Ultrasound ranging for mobile devices

What is claimed is: 1. A mobile device comprising: an ultrasound transmitter configured to emit a first ultrasound signal to a proximate device; an RF transmitter configured to transmit an RF signal to the proximate device; one or more ultrasound receivers configured to receive a second ultrasound signal from the proximate device subsequent to transmitting the first ultrasound signal; and a processor configured to: determine a range of the proximate device based on a time lapse associated with the second ultrasound signal and independent of the first ultrasound signal; and determine an orientation of the mobile device relative to the proximate device. 2. The mobile device of claim 1 , the processor further configured to: detect occupancy in a frequency band or channel; in accordance with a determination that the detected occupancy in the frequency band or channel exceeds a threshold occupancy, switch to a new frequency band or channel from a current frequency band or channel; and in accordance with a determination that the detected occupancy in the frequency band or channel does not exceed the threshold occupancy, the ultrasound transmitter configured to transmit the first ultrasound signal over the current frequency band or channel. 3. The mobile device of claim 2 , further comprising: in accordance with a determination that the detected occupancy in the frequency band or channel exceeds the threshold occupancy, the RF transmitter configured to communicate the new frequency band or channel to the proximate device; and the ultrasound transmitter configured to transmit the first ultrasound signal over the new frequency band or channel. 4. The mobile device of claim 1 , wherein the second ultrasound signal is encoded with a time of transmission of the second ultrasound signal, the processor further configured to: determine the range based on a time lapse between a time of receipt of the second ultrasound signal and the time of transmission of the second ultrasound signal. 5. The mobile device of claim 1 , the processor further configured to: determine the range based on a time lapse between time of transmission of the second ultrasound signal and time of receipt of the second ultrasound signal. 6. The mobile device of claim 1 , the processor further configured to: determine the range based on a time lapse between time of receipt of the second ultrasound signal and time of receipt of an RF signal received from the proximate device. 7. The mobile device of claim 1 , further comprising: an electromagnetic transmitter configured to transmit an electromagnetic wave to the proximate device to synchronize a clock of the mobile device with a clock of the proximate device so as to accurately calculate the time lapse. 8. A method comprising: receiving an ultrasound signal at a mobile device from a proximate device; recording a time of receipt of the ultrasound signal from the proximate device at the mobile device; receiving an RF signal at the mobile device from the proximate device; recording a time of receipt of the RF signal from the proximate device at the mobile device; calculating a range of the proximate device at the mobile device based on a time lapse between the time of receipt of the ultrasound signal and the time of receipt of the RF signal; sharing the calculated range with a plurality of other proximate devices; and mapping at least one of a three-dimensional orientation and location of the proximate device and the plurality of other proximate devices. 9. A method comprising: detecting occupancy in a frequency band or channel; in accordance with a determination that the detected occupancy in the frequency band or channel exceeds a threshold occupancy, switching to a new frequency band or channel from a current frequency band or channel; in accordance with a determination that the detected occupancy in the frequency band or channel does not exceed the threshold occupancy, transmitting a first ultrasound signal over the current frequency band or channel from a mobile device to a proximate device; recording a time of transmission of the first ultrasound signal at the mobile device; receiving a second ultrasound signal at the mobile device from the proximate device in response to the proximate device receiving the first ultrasound signal; recording a time of receipt of the second ultrasound signal from the proximate device at the mobile device; calculating a range of the proximate device at the mobile device based on a time lapse between the time of transmission of the first ultrasound signal and the time of receipt of the second ultrasound signal sharing the calculated range with a plurality of other proximate devices; and mapping at least one of a three-dimensional orientation and location of the proximate device and the plurality of other proximate devices. 10. The method of claim 9 , further comprising; in accordance with a determination that the detected occupancy in the frequency band or channel exceeds the threshold occupancy, transmitting an RF signal to communicate the new frequency band or channel to the proximate device; and transmitting the first ultrasound signal over the new frequency band or channel.