Incontinence detection with real time location information

The invention claimed is: 1. A system for detecting and locating an incontinence event comprising a patient support apparatus configured to support a patient thereon, an incontinence detection pad including an absorbent substrate and a condition-responsive sensor coupled to the absorbent substrate and configured to transmit an input signal when moisture is present on the absorbent substrate, the condition-responsive sensor including: (i) a detection grid including a plurality of traces coupled to the substrate and (ii) a radiofrequency identification tag coupled to the detection grid and configured to provide the input signal in response to moisture being present on the detection grid, and an ultra-wideband communication system coupled communicatively with the condition-responsive sensor of the incontinence detection pad and configured to provide a transmission of data signals including: (i) incontinence signals indicative of the incontinence data sensed by the condition-responsive sensor and (ii) location signals indicative of location data of the incontinence detection pad and the patient support apparatus, wherein the ultra-wideband communication system includes an ultra-wideband tag in communication with the condition-responsive sensor and configured to receive the input signal from the radiofrequency identification tag of the condition-responsive sensor, an ultra-wideband reader in wireless communication with the ultra-wideband tag and configured to receive the incontinence signals and location signals from the ultra-wideband tag, and a controller including a microprocessor and a memory storage device storing instructions that when executed by the microprocessor cause the controller to output a command signal to notify a caregiver of the incontinence data and the location data of the incontinence detection pad and the patient support apparatus. 2. The system of claim 1 , wherein the ultra-wideband tag is configured to provide signals to the ultra-wideband reader based on the input signal and the controller is configured to determine a location and an incontinence state of the incontinence detection pad based on the signals provided by the ultra-wideband tag. 3. The system of claim 2 , wherein the ultra-wideband reader and the ultra-wideband tag provide a low-power, high-accuracy location system and the controller is configured to determine the location of the incontinence detection pad based on the signals provided by the ultra-wideband tag with an accuracy of within about a foot of the ultra-wideband tag. 4. The system of claim 1 , wherein the radiofrequency identification tag includes a distinct flap coupled to the patient support apparatus and the distinct flap hangs down below a surface of the patient support apparatus. 5. The system of claim 1 , wherein the radiofrequency identification tag is included in the incontinence detection pad and the incontinence detection pad has an outer dimension that is greater than a corresponding outer dimension of the patient support apparatus so that the ultra-wideband tag hangs below a surface of the patient support apparatus unobstructed from the patient supported by the patient support apparatus. 6. The system of claim 1 , wherein the ultra-wideband communication system is configured to relay the incontinence data and the location data to a network for incorporation into a patient's electronic medical record. 7. A system for detecting and locating an incontinence event comprising a patient support apparatus configured to support a patient thereon, an incontinence detection pad including an absorbent substrate and a condition-responsive sensor coupled to the absorbent substrate and configured to transmit an input signal when moisture is present on the absorbent substrate, the condition-responsive sensor including: (i) a detection grid including a plurality of traces coupled to the substrate and (ii) and an ohmic sensor configured to measure a resistance between at least two traces of the plurality of traces and provide the input signal in response to the resistance reaching a predetermined threshold, and an ultra-wideband communication system coupled communicatively with the condition-responsive sensor of the incontinence detection pad and configured to provide a transmission of data signals including: (i) incontinence signals indicative of the incontinence data sensed by the condition-responsive sensor and (ii) location signals indicative of location data of the incontinence detection pad and the patient support apparatus, wherein the ultra-wideband communication system includes an ultra-wideband tag in communication with the condition-responsive sensor and configured to receive the input signal from the ohmic sensor of the condition-responsive sensor, an ultra-wideband reader in wireless communication with the ultra-wideband tag and configured to receive the incontinence signals and location signals from the ultra-wideband tag, and a controller including a microprocessor and a memory storage device storing instructions that when executed by the microprocessor cause the controller to output a command signal to notify a caregiver of the incontinence data and the location data of the incontinence detection pad and the patient support apparatus, wherein the ultra-wideband tag includes a microprocessor and a memory device storing instructions that, when executed, cause the ohmic sensor to change from a sleep mode, in which the ohmic sensor provides no signals to the ultra-wideband reader, and an active mode, in which the ohmic sensor is awake and provides the input signal so that the ultra-wideband tag provides the incontinence signals to the ultra-wideband reader. 8. The system of claim 7 , wherein the memory device stores instructions that, when executed, cause the ohmic sensor to change from the sleep mode to the active mode about twice every minute. 9. The system of claim 8 , wherein the ultra-wideband tag includes a battery and the ultra-wideband tag is configured to provide battery signals indicative of a charge state of the battery and the controller is configured to determine a useful life of the battery with the incontinence signals and the location signals and output a command signal to cause a notification when the charge state of the battery reaches a predetermined threshold. 10. The system of claim 9 , wherein the battery is configured to be recharged when the controller determines that the charge state of the battery has reached the predetermined threshold. 11. The system of claim 10 , wherein the battery is recharged wirelessly when the controller determines that the charge state of the battery has reached the predetermined threshold. 12. A method comprising providing an incontinence detection pad on a patient support apparatus, the incontinence detection pad including an absorbent substrate and a condition-responsive sensor coupled to the absorbent substrate, the condition-responsive sensor including a detection grid having a plurality of traces extending through the absorbent substrate and a radiofrequency identification tag coupled to the detection grid, sensing for an incontinence event on the patient support apparatus using the condition-responsive sensor, outputting a transmission over an ultra-wideband communication system in response to an input signal from the radiofrequency identification tag of the condition-responsive sensor reaching a threshold indicative of moisture on present on the detection grid, the transmission including a first signal indicative of incontinence data and a second signal indicative of location data of the patient support apparatus, wherein the ultra-wideband communication system includes an