Systems and methods for multiple signal reception using receiver diversity

The invention claimed is: 1. A method for multiple signal reception using receiver diversity, the method comprising: (a) receiving respective received signals in a plurality of receivers following transmission of an original signal by a source; (b) calculating an estimate of the original signal using selection combining of the received signals; and (c) calculating an estimate of an angle of arrival of the original signal using the estimate of the original signal, wherein step (c) comprises: (d) computing phase vectors representing phases of the received signals at respective times; and (e) computing an average of consecutive phase differences of the received signals. 2. The method as recited in claim 1 , wherein step (b) comprises selecting a received signal that has the most power. 3. The method as recited in claim 1 , wherein step (e) comprises: computing an average of the phase vectors over time for the signals received by each receiver; and computing an average of consecutive phase differences of the respective average phase vectors. 4. The method as recited in claim 1 , wherein the estimate of the angle of arrival calculated in step (c) is used to locate the source. 5. A system for multiple signal reception using receiver diversity, the system comprising: a plurality of antennas configured to transduce an original signal transmitted as radiation by a source into analog electrical signals; a plurality of receivers respectively connected to receive analog electrical signals from the plurality of antennas and configured to convert the analog electrical signals to digital electrical signals; and a diversity processor connected to receive digital electrical signals from the plurality of receivers and configured to perform operations comprising: (a) calculating an estimate of an original signal using selection combining of the digital electrical signals; and (b) calculating an estimate of an angle of arrival of the original signal using the estimate of the original signal, wherein operation (b) comprises: (c) computing phase vectors representing phases of the received signals at respective times; and (d) computing an average of consecutive phase differences of the received signals. 6. The system as recited in claim 5 , wherein operation (a) comprises selecting a received signal that has the most power. 7. The system as recited in claim 5 , wherein step (d) comprises: computing an average of the phase vectors over time for the signals received by each receiver; and computing an average of consecutive phase differences of the respective average phase vectors. 8. A method for multiple signal reception using receiver diversity, the method comprising: (a) receiving respective received signals in a plurality of receivers following transmission of an original signal by a source; (b) calculating an initial estimate of the original signal using selection combining of the received signals; and (c) calculating an optimized estimate of the original signal using rules of a minimization algorithm and the initial estimate of the original signal, wherein step (c) comprises adjusting successive estimates of the original signal using the rules of the minimization algorithm. 9. A method for multiple signal reception using receiver diversity, the method comprising: (a) receiving respective received signals in a plurality of receivers following transmission of an original signal by a source; (b) calculating an initial estimate of the original signal using selection combining of the received signals; and (c) calculating an optimized estimate of the original signal using rules of a minimization algorithm and the initial estimate of the original signal, wherein step (c) comprises minimizing a function ƒ(z, y, K, W), and the function ƒ(z, y, K, W) takes as input to be optimized an initial signal vector z with parameters being a set of received signal vectors {y i (t)}, a proposed filter length K, and a weight vector W. 10. A method for multiple signal reception using receiver diversity, the method comprising: (a) receiving respective received signals in a plurality of receivers following transmission of an original signal by a source; (b) calculating an initial estimate of the original signal using selection combining of the received signals; (c) calculating an optimized estimate of the original signal using rules of a minimization algorithm and the initial estimate of the original signal; and (d) calculating an estimate of an angle of arrival of the original signal using the optimized estimate of the original signal. 11. The method as recited in claim 10 , wherein step (d) comprises: calculating estimates of optimal channel filter coefficients using the optimized estimate of the original signal; computing phase vectors representing phases of the optimal channel filter coefficients; and computing an average of consecutive phase differences of the optimal channel filter coefficients. 12. The method as recited in claim 10 , wherein the estimate of the angle of arrival calculated in step (d) is used to locate the source. 13. A system for multiple signal reception using receiver diversity, the system comprising: a plurality of antennas configured to transduce an original signal transmitted as radiation by a source into analog electrical signals; a plurality of receivers respectively connected to receive analog electrical signals from the plurality of antennas and configured to convert the analog electrical signals to digital electrical signals; and a diversity processor connected to receive digital electrical signals from the plurality of receivers and configured to perform operations comprising: (a) calculating an initial estimate of the original signal using selection combining of the received signals; and (b) calculating an optimized estimate of the original signal using rules of a minimization algorithm and the initial estimate of the original signal, wherein operation (b) comprises adjusting successive estimates of the original signal using the rules of the minimization algorithm. 14. A system for multiple signal reception using receiver diversity, the system comprising: a plurality of antennas configured to transduce an original signal transmitted as radiation by a source into analog electrical signals; a plurality of receivers respectively connected to receive analog electrical signals from the plurality of antennas and configured to convert the analog electrical signals to digital electrical signals; and a diversity processor connected to receive digital electrical signals from the plurality of receivers and configured to perform operations comprising: (a) calculating an initial estimate of the original signal using selection combining of the received signals; and (b) calculating an optimized estimate of the original signal using rules of a minimization algorithm and the initial estimate of the original signal, wherein operation (b) comprises minimizing a function ƒ(z, y, K, W), and the function ƒ(z, y, K, W) takes as input to be optimized an initial signal vector z with parameters being a set of received signal vectors {y i (t)}, a proposed filter length K, and a weight vector W. 15. A system for multiple signal reception using receiver diversity, the system comprising: a plurality of antennas configured to transduce an original signal transmitted as radiation by a source into analog electrical signals; a plurality of receivers respectively connected to receive analog electrical signals from the plurality of antennas and configured to convert the analog electrical signals to