Simultaneous continuous wave signals

What is claimed is: 1. A method to measure relative motion and distance for a target, said method comprising the steps of: transmitting a first continuous wave waveform signal with a narrow bandwidth from a source to the target; transmitting a second signal with a broader bandwidth as a frequency modulated waveform signal from the source to the target, the second signal transmitted simultaneously with said transmitting step of the first signal and impacting the target with the first signal as a single beam from a single antenna; receiving a reflected signal from the target at a detector, the reflected signal including a reflected first signal and a reflected second signal; filtering the reflected first signal from the reflected signal; processing the reflected first signal separately from the reflected second signal to determine a Doppler shift indicative of a relative motion between the source and the target; filtering the reflected second signal from the reflected signal; and processing the reflected second signal to determine a distance between the source and the target. 2. A method to measure relative motion and distance for a target, said method comprising the steps of: transmitting a first signal with a narrow bandwidth from a source to the target; transmitting a second signal with a broader bandwidth from the source to the target, the second signal transmitted simultaneously with said transmitting step of the first signal and impacting the target with the first signal as a single beam as a single beam from a single antenna; receiving a reflected signal from the target at a detector, the reflected signal including a reflected first signal and a reflected second signal; filtering the reflected first signal from the reflected signal; processing the reflected first signal separately from the reflected second signal; filtering the reflected second signal from the reflected signal; and processing the reflected second signal; wherein said step of transmitting the first signal further comprises transmitting a plurality of separate narrowband signals at varying center frequencies; wherein said step of filtering the reflected first signal further comprises filtering each of the plurality of reflected first narrowband signals from the reflected signal; wherein said step of processing the reflected first signal further comprises processing each of the plurality of reflected first narrowband signals separately from the reflected signal. 3. A method to measure relative motion and distance for a target, said method comprising the steps of: transmitting a plurality of narrowband signals simultaneously from a source to the target; receiving a reflected signal from the target at a detector, the reflected signal comprising a plurality of reflected narrowband signals; filtering each one of the reflected first narrowband signals from the reflected signal; and processing each reflected narrowband signal separately subsequent to said filtering step to determine a Doppler shift which reflects an estimate of a relative motion between the source and the target; transmitting a broadband signal from the source to the target, the broadband signal transmitted simultaneously with the plurality of narrowband signals and impacting the target with the plurality of narrowband signals as a single beam as a single beam from a single antenna; and processing the reflected signal comprising only the reflected broadband signal separately from the plurality of filtered reflected narrowband signals to determine a distance between the source and the target; wherein the estimates of the relative motion are averaged to an overall estimate of the relative motion.