Synchronizing radio communications

The invention claimed is: 1 . A method for synchronizing communications in a radio ranging process, the method comprising: transmitting a succession of calibration signals by radio to a first radio device from a second radio device according to a predetermined schedule of nominal transmission times; determining a plurality of timing offsets for the first radio device and the second radio device, wherein each timing offset is determined by subtracting i) a nominal transmission time for a respective calibration signal of the succession of calibration signals from ii) a time of arrival at the first radio device of the calibration signal, whereby the timing offset represents a time-of-flight for the respective calibration signal plus any transmission delays; identifying a largest timing offset in the plurality of timing offsets for the first radio device and the second radio device; determining a start time for a transmission of an unmodulated-carrier ranging signal by the first radio device by using the identified largest timing offset to adjust a nominal start time for the transmission of the unmodulated-carrier ranging signal to determine a start time for the transmission that is earlier than the nominal start time by an amount at least as large as the largest timing offset in the plurality of timing offsets; and transmitting the unmodulated-carrier ranging signal from the first radio device at the determined start time. 2 . The method of claim 1 , further comprising: determining an end time for the transmission of the unmodulated-carrier ranging signal by the first radio device, by processing the plurality of timing offsets and data representative of a nominal end time for the transmission of the unmodulated-carrier ranging signal to determine an end time for the transmission that is not earlier than the nominal end time by more than a smallest timing offset in the plurality of timing offsets; and ceasing transmitting the unmodulated-carrier ranging signal from the first radio device at the determined end time. 3 . A radio device configured to: receive a succession of calibration signals transmitted by radio to the radio device, according to a predetermined schedule of nominal transmission times, by a second radio device; determine a plurality of timing offsets for the radio device and the second radio device, wherein each timing offset is determined by subtracting i) a nominal transmission time for a respective calibration signal of the succession of calibration signals from ii) a time of arrival at the radio device of the calibration signal, whereby the timing offset represents a time-of-flight for the respective calibration signal plus any transmission delays; identifying a largest timing offset in the plurality of timing offsets for the radio device and the second radio device; determine a start time for a transmission of an unmodulated-carrier ranging signal by the radio device by using the identified largest timing offset to adjust a nominal start time for the transmission of the unmodulated-carrier ranging signal to determine a start time for the transmission that is earlier than the nominal start time by an amount at least as large as the largest timing offset in the plurality of timing offsets; and transmit the unmodulated-carrier ranging signal at the determined start time. 4 . The radio device of claim 3 , further configured to: determine an end time for the transmission of the unmodulated-carrier ranging signal by the radio device, by processing the plurality of timing offsets and data representative of a nominal end time for the transmission of the unmodulated-carrier ranging signal to determine an end time for the transmission that is not earlier than the nominal end time by more than a smallest timing offset in the plurality of timing offsets; and cease transmitting the unmodulated-carrier ranging signal from the radio device at the determined end time. 5 . The radio device of claim 3 , configured to compensate for an internal delay within radio transmission circuitry of the radio device when determining the start time for the transmission. 6 . The radio device of claim 3 , wherein the radio device comprises a correlator or symbol detector, and is configured to receive modulated calibration signals and to use the correlator or symbol detector to determine a time of arrival of each calibration signal. 7 . The radio device of claim 3 , configured to: determine a respective start time for each of a succession of transmissions of unmodulated-carrier ranging signals by the radio device; and transmit the succession of unmodulated-carrier ranging signals at the determined start times. 8 . The radio device of claim 3 , configured to determine the start time as a predetermined function of at least the nominal start time and a largest timing offset in the plurality of timing offsets. 9 . The radio device of claim 3 , configured to subtract, from the nominal start time, a largest timing offset of the plurality of timing offsets plus a constant timing jitter value, when determining the start time. 10 . The radio device of claim 3 , configured to determine the start time in further dependence on a fractional-frequency-offset factor. 11 . The radio device of claim 3 , configured to determine a start time for receiving a ranging signal from the second radio device, by processing the plurality of timing offsets and data representative of data representative of a nominal start time for the reception of the ranging signal to determine a start time that is later than the predetermined nominal start time by at least the largest timing offset in the plurality of timing offsets. 12 . The radio device of claim 11 , further configured to determine an end time for receiving the ranging signal using the identified largest timing offset to adjust a nominal end time for the reception of the ranging signal to determine an end time that is earlier than the nominal end time by an amount at least as large as the largest timing offset in the plurality of timing offsets. 13 . A radio ranging system comprising the radio device according to claim 3 and further comprising said second radio device. 14 . The radio ranging system of claim 13 , wherein the second radio device is configured to: receive a succession of unmodulated-carrier ranging signals from the radio device; and use the succession of unmodulated-carrier ranging signals to determine a range value representative of a distance between the radio device and the second radio device. 15 . The radio ranging system of claim 13 , wherein: the radio device is configured to be a reflector device; the second radio device is configured to be an initiator device; and the radio device is configured to transmit the unmodulated-carrier ranging signal as a ranging response signal in response to receiving a ranging signal from the second radio device. 16 . The radio ranging system of claim 13 , wherein: the radio device is configured to be an initiator device; the second radio device is configured to be a reflector device; and the second radio device is configured to transmit a ranging response signal in response to receiving the unmodulated-carrier ranging signal from the radio device. 17 . A radio device configured to: transmit a plurality of calibration signals by radio to a second radio device; receive a plurality of calibration response signals from the second radio device; determine a plurality of time-of-flight values for the radio device and the second radio device, wherein each time