Power control for improved near-far performance of radar systems

The invention claimed is: 1. A radar sensing system for a vehicle, the radar sensing system comprising: at least one transmitter configured for installation and use on a vehicle, and operable to transmit a radio frequency (RF) signal, wherein the at least one transmitter is further operable to power shape the transmitted RF signal, and wherein the transmitted RF signal decreases in power over a plurality of time intervals, and wherein the RF signal is a continuous wave RF signal, such that the continuous wave RF signal decreases in power over a plurality of sinusoidal periods; at least one receiver configured for installation and use on the vehicle, and operable to receive a reflected RF signal, wherein the reflected RF signal is the transmitted RF signal reflected from targets in the environment; wherein the reflected RF signal is down-converted and the result provided to a processor; wherein the processor samples the down-converted reflected RF signal to produce a sampled stream; wherein the processor is operable to process the sampled stream during the plurality of time intervals, and wherein different time intervals of the plurality of time intervals will contain different signal levels of RF signals reflected from near and far targets in the environment, and wherein the far targets are farther than a first threshold distance from the vehicle and the near targets are closer than the first threshold distance from the vehicle; and wherein the processor is further operable to select samples in the sampled stream over a selected time interval of the plurality of time intervals that is free of RF signals reflected off of the near targets. 2. The radar sensing system of claim 1 , wherein signal processing of RF signals reflecting from near targets occurs during a first time interval of the plurality of time intervals, and wherein signal processing of RF signals reflecting from far targets occurs during a second time interval of the plurality of time intervals that is after the first time interval. 3. The radar sensing system of claim 2 , wherein during the first time interval, the transmitted RF signal is decreasing in power, and during the second time interval, there is no transmitted RF signal. 4. The radar sensing system of claim 3 , wherein during the first time interval the at least one receiver ignores the reflected RF signal, and during the second time interval the at least one receiver receives the reflected RF signal. 5. The radar sensing system of claim 2 , wherein the at least one transmitter is further operable to pulse the transmitted RF signal with a plurality of duty cycles and to turn the transmitter ON and OFF in a plurality of time intervals, wherein the at least one transmitter pulses with a certain duty cycle in the first time interval, and wherein the at least one transmitter is turned OFF during the second time interval after the first time interval. 6. The radar sensing system of claim 5 , wherein during the first time interval the at least one receiver ignores the reflected RF signal, and during the second time interval the at least one receiver receives the reflected RF signal. 7. The radar sensing system of claim 2 , wherein during the first time interval, the sampled stream contains RF signals reflected from a first near target, and wherein during the second time interval, the sampled stream contains RF signals reflected from a first far target that are smaller than the RF signals reflected from the first near target. 8. The radar sensing system of claim 7 , wherein the RF signals reflected from the first near target are not large enough to interfere with RF signals reflected from the first far target. 9. The radar sensing system of claim 2 , wherein during the first time interval of the plurality of time intervals, RF signals reflected from near targets are processed for range bins for a first distance range, and wherein during the second time interval of the plurality of time intervals, RF signals reflected from far targets are processed for range bins for a second distance range, wherein at least a portion of the second distance range is farther way than the first distance range. 10. The radar sensing system of claim 2 , wherein during the first time interval of the plurality of time intervals, the receiver is turned OFF and the reflected RF signals are ignored, and wherein during the second time interval of the plurality of time intervals after the first time interval, the receiver is turned ON and the reflected RF signals are processed for range bins for 26-300 meters. 11. The radar sensing system of claim 1 , wherein the at least one transmitter is further operable to pulse the transmitted RF signal with a plurality of duty cycles. 12. The radar sensing system of claim 1 , wherein the processor is further operable to select a time interval of the plurality of time intervals to process a selected plurality of range bins. 13. The radar sensing system of claim 1 , wherein the reflected RF signal decreases in power over a plurality of time intervals, responsive to the transmitted RF signal decreasing in power over a plurality of time intervals, such that near and far targets have a similar RCS. 14. A radar sensing system for a vehicle, the radar sensing system comprising: at least one transmitter configured for installation and use on a vehicle, and operable to transmit a radio frequency (RF) signal, wherein the at least one transmitter is further operable to transmit the RF signal on a selected frequency during a selected time interval of a plurality of time intervals and to transmit the RF signal on another selected frequency during another selected time interval of the plurality of time intervals, and wherein the RF signal is a phase-modulated continuous wave RF signal; at least one receiver configured for installation and use on the vehicle, and operable to receive a reflected RF signal, wherein the reflected RF signal is the transmitted RF signal reflected from objects in the environment; wherein the reflected RF signal is down-converted and the result provided to a processor; wherein the processor samples the down-converted reflected RF signal to produce a sampled stream; wherein the processor is operable to process the sampled stream during the plurality of time intervals, and wherein different time intervals of the plurality of time intervals will contain different signal levels of RF signals reflected from near and far targets in the environment, and wherein the far targets are farther than a first threshold distance from the vehicle and the near targets are closer than the first threshold distance from the vehicle; and wherein the processor is further operable to select samples in the sampled stream from a selected time interval of the plurality of time intervals that is free of RF signals reflected off of the near targets. 15. The radar sensing system of claim 14 , wherein signal processing of RF signals reflecting from near targets occurs during a first time interval of the plurality of time intervals, and wherein signal processing of RF signals reflecting from far targets occurs during a second time interval of the plurality of time intervals that is after the first time interval. 16. The radar sensing system of claim 15 , wherein the at least one transmitter is further operable to transmit the RF signal on a first frequency during the first time interval and transmit the RF signal on a second frequency during the second time interval, and wherein the at least one receiver is operable to receive the reflected RF signal on the first frequency during the second ti