Frequency-Modulated-Continuous-Wave (FMCW) radar with timing synchronization

The invention claimed is: 1. A method of synchronizing clocks of Frequency-Modulated-Continuous-Wave (FMCW) radar units, the method comprising: transmitting a first signal of a first FMCW radar unit, a frequency of the first signal varying over a first frequency range around a first baseband frequency; receiving a second signal at the first FMCW radar unit, a frequency of the second signal varying over a second frequency range around a second baseband frequency; determining values of a plurality of parameters including a first timing offset of the first FMCW radar unit based on a digital difference signal between the first and second signals, wherein the first timing offset comprises a first time-of-flight delay and a first clock offset of the first FMCW radar unit at a first time; receiving a second timing offset of a second FMCW radar unit, wherein the second timing offset of the second FMCW radar unit comprises a second time-of-flight delay and a second clock offset at a second time; determining a third clock offset based on a difference between the first timing offset and the second timing offset; and synchronizing a clock of the first FMCW radar unit with a clock of the second FMCW radar unit based on the third clock offset. 2. The method of claim 1 , wherein determining the values of the plurality of parameters based on the digital difference signal comprises: selecting a first subsample of a total sample of the digital difference signal, wherein the subsample is less than the total sample; and determining a value of the first timing offset of the plurality of parameters by performing a one-dimensional search of the first subsample, the first subsample selected such that effects of other parameters of the plurality of parameters on the first subsample are small compared to an effect of the first timing offset on the first subsample. 3. The method of claim 2 , wherein determining the values of the plurality of parameters based on the digital difference signal further comprises: responsive to determining the value of the first timing offset, determining a value of a second parameter of the plurality of parameters by performing a second one-dimensional search of the first subsample. 4. The method of claim 1 , wherein the plurality of parameters comprises one or more of the first timing offset, a clock skew, a relative velocity, the second baseband frequency, and an analog-to-digital converter (ADC) measurement offset. 5. The method of claim 1 , wherein a distance between the first and second FMCW radar units is changing over time. 6. The method of claim 1 , further comprising: transmitting the first timing offset of the first FMCW radar unit to the second FMCW radar unit. 7. The method of claim 1 , further comprising: transmitting data of the first FMCW radar unit by including phase bits at regular intervals in the first signal. 8. The method of claim 1 , further comprising: communicating data between the first FMCW radar unit and the second FMCW radar unit by: generating a plurality of phase bits at regular intervals in the first signal; and determining a plurality of phase bits of the second signal by a product of a calculated output of the ADC and an actual output of the ADC. 9. A Frequency-Modulated-Continuous-Wave (FMCW) radar device, the device comprising: a clock to drive an oscillator, wherein the oscillator is configured to transmit a first signal from an RF antenna, and wherein a frequency of the first signal varies over a first frequency range around a first baseband frequency; a mixer configured to receive a second signal from the RF antenna and generate a difference signal based on the first signal and the second signal, wherein a frequency of the second signal varies over a second frequency range around a second baseband frequency; an analog-to-digital converter configured to generate a digital difference signal based on the difference signal generated by the mixer; and a signal processing unit, wherein the signal processing unit is configured to: determine values of a plurality of parameters including a first timing offset based on the digital difference signal, wherein the first timing offset comprises a first time-of-flight delay and a first clock offset of the first FMCW radar unit at a first time; receive a second timing offset of a second FMCW radar unit, wherein the second timing offset of the second FMCW radar unit comprises a second time-of-flight delay and a second clock offset at a second time; determine a third clock offset based on a difference between the first timing offset and the second timing offset; and synchronize the clock with a clock of the second FMCW radar unit based on the third clock offset. 10. The device of claim 9 , wherein the signal processing unit is further configured to transmit the first timing offset. 11. The device of claim 9 , wherein the plurality of parameters comprises one or more of the first timing offset, a clock skew, a relative velocity, the second baseband frequency, and an ADC measurement offset. 12. The device of claim 9 , wherein a distance between the FMCW radar device and the second FMCW radar unit is changing over time. 13. The device of claim 12 , wherein an uncertainty of the third clock offset is equal to or less than ten picoseconds (ps), and wherein the uncertainty of the third clock offset is a difference in synchronization between the clocks of the first and second FMCW radar units. 14. A Frequency-Modulated-Continuous-Wave (FMCW) radar system, the system comprising: a plurality of FMCW radar units, wherein each FMCW radar unit of the plurality of FMCW radar units comprise: a clock configured to drive an oscillator, wherein the oscillator is configured to transmit a first signal from an RF antenna, and wherein a frequency of the first signal varies over a first frequency range around a first baseband frequency; a mixer configured to receive a second signal from the RF antenna and generate a difference signal based on the first signal and the second signal, wherein a frequency of the second signal varies over a second frequency range around a second baseband frequency; an analog-to-digital converter (ADC) configured to generate a digital difference signal based on the difference signal generated by the mixer; and a signal processing unit, wherein the signal processing unit is configured to: determine values of a plurality of parameters including a first timing offset based on the digital difference signal, wherein the first timing offset comprises a first time-of-flight delay and a first clock offset at a first time; receive a second timing offset, wherein the second timing offset comprises a second time-of-flight delay and a second clock offset at a second time; determine a third clock offset based on a difference between the first timing offset and the second timing offset; and synchronize the clock with the third clock offset. 15. The system of claim 14 , wherein the signal processing unit is further configured to transmit the first timing offset to another FMCW radar unit of the plurality of FMCW radar units. 16. The system of claim 14 , wherein the signal processing unit of each FMCW radar unit is configured to communicate with another FMCW radar unit of the plurality of FMCW radar units comprises generating phase bits in the first signal and determining phase bits of the second signal by a product of a calculated output of the ADC and an actual output of the ADC. 17. The system of claim 16 , wherein determining the phase bits of the second signal by the p