Incontinence detection system

We claim: 1. A system for detecting an incontinence event comprising: a pad which is deployable on a mattress and which, as deployed, has a first conductor and a second conductor and in which the first conductor and the second conductor are not in electrical communication with each other; an RFID reader subsystem having a processor and an array of two or more spatially distributed antennas, each member of the antenna array being adapted to radiate and receive electromagnetic energy, the system adapted to: A) command spatially and temporally varying transmission of energy from the antenna array at a variety of powers and at various frequencies, wherein the varying transmissions of energy include transmissions at a high power level, a low power level, and a medium power level that is an average of the high and low power levels, wherein the low power level is half of the high power level; B) monitor the antenna array for a return signal resulting from the spatially and temporally varying transmission, the return signal having an information content which includes a moisture status indicator which indicates whether or not liquid is present on the pad; and C) communicate a WET or DRY status to a destination, the WET or DRY status depending on the moisture status indicator. 2. The system of claim 1 wherein electrical communication is established between the first and second conductors if a meaningful quantity of liquid is present on the pad. 3. The system of claim 1 wherein the processor is adapted to carry out steps A, B, and C. 4. The system of claim 1 wherein: the processor selects a send/receive antenna pair of the antenna array from an ordered list of send/receive antenna pairs, the ordered list defining one member of the pair as a send antenna and the other member of the pair as a receive antenna; the transmission of step A is carried out with the send antenna; the monitoring of step B is carried out with the receive antenna; and the ordered list of antenna pairs includes at least one occurrence of every possible send/receive antenna pairing of the antennas of the antenna array. 5. The system of claim 4 wherein the ordered list of antenna pairs includes a first ordered sublist of antenna pairs and a second ordered sublist of antenna pairs, the ordering of the second sublist differing from the order of the first sublist. 6. The system of claim 5 wherein the ordering of the second sublist is an offset ordering. 7. The system of claim 1 wherein: the processor selects the transmit power to be used at step A from an ordered list of transmit powers, the list including at least one transmit power repetition. 8. The system of claim 1 wherein execution of step A is selectively delayed relative to the immediately preceding execution of step A. 9. The system of claim 1 wherein the indication of WET or DRY is based on a sample of more than one return signal and does not require the state of the moisture status indicator to be the same in all of the return signals of the sample. 10. The detection system of claim 1 wherein the destination comprises one or more of an indicator light and a nurse call system. 11. The detection system of claim 1 comprising multiple pads each having an identity, and wherein the information content of the return signal from each pad includes a pad identifier and the report includes a WET or DRY indication accompanied by the pad identifier. 12. The system of claim 1 wherein the moisture indicator indicates the presence of moisture at the pad if electrical communication is established between the first conductor and the second conductor. 13. The system of claim 12 wherein the moisture indicator indicates absence of moisture at the pad if electrical communication is not established between the first conductor and the second conductor. 14. The system of claim 1 wherein the high, medium, and low power levels are each 1000 milliWatts (mW) or less. 15. A system for detecting an incontinence event comprising: a pad which is deployable on a mattress and which, as deployed, has an open circuit comprised of a first conductor extending from a first terminal of an RFID inlay, and a second conductor extending from a second terminal of the RFID inlay; an RFID reader subsystem having a processor and an array of two or more spatially distributed antennas, each member of the antenna array being adapted to radiate and receive electromagnetic energy, the system adapted to: A) select a first of the antennas as a send antenna and second of the antennas as a receive antenna; B) select a desired transmit power and a desired transmit frequency; C) command transmission of energy from the send antenna at the desired transmit power and at the desired transmit frequency; D) monitor the receive antenna for a return signal resulting from the transmission of energy, the return signal having an information content which includes a moisture status indicator which indicates whether or not liquid is present on the pad; E) communicate a WET or DRY status to a destination, the WET or DRY status depending on the moisture status indicator; F) deselect the first antenna and select an antenna other than the just-deselected first antenna as the send antenna; G) deselect the second antenna and select an antenna other than the just-deselected second antenna as the receive antenna; H) deselect the transmit power and select a power other than the just-deselected transmit power as the desired transmit power; I) deselect the transmit frequency and select a frequency other than the just-deselected transmit frequency as the desired transmit frequency; and J) repeat C through J, wherein the second antenna and the first antenna are not the same antenna. 16. The system of claim 15 wherein the send antenna, the receive antenna, the desired transmit power, and the desired transmit frequency are each selected, in order, from respective lists of send antennas, receive antennas, desired transmit powers, and desired transmit frequencies. 17. The system of claim 15 wherein the send and receive antennas are selected as a pair, in order, from a list of send/receive antennas, the desired transmit power is selected, in order, from a list of desired transmit powers and the desired transmit frequency is selected, in order, from a list of desired transmit frequencies. 18. A system for detecting an incontinence event comprising: a pad which is deployable on a mattress and which, as deployed, has an open circuit comprised of a first conductor extending from a first terminal of an RFID inlay, and a second conductor extending from a second terminal of the RFID inlay; an RFID reader subsystem having a processor and an array of two or more spatially distributed antennas, each member of the antenna array being adapted to radiate and receive electromagnetic energy, the system adapted to: A) select a first of the antennas as a send antenna and second of the antennas as a receive antenna; B) select a desired transmit power and a desired transmit frequency; C) command transmission of energy from the send antenna at the desired transmit power and at the desired transmit frequency; D) monitor the receive antenna for a return signal resulting from the transmission of energy, the return signal having an information content which includes a moisture status indicator which indicates whether or not liquid is present on the pad; E) communicate a WET or DRY status to a destination, the WET or DRY status depending on the moisture status indicator; F) deselect the first antenna and s