Apparatus and method for digital beam-forming with low-resolution quantization

The invention claimed is: 1. A base station comprising: a first antenna branch comprising: 1) a first low resolution digital to analog converter (DAC) configured to receive a first digital sequence associated with a first beam direction and convert the received first digital sequence to a first analog signal and 2) at least one antenna that transmits one or more beams in accordance with the beam direction associated with the first digital sequence, and a second antenna branch comprising: 1) a second DAC configured to receive a second digital sequence associated with a second beam direction and convert the received second digital sequence to a second analog signal and 2) at least one antenna that transmits one or more beams in accordance with the beam direction associated with the second digital sequence, wherein each of the first and second DACs has a resolution less than or equal to 8 bits. 2. The base station of claim 1 , wherein each of the first and second DACs has a resolution less than or equal to 5 bits. 3. The base station of claim 1 , wherein the first antenna branch further comprises a first signal modulator for modulating the first analog signal, and the second antenna branch further comprises a second signal modulator for modulating the second analog signal. 4. The base station of claim 1 , wherein the base station is configured to transmit the one or more beams to one or more mobile stations in accordance with spatial division multiple access (SDMA). 5. A base station comprising: a first antenna branch comprising: 1) a first low resolution digital to analog converter (DAC) configured to receive a first digital sequence associated with a first beam direction and convert the received first digital sequence to a first analog signal and 2) at least one antenna that transmits one or more beams in accordance with the beam direction associated with the first digital sequence, a second antenna branch comprising: 1) a second DAC configured to receive a second digital sequence associated with a second beam direction and convert the received second digital sequence to a second analog signal and 2) at least one antenna that transmits one or more beams in accordance with the beam direction associated with the second digital sequence; an encoder configured to generate a digital sequence for each of said first and second antenna branches; a first adder configured to produce the first digital sequence by adding a first dithering sequence to the digital sequence generated by the encoder for said first antenna branch; and a second adder configured to produce the second digital sequence by adding a second dithering sequence to the digital sequence generated by the encoder for said second antenna branch. 6. The base station of claim 5 , wherein the first and second dithering sequences are independently generated and uniformly distributed over the resolution of each DAC. 7. The base station of claim 5 , wherein the first dithering sequence is customized to the digital sequence generated by the encoder for said first antenna branch, and the second dithering sequence is customized to the digital sequence generated by the encoder for said second antenna branch. 8. The base station of claim 5 , wherein the first antenna branch further comprises a first signal modulator for modulating the first analog signal, and the second antenna branch further comprises a second signal modulator for modulating the second analog signal. 9. The base station of claim 5 , wherein the base station is configured to transmit the one or more beams to one or more mobile stations in accordance with spatial division multiple access (SDMA). 10. The base station of claim 5 , wherein each of the first and second DACs has a resolution less than or equal to 8 bits. 11. A method performed by a base station, comprising: receiving, at a first low resolution digital to analog converter (DAC) of a first antenna branch of the base station, a first digital sequence associated with a first beam direction; the first DAC converting the received first digital sequence to a first analog signal; the base station utilizing at least a first antenna to transmit one or more beams in accordance with the beam direction associated with the first digital sequence; receiving, at a second low resolution DAC of a second antenna branch of the base station, a second digital sequence associated with a second beam direction; the second DAC converting the received second digital sequence to a second analog signal; and the base station utilizing at least a second antenna to transmit one or more beams in accordance with the beam direction associated with the second digital sequence, wherein each of the first and second DACs has a resolution less than or equal to 8 bits. 12. The method of claim 11 , wherein each of the first and second DACs has a resolution less than or equal to 5 bits. 13. The method of claim 11 , further comprising modulating the first and second analog signals. 14. A method performed by a base station, comprising: receiving, at a first low resolution digital to analog converter (DAC) of a first antenna branch of the base station, a first digital sequence associated with a first beam direction; the first DAC converting the received first digital sequence to a first analog signal; the base station utilizing at least a first antenna to transmit one or more beams in accordance with the beam direction associated with the first digital sequence; receiving, at a second low resolution DAC of a second antenna branch of the base station, a second digital sequence associated with a second beam direction; the second DAC converting the received second digital sequence to a second analog signal; the base station utilizing at least a second antenna to transmit one or more beams in accordance with the beam direction associated with the second digital sequence; generating a digital sequence for each of said first and second antenna branches; generating the first digital sequence; and generating the second digital sequence, wherein generating the first digital sequence comprises adding a first dithering sequence to the digital sequence generated by an encoder for said first antenna branch; and generating the second digital sequence comprises adding a second dithering sequence to the digital sequence generated by an encoder for said second antenna branch. 15. The method of claim 14 , wherein the first and second dithering sequences are independently generated and uniformly distributed over the resolution of each DAC. 16. The method of claim 14 , wherein the first dithering sequence is customized to the digital sequence generated by the encoder for said first antenna branch, and the second dithering sequence is customized to the digital sequence generated by the encoder for said second antenna branch. 17. The method of claim 14 , further comprising modulating the first and second analog signals. 18. The method of claim 14 , wherein each of the first and second DACs has a resolution less than or equal to 8 bits.