Multi-channel flow sensing

What is claimed is: 1. A system for multi-channel flow sensing, the system comprising: control circuitry for generating at least one control signal to select at least one channel of which a flow rate is to be measured, wherein the selected channel is selected from a group of channels branching from a conduit; a driver for generating at least one stimulus signal; a receiver for receiving at least one response signal; a switch for coupling at least one sensor of the selected channel to the driver and the receiver in response to the control signal from the control circuitry, wherein the coupled sensor is for: propagating the stimulus signal from the driver through a flowing medium of the selected channel, and generating the response signal to the receiver in response to the propagated stimulus signal; and a converter for: periodically sampling the response signal from the receiver at a sampling rate that is sufficient to determine consumption of the flowing medium of the selected channel, and providing an indication of the periodic sampling to a processor for proportional billing in accordance with the indication. 2. The system of claim 1 , wherein: the control circuitry is for generating at least first and second control signals to select at least first and second channels of which respective first and second flow rates are to be measured, wherein the selected first and second channels are selected from the group of channels branching from the conduit; the driver is for generating at least first and second stimulus signals; the receiver is for receiving at least first and second response signals; the switch is for coupling a first sensor of the selected first channel to the driver and the receiver in response to the first control signal from the control circuitry, wherein the coupled first sensor is for: propagating the first stimulus signal from the driver through the flowing medium of the selected first channel, and generating the first response signal to the receiver in response to the propagated first stimulus signal; and the switch is for coupling a second sensor of the selected second channel to the driver and the receiver in response to the second control signal from the control circuitry, wherein the coupled second sensor is for: propagating the second stimulus signal from the driver through the flowing medium of the selected second channel, and generating the second response signal to the receiver in response to the propagated second stimulus signal. 3. The system of claim 2 , wherein the selected first channel is arranged to supply the flowing medium to a first dwelling from the conduit, and wherein the selected second channel is arranged to supply the flowing medium to a second dwelling from the conduit. 4. The system of claim 1 , wherein the coupled sensor includes a first transducer and a second transducer in separate locations that are offset along an axis of travel of the flowing medium of the selected channel, wherein the coupled sensor is for propagating the stimulus signal from the driver via the first transducer through the flowing medium of the selected channel to the second transducer. 5. The system of claim 4 , wherein the flow rate is to be measured by evaluating at least one of: a Doppler shift of the propagated stimulus signal via the first transducer through the flowing medium of the selected channel to the second transducer during a time period; and a time-of-flight of the propagated stimulus signal via the first transducer through the flowing medium of the selected channel to the second transducer during the time period. 6. The system of claim 5 , wherein the coupled sensor is for propagating the stimulus signal from the driver via the second transducer through the flowing medium of the selected channel to the first transducer, wherein the time period is a first time period, and wherein the flow rate is to be measured by evaluating at least one of: a Doppler shift of the propagated stimulus signal via the second transducer through the flowing medium of the selected channel to the first transducer during a second time period; and a time-of-flight of the propagated stimulus signal via the second transducer through the flowing medium of the selected channel to the first transducer during the second time period. 7. The system of claim 6 , wherein the converter is for periodically sampling the response signal from the receiver during a sampling iteration time period that includes the first and second time periods. 8. The system of claim 1 , wherein the processor is for calculating an indication of the flow rate using at least one parameter associated with the selected channel, wherein the parameter includes at least one of: a material of the selected channel; a surface friction of the selected channel; and a diameter of the selected channel. 9. The system of claim 1 , wherein the selected channel is arranged to supply the flowing medium to the conduit. 10. The system of claim 1 , wherein the flowing medium of the selected channel is water. 11. A method of multi-channel flow sensing, the method comprising: generating at least one control signal to select at least one channel of which a flow rate is to be measured, wherein the selected channel is selected from a group of channels branching from a conduit; generating at least one stimulus signal from a driver; receiving at least one response signal with a receiver; with a switch, coupling at least one sensor of the selected channel to the driver and the receiver in response to the control signal; with the coupled sensor, propagating the stimulus signal from the driver through a flowing medium of the selected channel, and generating the response signal to the receiver in response to the propagated stimulus signal; and with a converter, periodically sampling the response signal from the receiver at a sampling rate that is sufficient to determine consumption of the flowing medium of the selected channel, and providing an indication of the periodic sampling to a processor for proportional billing in accordance with the indication. 12. The method of claim 11 , wherein: generating at least one control signal includes generating at least first and second control signals to select at least first and second channels of which respective first and second flow rates are to be measured, wherein the selected first and second channels are selected from the group of channels branching from the conduit; generating at least one stimulus signal includes generating at least first and second stimulus signals; receiving at least one response signal includes receiving at least first and second response signals; a first sensor of the selected first channel is coupled by the switch to the driver and the receiver in response to the first control signal, and a second sensor of the selected second channel is coupled by the switch to the driver and the receiver in response to the second control signal; the first stimulus signal from the driver is propagated by the coupled first sensor through the flowing medium of the selected first channel, and the second stimulus signal from the driver is propagated by the coupled second sensor through the flowing medium of the selected second channel; and the first response signal is generated by the first sensor to the receiver in response to the propagated first stimulus signal, and the second response signal is generated by the second sensor to the receiver in response to the propagated second stimulus signal. 13. The method of claim 12 , wherein the selected first channel is arranged to supply the flowing medium to a first dwelling