Techniques and methods for frequency division multiplexed digital beamforming

What is claimed as new and desired to be protected by Letters Patent of the United States is: 1. A system comprising: a first low noise amplifier configured to output a first amplified analog signal based on a received analog antenna signal at a time t 0 ; a second low noise amplifier configured to output a second amplified analog signal based on the received analog antenna signal at a time t 1 ; a local oscillator configured to output a local analog oscillator signal; a signal splitter configured to output a first split analog oscillator signal and a second split analog oscillator signal, the first split analog oscillator signal being based on the local analog oscillator signal, the second split analog oscillator signal being based on the local analog oscillator signal and being different from the first split analog oscillator signal; a first mixer configured to output a first mixed signal based on the first amplified analog signal and the first split analog oscillator signal; a second mixer configured to output a second mixed signal based on the second amplified analog signal and the second split analog oscillator signal; an analog to digital converter configured to output a combined digital signal based on the first mixed signal and the second mixed signal; and a digital channelizer and beam-former configured to output a received signal based on the combined digital signal; wherein said digital channelizer and beam-former comprises: a polyphase filter configured to receive the combined digital signal, to output a first filtered signal having a first frequency and to output a second filtered signal having a second frequency; and a time division multiplexer configured to output beam-formed received signal based on the first filtered signal and the second filtered signal. 2. The system of claim 1 , wherein said digital channelizer and beam-former further comprises an inverse fast Fourier transform component coupled between the polyphaser filter and the time division multiplexer. 3. A method comprising: outputting, via a first low noise amplifier, a first amplified analog signal based on a first received analog driving signal; outputting, via a second low noise amplifier, a second amplified analog signal based on a second received analog driving signal; outputting, via a local oscillator, a local analog oscillator signal; outputting, via a signal splitter, a first split analog oscillator signal and a second split analog oscillator signal, the first split analog oscillator signal being based on the local analog oscillator signal, the second split analog oscillator signal being based on the local analog oscillator signal and being different from the first split analog oscillator signal; outputting, via a first mixer, a first mixed signal based on the first amplified analog signal and the first split analog oscillator signal; outputting, via a second mixer, a second mixed signal based on the second amplified analog signal and the second split analog oscillator signal; outputting, via an analog to digital converter, a combined digital signal based on the first mixed signal and the second mixed signal; and outputting, via a digital channelizer and beam-former, a driving signal based on the combined digital signal; wherein said outputting, via the digital channelizer and beam-former, the driving signal based on the combined digital signal comprises: receiving, via a polyphase filter, the combined digital signal; outputting, via the polyphase filter, a first filtered signal having a first frequency; outputting, via the polyphase filter, a second filtered signal having a second frequency; outputting, via an inverse Fourier transform component, a first transformed signal based on the first filtered signal; outputting, via the inverse Fourier transform component, a second transformed signal based on the second filtered signal; and outputting, via a time division multiplexer, a received signal based on the first transformed signal and the second transformed signal. 4. The method of claim 3 , wherein said outputting, via the inverse Fourier transform component, the second transformed signal based on the second filtered signal comprises outputting the second transformed signal via an inverse fast Fourier transform component.