claim 9 , wherein the upper condition threshold and the lower condition threshold are dependent on an elapsed time after the fluid supply device is activated to supply fluid into the person support surface. 13. The person support apparatus of claim 9 , further comprising: an input device communicatively coupled to the controller and configured to receive one or more physiological attributes of a person supported on the person support surface, wherein the upper condition threshold and the lower condition threshold are adjusted based on the one or more physiological attributes. 14. The person support apparatus of claim 13 , further comprises: one or more load sensors communicatively coupled to the controller and provided at the person support surface, wherein the controller is configured to activate the fluid supply device in response to the load sensor detecting a load above a load threshold. 15. A method comprising: determining a reference line indicating an optimal rate of change, the reference line reaching a steady state at a first time; supplying a fluid to an inlet of a person support surface such that the fluid is circulated to an outlet of the person support surface; detecting an inlet condition value of the fluid at the inlet of the person support surface with an inlet sensor provided within the person support surface at a first end of the person support surface; detecting an outlet condition value of the fluid at the outlet of the person support surface with an outlet sensor provided within the person support surface at a second end of the person support surface opposite the first end of the person support surface; determining a difference between the inlet condition value detected by the inlet sensor and the outlet condition value detected by the outlet sensor; and transmitting a first alert in response to determining that a rate of change of the difference between the inlet condition value and the outlet condition value falls below a lower condition threshold before the first ti