Auto identification of patient interface based on changes in a pressure support system

What is claimed is: 1 . A method of identifying a patient interface device change in a pressure support system having a controller based on a mask and a headgear worn by a user, wherein a number of force sensors and/or a number of strap distance sensors are associated with the mask and the headgear, the method comprising: (a) determining in the controller, while the mask and headgear are worn by the user, one or more of the following: (i) a total number of leads associated with the number of force sensors, (ii) a strapping force for the mask and headgear based on outputs from the number of force sensors, (iii) a strapping force distribution for the mask and headgear based on the outputs from at least one of the number of force sensors, and (iv) a strapping distance for the mask and headgear based on outputs from the number of strap distance sensors; (b) determining in the controller one or more of the following: (i) a lead change by comparing the determined total number of leads to prestored lead information, (ii) a strapping force change by comparing the determined strapping force to prestored strapping force information, (iii) a strapping force distribution change by comparing the determined strapping force distribution to prestored strapping force distribution information, and (iv) a strapping distance change by comparing the determined strapping distance to prestored strapping distance information; and (c) determining in the controller that the patient interface device change has occurred based on one or more of (i) the determined lead change, (ii) the determined strapping force change, (iii) the determined strapping force distribution change, and (iv) the determined strapping distance change. 2 . The method according to claim 1 , wherein the determining in the controller that the patient interface device change has occurred is based on the determined strapping force change being larger than a first threshold, the determined strapping force distribution change being larger than a second threshold, or the determined strapping distance change being larger than a third threshold. 3 . The method according to claim 1 , wherein (a) comprises determining at least the total number of leads, and wherein (b) comprises determining at least the lead change. 4 . The method according to claim 1 , wherein (a) comprises determining at least the strapping force, and wherein (b) comprises determining at least the strapping force change. 5 . The method according to claim 1 , wherein (a) comprises determining at least the strapping force distribution, and wherein (b) comprises determining at least the strapping force distribution change. 6 . The method according to claim 1 , wherein (a) comprises determining at least the strapping distance, and wherein (b) comprises determining at least the strapping distance change. 7 . The method according to claim 1 , wherein (a) comprises determining two or more of the total number of leads, the strapping force, the strapping force distribution, and the strapping distance, and wherein (b) comprises determining two or more of the lead change the strapping force change, the strapping force distribution change, and the strapping distance change. 8 . The method according to claim 1 , wherein (a) comprises determining three or more of the total number of leads, the strapping force, the strapping force distribution, and the strapping distance, and wherein (b) comprises determining three or more of the lead change the strapping force change, the strapping force distribution change, and the strapping distance change. 9 . The method according to claim 1 , wherein (a) comprises determining all of the total number of leads, the strapping force, the strapping force distribution, and the strapping distance, and wherein (b) comprises determining all of the lead change the strapping force change, the strapping force distribution change, and the strapping distance change. 10 . A pressure support system, comprising: a mask and a headgear, wherein a number of force sensors and/or a number of strap distance sensors are associated with the mask and the headgear; and a controller structured and configured for: (a) determining, while the mask and headgear are worn by the user, one or more of the following: (i) a total number of leads associated with the number of force sensors, (ii) a strapping force for the mask and headgear based on outputs from the number of force sensors, (iii) a strapping force distribution for the mask and headgear based on the outputs from at least one of the number of force sensors, and (iv) a strapping distance for the mask and headgear based on outputs from the number of strap distance sensors; (b) determining one or more of the following: (i) a lead change by comparing the determined total number of leads to prestored lead information, (ii) a strapping force change by comparing the determined strapping force to prestored strapping force information, (iii) a strapping force distribution change by comparing the determined strapping force distribution to prestored strapping force distribution information, and (iv) a strapping distance change by comparing the determined strapping distance to prestored strapping distance information; and (c) determining a patient interface device change has occurred based on one or more of (i) the determined lead change, (ii) the determined strapping force change, (iii) the determined strapping force distribution change, and (iv) the determined strapping distance change. 11 . The pressure support system according to claim 10 , wherein the determining that the patient interface device change has occurred is based on the determined strapping force change being larger than a first threshold, the determined strapping force distribution change being larger than a second threshold, or the determined strapping distance change being larger than a third threshold. 12 . The pressure support system according to claim 10 , wherein (a) comprises determining at least the total number of leads, and wherein (b) comprises determining at least the lead change. 13 . The pressure support system according to claim 10 , wherein (a) comprises determining at least the strapping force, and wherein (b) comprises determining at least the strapping force change. 14 . The pressure support system according to claim 10 , wherein (a) comprises determining at least the strapping force distribution, and wherein (b) comprises determining at least the strapping force distribution change. 15 . The pressure support system according to claim 10 , wherein (a) comprises determining at least the strapping distance, and wherein (b) comprises determining at least the strapping distance change. 16 . The pressure support system according to claim 10 , wherein (a) comprises determining two or more of the total number of leads, the strapping force, the strapping force distribution, and the strapping distance, and wherein (b) comprises determining two or more of the lead change the strapping force change, the strapping force distribution change, and the strapping distance change. 17 . The pressure support system according to claim 10 , wherein (a) comprises determining three or more of the total number of leads, the strapping force, the strapping force distribution, and the strapping distance, and wherein (b) comprises determining three or more of the lead change the strapping force change, the strapping force distribution change, and the strapping distance change. 18 . The pressure support system according to claim 10 whe