Incontinence detection pad validation apparatus and method

The invention claimed is: 1. An incontinence detection system comprising: an incontinence detection pad for placement beneath a person to be monitored, the incontinence detection pad having a pad radio frequency identification (RFID) tag, a reader, and an antenna coupled to the reader, wherein the reader is configured to transmit via the antenna a select broadcast containing a pad-specific authentication code to a plurality of receiving devices within a reception range of the reader and capable of radio frequency (RF) communication within the reception range of the reader, at least some of the receiving devices including communication circuitry having a select function and that do not have the pad-specific authentication code stored therein such that the receiving devices not having the pad-specific authentication code will not, thereafter, respond to any requests from the reader for a predetermined amount of time, wherein only authorized incontinence detection pads with the pad-specific authentication code stored therein will respond to subsequent requests from the reader for the predetermined amount of time, wherein the antenna comprises a plurality of antennae and the reader includes a bistatic radio frequency (RF) switch matrix which is operable to establish a first antenna of the plurality of antennae as a transmit antenna that is used to wirelessly energize the RFID tag and to establish a second antennae of the plurality of antennae as a receive antenna that is used to read backscattered data emitted from the RFID tag. 2. The incontinence detection system of claim 1 , wherein the predetermined amount of time lasts for a threshold amount of time. 3. The incontinence detection system of claim 2 , wherein the threshold amount of time lasts until another select broadcast is transmitted to reset the threshold amount of time. 4. The incontinence detection system of claim 1 , wherein the RFID tag comprises a passive RFID tag. 5. The incontinence detection system of claim 1 , wherein the authentication code comprises an electronic product code (EPC) code. 6. The incontinence detection system of claim 1 , wherein the incontinence detection pad comprises a fluid resistant backsheet layer to which the RFID tag is coupled, at least two conductive traces on the backsheet layer and electrically coupled to the RFID tag, a fluid permeable topsheet layer, and an absorbent core situated between the topsheet layer and the backsheet layer. 7. The incontinence detection system of claim 6 , wherein the conductive traces comprise conductive ink printed on the backsheet layer. 8. The incontinence detection system of claim 1 , wherein the reader is operable to send a request to the RFID tag via at least one antenna of the plurality of antennae and to read via at least one other antenna of the plurality of antennae data emitted from the RFID tag in response to the request, the reader is configured to confirm that the incontinence detection pad is an authorized incontinence detection pad by determining that the data received from the RFID tag includes the authentication code, wherein the reader is configured to transmit a message indicating that the authorized incontinence detection pad is wet if the data received from the RFID tag indicates that the incontinence detection pad is wet, and wherein the reader does not transmit the message if the data does not include the authentication code. 9. The incontinence detection system of claim 8 , wherein the RFID tag comprises a passive RFID tag that emits the data as backscattered data. 10. The incontinence detection system of claim 9 , wherein the backscattered data includes pad status data indicating whether the incontinence detection pad is dry or wet. 11. The incontinence detection system of claim 9 , wherein the backscattered data further includes a tag identification (ID) for the passive RFID tag. 12. The incontinence detection system of claim 8 , further comprising a patient bed having a frame and a mattress support deck carried by the frame, the reader being coupled to the frame, the plurality of antennae being coupled to the mattress support deck so as to be closer to a first side of the mattress support deck than an opposite second side of the mattress support deck. 13. The incontinence detection system of claim 1 , wherein the plurality of antennae include a third antenna and a fourth antenna each of which are selected as a transmit antenna and a read antenna by the bistatic RF switch matrix at different times, wherein during a full cycle scanning mode, the transmit antenna and receive antenna combinations that produce valid reads of the RFID tag are stored, wherein a modified cycle scanning mode is then determined for operation of the bistatic RF switch matrix based on the valid reads such that only transmit antenna and receive antenna combinations that produced valid reads are cycled through for a predetermined number of cycles, after which the bistatic RF switch matrix is once again operated in the full cycle scanning mode. 14. The incontinence detection system of claim 13 , wherein if no valid reads of the passive RFID tag are detected during the full cycle scanning mode, then the bistatic RF switch matrix continues to operate in the full cycle scanning mode until at least one valid read is detected, after which the bistatic RF switch matrix is operated in the modified cycle scanning mode. 15. The incontinence detection system of claim 1 , wherein the plurality of antennae are operated by the reader by transmitting using a frequency hopping scheme at a power less than or equal to 1 Watt (W). 16. The incontinence detection system of claim 15 , wherein the frequency hopping scheme uses 50 distinct frequencies, with each frequency being used only once in a pseudo-random order before any of the 50 frequencies are repeated. 17. The incontinence detection system of claim 16 , wherein the 50 frequencies lie within a range between about 902 MegaHertz (MHz) and about 928 MHz. 18. The incontinence detection system of claim 1 , wherein each antenna of the plurality of antennae comprises a ½ wave ceramic patch antenna. 19. An incontinence detection system comprising: an incontinence detection pad for placement beneath a person to be monitored, the incontinence detection pad having a pad radio frequency identification (RFID) tag, a reader, an antenna coupled to the reader, wherein the reader is configured to transmit via the antenna a select broadcast containing a pad-specific authentication code to a plurality of receiving devices within a reception range of the reader and capable of radio frequency (RF) communication within the reception range of the reader, at least some of the receiving devices including communication circuitry having a select function and that do not have the pad-specific authentication code stored therein such that the receiving devices not having the pad-specific authentication code will not, thereafter, respond to any requests from the reader for a predetermined amount of time, wherein only authorized incontinence detection pads with the pad-specific authentication code stored therein will respond to subsequent requests from the reader for the predetermined amount of time, wherein the antenna comprises a plurality of antennae, the reader is operable to send a request to the RFID tag via at least one antenna of the plurality of antennae and to read via at least one other antenna of the plurality of antennae data emitted from the RFID tag in response to the request, the reader is configured to confirm that t