Radar system with phase based multi-target detection

I claim: 1. A radar system comprising: a plurality of antennas configured to detect a reflected radar signal reflected by an object in a field-of-view of the system, wherein each antenna of the plurality of antennas is configured to output a detected signal indicative of the reflected radar signal detected by each of the antenna; and a controller configured to receive the detected signals from the plurality of antennas, determine if a target is present in the field-of-view based on the detected signals, determine a frequency profile of each of the detected signals from each of the antenna, wherein the frequency profile is characterized by values stored in an array of frequency bins, and determine a phase difference of each frequency profile at two distinct frequencies of an antenna, wherein the phase difference is determined based on a difference between a first phase value associated with a first frequency bin of the array, and a second phase value associated with a second frequency bin of the array, and determine if the target includes more than one object based on an analysis of phase differences of the frequency profile of each the detected signals. 2. The system in accordance with claim 1 , wherein the frequency profile is characterized as a range profile based on a frequency transformation of a time-domain sample of the detected signal from one antenna. 3. The system in accordance with claim 1 , wherein the frequency profile is characterized as a Doppler profile based on a frequency transformation of a time-domain sample of the detected signal from one antenna. 4. The system in accordance with claim 1 , wherein a reference frequency bin is associated with a maximum amplitude value, the first frequency bin is adjacent to the reference frequency bin and associated with a lower frequency than the reference frequency bin, and the second frequency bin is adjacent to the reference frequency bin and associated with a higher frequency than the reference frequency bin. 5. The system in accordance with claim 1 , wherein the controller is further configured to determine a phase slope based on a trend in the phase difference versus a relative position of each antenna, and indicate that the target includes more than one object if the phase slope has a magnitude greater than a slope threshold. 6. The system in accordance with claim 1 , wherein the controller is further configured to determine a phase variation based on changes in the phase difference versus a relative position of each antenna, and indicate that the target includes more than one object if the phase variation is greater than a variation threshold. 7. A controller for a radar system, said controller comprising: a receiver configured to receive detected signals from a plurality of antennas configured to detect a reflected radar signal reflected by an object in a field-of-view of the system, wherein each antenna of the plurality of antennas is configured to output a detected signal indicative of the reflected radar signal detected by each of the antenna; and a processor configured to receive the detected signals from the plurality of antennas, determine if a target is present in the field-of-view based on the detected signals, determine a frequency profile of each of the detected signals from each of the antenna, wherein the frequency profile is characterized by values stored in an array of frequency bins, and determine a phase difference of each frequency profile at two distinct frequencies of an antenna, wherein the phase difference is determined based on a difference between a first phase value associated with a first frequency bin of the array, and a second phase value associated with a second frequency bin of the array, and determine if the target includes more than one object based on an analysis of phase differences of the frequency profile of each the detected signals. 8. A method of operating a radar system comprising: receiving detected signals from a plurality of antennas configured to detect a reflected radar signal reflected by an object in a field-of-view of the antennas, wherein each antenna of the plurality of antennas is configured to output a detected signal indicative of the reflected radar signal detected by each of the antenna; and determining if a target is present in the field-of-view based on the detected signals; determining a frequency profile of each of the detected signals from each of the antenna, wherein the frequency profile is characterized by values stored in an array of frequency bins, and determining a phase difference of each frequency profile at two distinct frequencies of an antenna, wherein the phase difference is determined based on a difference between a first phase value associated with a first frequency bin of the array, and a second phase value associated with a second frequency bin of the array, and determining if the target includes more than one object based on an analysis of phase differences of the frequency profile of each the detected signals. 9. The method in accordance with claim 8 , wherein the frequency profile is characterized as a range profile based on a frequency transformation of a time-domain sample of the detected signal from one antenna. 10. The method in accordance with claim 8 , wherein the frequency profile is characterized as a Doppler profile based on a frequency transformation of a time-domain sample of the detected signal from one antenna. 11. The method in accordance with claim 8 , wherein a reference frequency bin is associated with a maximum amplitude value, the first frequency bin is adjacent to the reference frequency bin and associated with a lower frequency than the reference frequency bin, and the second frequency bin is adjacent to the reference frequency bin and associated with a higher frequency than the reference frequency bin. 12. The method in accordance with claim 8 , wherein the method includes determining a phase slope based on a trend in the phase difference versus a relative position of each antenna, and indicating that the target includes more than one object if the phase slope has a magnitude greater than a slope threshold. 13. The method in accordance with claim 8 , wherein the method includes determining a phase variation based on changes in the phase difference versus a relative position of each antenna, and indicating that the target includes more than one object if the phase variation is greater than a variation threshold.