Determining the distance and/or acoustic quality between a mobile device and a base unit

The invention claimed is: 1. A method of determining the distance and/or acoustic quality between a mobile device having a microphone and a speaker and a base unit comprising a microphone and a speaker, wherein the mobile device is configured to wirelessly communicate with the base unit and the base unit is configured to connect to a remote monitoring station via a communication network, the method comprising: receiving an acoustic signal by a microphone in one of said mobile device and base unit; with a processor: determining coefficients of an adaptive filter for removing a second signal from the received acoustic signal, the second signal corresponding to (a) an acoustic signal received by the microphone in the other one of said mobile device and base unit, or (b) a control signal used to control the speaker in the other one of said mobile device and base unit to output the acoustic signal, and determining the acoustic quality and/or the distance between the mobile device and the base unit based the determined coefficients. 2. The method as claimed in claim 1 , wherein the acoustic signal received by the microphone in said one of said mobile device and base unit is received from the speaker in the other one of said mobile device and base unit, wherein the speaker outputs the acoustic signal in response to a control signal. 3. The method as claimed in claim 2 , the method further comprising the step of: controlling the speaker in said one of said mobile device and base unit to also output the acoustic signal; wherein the step of receiving an acoustic signal by the microphone in one of said mobile device and base unit comprises receiving the acoustic signal from the speaker in said mobile device and said base unit. 4. The method as claimed in claim 3 , wherein the step of determining the acoustic quality and/or the distance between the mobile device and the base unit comprises: detecting a first peak in the result of the step of determining corresponding to the acoustic signal from the speaker in said one of said mobile device and base unit and a second peak corresponding to the acoustic signal from the speaker in said other one of said mobile device and base unit and determining the distance between the mobile device and the base unit from the distance between the first and second peaks in the result of the step of determining; and/or determining the acoustic quality between the mobile device and the base unit from (i) the ratio of the magnitudes of the detected peaks; (ii) the dispersion around the second peak; and/or (iii) the reverberation time around the second peak. 5. The method as claimed in claim 2 , wherein the step of determining the acoustic quality or distance comprises determining the acoustic quality between the mobile device and the base unit from (i) a dispersion around a detected peak; and/or (ii) a reverberation time around a detected peak. 6. A method of reducing power consumption of a mobile device having a microphone, a speaker, and an RF transmitter and receiver, the mobile device being configured to wirelessly communicate via the RF transmitter and receiver with a base device, the base device having a microphone, a speaker, and an RF transmitter and receiver which is configured to communicate with the mobile device RF transmitter and receiver and with a remote monitoring station, the method comprising: with the microphone in one of said mobile device and base device, receiving an acoustic signal; with a processor in one of the mobile device and the base device: determining a correlation of a second signal with the received acoustic signal, the second signal corresponding to (a) an acoustic signal received by the microphone in the other one of said mobile device and the base device, or (b) a control signal used to control the speaker in the other one of said mobile device and the base device to output the acoustic signal, determining the acoustic quality and/or the distance between the mobile device and the base device based on the correlation, and deactivating a speaker of the mobile device in response to determining that the mobile device is closer than a threshold distance to the base device or the acoustic quality is greater than a threshold value. 7. The method as claimed in claim 6 , wherein determining the correlation includes: with the processor, determining coefficients of an adaptive filter which cancels the second signal from the received acoustic signal. 8. The method as claimed in claim 6 , wherein the step of determining the acoustic quality or distances comprises determining the acoustic quality between the mobile device and the base device from at least one of (i) a dispersion around a detected peak; or (ii) a reverberation time around the detected peak. 9. The method as claimed in claim 6 , wherein the speaker of the mobile device is deactivated in response to determining that the acoustic quality is greater than the threshold value. 10. A system, comprising: a mobile device having a microphone and a speaker; a base device having a microphone and a speaker; wherein one of the mobile device and base unit is arranged to receive, by its microphone, an acoustic signal; a processor configured to: determine a correlation of a second signal with the received acoustic signal, the second signal corresponding to (a) an acoustic signal received by the microphone in the other one of said mobile device and base device, or (b) a control signal used to control the speaker in the other one of said mobile device and base device to output the acoustic signal; and determine the acoustic quality and/or the distance between the mobile device and the base device based on at least one of (i) a dispersion around a detected peak and (ii) a reverberation time around the detected peak. 11. The system as claimed in claim 10 , wherein determining the correlation between the second signal and the received acoustic signal includes, with the processor, determining coefficients of an adaptive filter for removing the second signal from the received acoustic signal. 12. The system as claimed in claim 11 , wherein the acoustic signal received by the microphone in one of the mobile device and the base device is received from the speaker in the other of the mobile device and the base device, the speaker being configured to output the acoustic signal in response to a control signal. 13. The system as claimed in claim 12 , wherein the processor is further configured to control the speaker in one of the mobile device and the base device is configured to output the acoustic signal, and wherein the acoustic signal received by the microphone in one of the mobile device and the base device includes receiving the acoustic signal from the speaker in the other of the mobile device and the base device. 14. The system as claimed in claim 13 , wherein the processor is further configured to determine the acoustic quality and/or distance by: detecting a first peak in a result of determining a first peak resulting from correlating the acoustic signal received by the speaker of one of the mobile device and the base device and a second peak corresponding to an acoustic signal received by the speaker of the other of the mobile device and the base device. 15. The system as set forth in claim 14 , wherein the processor is further configured to: when determining the acoustic quality, determining at least one of (i) a ratio of magnitudes of the first and second peaks, (ii) dispersion around the second peak, and (iii) the reverberation time around the second peak. 16. The system as claimed in c