Person support apparatuses with acceleration detection

What is claimed is: 1. A person support apparatus comprising: a support surface adapted to support a cushioning structure and a person thereon, the support surface including a first section and a second section, the first section being pivotable between a raised orientation and a lowered orientation; a litter adapted to support the support surface; a first accelerometer positioned below the first section and coupled to the litter such that the first accelerometer does not change orientation when the first section pivots; and a controller in communication with the first accelerometer, the controller adapted to process signals from the first accelerometer to detect a presence or absence of the person on the support surface. 2. The person support apparatus of claim 1 wherein the controller is further adapted to automatically execute a task in response to the presence of the person on the support surface. 3. The person support apparatus of claim 1 further including a second accelerometer positioned below the cushioning structure and coupled to at least one of the support surface and the litter, the controller in communication with the second accelerometer and adapted to utilize information regarding the relative position of the second accelerometer with respect to the first accelerometer to estimate a location on the support surface of a disturbance. 4. The person support apparatus of claim 1 further including a plurality of load cells adapted to support said litter, wherein said controller is in communication with the load cells and uses signals from the load cells and the signals from the first accelerometer to detect the presence or absence of the person on the support surface. 5. A person support apparatus comprising: a support surface adapted to support a person thereon; a litter adapted to support the support surface; a plurality of force sensors adapted to detect a load, the load including the support surface and the person when the person is supported on the support surface; an accelerometer coupled to at least one of the support surface and the litter; and a controller in communication with the accelerometer and the plurality of force sensors, the controller adapted to use an output from the accelerometer to filter an output of at least one of the plurality of force sensors, the controller further adapted to determine if the person has exited the person support apparatus based upon a combination of signals from both the accelerometer and the plurality of force sensors. 6. The person support apparatus of claim 5 wherein the controller is adapted to measure the person's weight based upon outputs from the plurality of force sensors and the controller is further adapted to determine if the measured weight is valid based upon outputs from the accelerometer. 7. The person support apparatus of claim 5 wherein the controller uses a periodic output from the accelerometer to filter the output from the at least one of the plurality of force sensors. 8. The person support apparatus of claim 5 wherein the controller uses a transient output from the accelerometer to filter a contemporaneous portion of the output from the at least one of the plurality of force sensors. 9. The person support apparatus of claim 5 wherein the controller is adapted to measure the person's weight based upon outputs from the plurality of force sensors and the controller is further adapted to use outputs from the accelerometer to determine if the person is present or absent from the person support apparatus. 10. The person support apparatus of claim 5 further comprising: a lift subsystem adapted to raise and lower a height of the support surface; a height sensor adapted to determine a height of the support surface and report the height to the controller; and wherein the controller is adapted to determine an amount of weight exerted on the support surface based on outputs from the plurality of force sensors and the controller is further adapted to determine if a rollover hazard exists based upon the weight exerted on the support surface and the height of the support surface. 11. The person support apparatus of claim 10 wherein the controller is further adapted to determine a center of gravity of the weight exerted on the support surface and use the determined center of gravity when determining if a rollover hazard exists. 12. The person support apparatus of claim 9 wherein the controller is adapted to automatically zero a weight reading from the plurality of force sensors when the person is absent from the person support apparatus. 13. The person support apparatus of claim 9 wherein the controller is adapted to automatically take a tare weight reading from the plurality of force sensors when the person is absent from the person support apparatus. 14. The person support apparatus of claim 13 wherein the controller sends a message to a user interface of the person support apparatus indicating that a tare weight reading has been automatically taken, including a magnitude of the tare weight reading. 15. A person support apparatus comprising: a support surface adapted to support a person thereon; a litter adapted to support the support surface; a plurality of force sensors adapted to detect a load, the load including the support surface and the person when the person is supported on the support surface; an accelerometer coupled to at least one of the support surface and the litter; and a controller in communication with the accelerometer and the plurality of force sensors, the controller adapted to use outputs from the accelerometer to detect an impact against the person support apparatus, compare a magnitude of the detected impact with a threshold, and, if the threshold is exceeded, to issue a warning indicating potential damage to one or more of the plurality of force sensors. 16. The person support apparatus of claim 15 wherein the controller is adapted to determine a weight of the person based upon outputs from the plurality of force sensors. 17. The person support apparatus of claim 16 wherein the controller is further adapted to indicate that the determined weight of the person may be inaccurate due to the impact. 18. The person support apparatus of claim 15 wherein the person support apparatus is a cot. 19. The person support apparatus of claim 15 wherein the plurality of force sensors are load cells. 20. The person support apparatus of claim 15 further including a second accelerometer in communication with the controller, wherein the controller is adapted to estimate a location of the impact based upon the outputs from the accelerometer and second accelerometer.