Adaptive communications focal plane array

What is claimed is: 1. An adaptive communications focal plane array comprising: a plurality of optical detectors, a subset of which receive one or more optical beams transmitted by one or more optical transmitter assemblies; a plurality of signal discrimination circuits, each of which is operatively connected to a corresponding one of the plurality of optical detectors and performs the following: detects the presence of an optical beam that is currently being received by its corresponding optical detector; computes an estimated signal-to-noise ratio associated with the optical beam it has detected; and sets a value of the estimated signal-to-noise ratio to a set value when it has not detected the presence of the optical beam; a plurality of switching circuits, each of which is operatively connected to a corresponding one of the plurality of optical detectors and a corresponding one of the plurality of signal discrimination circuits, wherein each of the plurality of switching circuits: controls a flow of information being received from the optical beam; outputs a location relative to other detectors of the plurality of optical detectors indicative of the corresponding optical detector receiving the optical beam; and outputs the estimated signal-to-noise ratio provided by its corresponding signal discrimination circuit; and an analog output detector operatively connected to each of the plurality of switching circuits, the analog output detector informing each of the plurality of switching circuits whether or not information being received by an optical detector from the optical beam is currently being output by any one of the plurality of switching circuits. 2. The adaptive communications focal plane array of claim 1 , wherein the plurality of optical detectors are configured in a two-dimensional array. 3. The adaptive communications focal plane array of claim 1 , wherein each of the plurality of signal discrimination circuits distinguishes between a single optical beam being received by a corresponding optical detector and two or more optical beams simultaneously being received by the corresponding optical detector. 4. The adaptive communications focal plane array of claim 1 , wherein each of the plurality of signal discrimination circuits outputs an indicator representative of an invalid condition upon a determination that two or more optical beams are simultaneously being received by the corresponding optical detector. 5. The adaptive communications focal plane array of claim 1 , wherein each of the plurality of switching circuits receives a command initializing an optical beacon receiver mode, and wherein the optical beam comprises an optical beacon. 6. The adaptive communications focal plane array of claim 5 , wherein the command causes each of the plurality of switching circuits to be disabled, or to remain disabled if one or more of the plurality of switching circuits is already disabled, and wherein a disabled switching circuit is in a state in which it suppresses an output of an electrical signal being produced by its corresponding optical detector, thereby preventing the electrical signal from contributing to a flow of information being output by the adaptive communications focal plane array. 7. The adaptive communications focal plane array of claim 6 , wherein each of the plurality of switching circuits operatively remains disabled unless one of the plurality of switching circuits operatively connected to the corresponding optical detector receiving the optical beam receives, from its corresponding signal discrimination circuit, the estimated signal-to-noise ratio, and the estimated signal-to-noise ratio is greater than or equal to a minimum signal-to-noise ratio threshold, and the analog output detector informs the one of the plurality of switching circuits that all others of the plurality of switching circuits are currently disabled. 8. The adaptive communications focal plane array of claim 7 , wherein the one of the plurality of switching circuits remains enabled unless it receives from its corresponding signal-discrimination circuit, a value of the estimated signal-to-noise ratio that is less than the minimum signal-to-noise ratio threshold, such that upon receiving the value of the estimated signal-to-noise ratio that is less than the minimum signal-to-noise ratio threshold, the one of the plurality of switching circuits is disabled. 9. The adaptive communications focal plane array of claim 7 , wherein one or more of the plurality of switching circuits whose corresponding optical detectors are neighboring that optical detector to which the one of the plurality of switching circuits that has already been enabled is operatively connected, are enabled, enhancing the signal strength of the optical beacon. 10. The adaptive communications focal plane array of claim 9 , wherein the one or more of the optical detectors corresponding to the plurality of switching circuits are determined to be neighboring based upon a focal area centered on the optical detector corresponding to the one of the plurality of switching circuits that has already been enabled. 11. The adaptive communications focal plane array of claim 10 , wherein the focal area comprises one of a blur circle or blur ellipse, one or more parameters of which depends upon a size of a point-spread function of an imaging lens associated with the adaptive communications focal plane array. 12. The adaptive communications focal plane array of claim 9 , wherein the enabling of the one or more neighboring plurality of switching circuits is initiated by receipt of a signal-to-noise ratio request and a determination that an estimated signal-to-noise ratio output from a corresponding one of the plurality of signal discrimination circuits is greater than or equal to the minimum signal-to-noise ratio threshold. 13. The adaptive communications focal plane array of claim 10 , wherein the adaptive communications focal plane array performs a re-centering procedure to re-center the focal area based upon recent signal-to-noise ratio estimates. 14. The adaptive communications focal plane array of claim 1 , wherein the adaptive communications focal plane array is operatively implemented within an optical receiver assembly, the optical receiver assembly monitoring and processing the optical beacon portion of the optical beam until optical beacon information embedded in the optical beacon is extracted. 15. The adaptive communications focal plane array of claim 14 , wherein the optical receiver assembly outputs the optical beacon information to an augmented reality device, the augmented reality device presenting one or more aspects of the optical beacon information in an augmented reality presentation displayed to a user of the augmented reality device. 16. The adaptive communications focal plane array of claim 14 , wherein all of the plurality of switching circuits except one or more of the plurality of switching circuits operatively connected to the one or more of the plurality of optical detectors receiving the optical beam are suppressed by being maintained in a disabled state until the optical beacon information has been extracted from the optical beam. 17. The adaptive communications focal plane array of claim 16 , wherein another one or more of the plurality of switching circuits operatively connected to another one or more of the plurality of optical detectors receiving another optical beam are enabled while outputs from all of the remaining plurality of switching circuits are suppressed by the remaining plurality of switching circuit