Phased array beam tracking using beam gain coding

1 . A system for phased array signal beam tracking, comprising: a phased array transmitter configurable for transmitting a signal beam at a selected transmit beam angle from a plurality of different transmit beam angles; and a beam gain angle coding assembly configured for modulation of a gain of the signal beam to produce a resulting gain profile of the signal beam, the resulting gain profile comprising offset angle coding that indicates an offset incident angle of the signal beam to be received by a receiving antenna, wherein the phased array transmitter is at a different location from the receiving antenna. 2 . The system of claim 1 , further comprising: a first receiver to receive the signal beam; and a correlator to cross-correlate the resulting gain profile or waveform of the received signal beam against a plurality of angle coded waveforms to determine an offset incident angle of the received signal beam, each angle coded waveform corresponds to a respective one of a plurality of different offset incident angles of an incident signal beam, wherein the offset incident angle of the received signal beam corresponds to an angle coded waveform of the plurality of angle coded waveforms with a highest correlation to the waveform of the received signal beam. 3 . The system of claim 2 , further comprising: a module configured to determine an angle error, wherein the angle error is a difference between an actual angle of incidence of the received signal beam and the offset incident angle of the received signal beam; and a transmitter to transmit the angle error to a second receiver associated with the phased array transmitter, the angle error being used to steer the phased array transmitter. 4 . The system of claim 3 , wherein the angle error is added to information that is being sent by the transmitter to the second receiver. 5 . The system of claim 3 , further comprising a beam tracking device configured to determine a pointing error of the phased array transmitter from the angle error, wherein the pointing error is used to steer the selected transmit beam angle of the phased array transmitter for tracking the first receiver. 6 . The system of claim 1 , further comprising a radio frequency (RF) source and wherein the phased array transmitter comprises: a power divider that receives an RF signal from the RF source; a plurality of transmitter signal paths; and a plurality of antenna elements, each transmitter signal path communicatively couples the power divider to an associated antenna element of the plurality of antenna elements, wherein each transmitter signal path is configurable for transmitting the signal beam from the plurality of antenna elements in the selected transmit beam angle of the plurality of different transmit beam angles. 7 . The system of claim 6 , wherein the beam gain angle coding assembly comprises: a beam gain angle coding module; and a beam gain adjustable attenuator in each transmitter signal path of the plurality of transmitter signal paths, wherein the beam gain angle coding module is electrically connected to the beam gain adjustable attenuator in each transmitter signal path for modulating the gain of an RF signal portion in each transmitter signal path to produce the resulting gain profile of the signal beam. 8 . The system of claim 6 , further comprising: a beam amplitude control module; and a beam phase control module, wherein each transmitter signal path comprises: a beam amplitude adjustable attenuator, the beam amplitude control module being electrically connected to the beam amplitude adjustable attenuator in each transmitter signal path; and an adjustable phase shifter, the beam phase control module being electrically connected to the adjustable phase shifter in each transmitter signal path, wherein the beam amplitude control module controls an amplitude of an RF signal portion in each transmitter signal path and the beam phase control module controls a phase of the RF signal portion in each transmitter signal path for transmitting the signal beam from the plurality of antenna elements at the selected transmit beam angle. 9 . The system of claim 8 , wherein the beam gain angle coding assembly comprises a beam gain angle coding module, and wherein the beam gain angle coding module is incorporated into the beam amplitude control module for modulating the gain of the RF signal portion in each transmitter signal path to produce the resulting gain profile of the signal beam. 10 . The system of claim 8 , wherein the beam gain angle coding assembly comprises a beam gain angle coding module and each transmitter signal path further comprises a beam gain adjustable attenuator, wherein the beam gain angle coding module is electrically connected to the beam gain adjustable attenuator in each transmitter signal path for modulating the gain of the RF signal portion in each transmitter signal path to produce the resulting gain profile of the signal beam. 11 . The system of claim 1 , wherein the offset angle coding uses one of direct sequence spread spectrum (DSSS) type coding or code division multiple access (CDMA) type coding. 12 . The system of claim 1 , wherein the offset incident angle of the signal beam is determined in relationship to a bore sight of the receiving antenna or a line normal to a ground plane of the receiving antenna. 13 . A system for phased array signal beam tracking, comprising: a phased array transmitter onboard a first vehicle, the phased array transmitter being configurable for transmitting a signal beam at a selected transmit beam angle from a plurality of different transmit beam angles; a beam gain angle coding assembly configured for modulation of a gain of the signal beam to produce a resulting gain profile of the signal beam, the resulting gain profile comprising offset angle coding that indicates an offset incident angle of the signal beam at a receiving antenna; a first receiver onboard a second vehicle, the first receiver receiving the signal beam at an actual angle of incidence; and a correlator to cross-correlate the resulting gain profile or waveform of the received signal beam against a plurality of angle coded waveforms to determine an offset incident angle of the received signal beam, each angle coded waveform corresponds to a respective one of a plurality of different offset incident angles of an incident signal beam, wherein the offset incident angle of the received signal beam corresponds to an angle coded waveform of the plurality of angle coded waveforms with a highest correlation to the waveform of the received signal beam. 14 . The system of claim 13 , further comprising: a module configured to determine an angle error, wherein the angle error is a difference between the actual angle of incident of the received signal beam and the offset incident angle of the received signal beam; and a transmitter to transmit the angle error to a second receiver onboard the first vehicle, the angle error being used to steer the phased array transmitter. 15 . The system of claim 13 , wherein the phased array transmitter comprises: a radio frequency (RF) source; a power divider that receives an RF signal from the RF source; a plurality of transmitter signal paths; and a plurality of antenna elements, each transmitter signal path communicatively couples the power divider to an associated antenna element of the plurality of antenna elements, wherein each transmitter signal path is configurable for transmitting the signal beam from the plurality of antenna elements in the selected transmit beam angle of the plurality of different tr