Abstract: A device includes an optical fiber bundle having at least one optical data fiber and at least three optical tracking fibers, a mirror package configured to direct an incoming optical beam to the optical fiber bundle, at least three detectors, each detector corresponding to one of the at least three optical tracking fibers, the at least three detectors configured to receive portions of the incoming optical beam from the corresponding optical tracking fibers and convert the portions of the incoming beam to electrical tracking signals, and a controller configured to receive the electrical tracking signals from the at least three detectors and generate a feedback control based on the electrical tracking signals to control a position of the mirror package.

Abstract: A device includes an optical fiber bundle having at least one optical data fiber and at least three optical tracking fibers, a mirror package configured to direct an incoming optical beam to the optical fiber bundle, at least three detectors, each detector corresponding to one of the at least three optical tracking fibers, the at least three detectors configured to receive portions of the incoming optical beam from the corresponding optical tracking fibers and convert the portions of the incoming beam to electrical tracking signals, and a controller configured to receive the electrical tracking signals from the at least three detectors and generate a feedback control based on the electrical tracking signals to control a position of the mirror package.

Abstract: An optical communications beacon receiver including a camera for capturing a plurality of beacon images. The plurality of beacon images includes a beacon signal transmitted from a beacon transmitter. The beacon receiver also including processing circuitry configured for determining the state of the beacon signal for each of the plurality of beacon images based on the known pattern, at least one beacon image of the plurality of beacon images includes a beacon on state and at least one beacon image of the plurality of beacon images includes a beacon off state, comparing the at least one beacon image including the beacon on state to the at least one beacon image including the beacon off state, and determining a beacon location based on the comparison of the at least one beacon image including the beacon on state to the at least one beacon image including the beacon off state.

Abstract: An optical communications beacon receiver including a camera for capturing a plurality of beacon images. The plurality of beacon images includes a beacon signal transmitted from a beacon transmitter. The beacon receiver also including processing circuitry configured for determining the state of the beacon signal for each of the plurality of beacon images based on the known pattern, at least one beacon image of the plurality of beacon images includes a beacon on state and at least one beacon image of the plurality of beacon images includes a beacon off state, comparing the at least one beacon image including the beacon on state to the at least one beacon image including the beacon off state, and determining a beacon location based on the comparison of the at least one beacon image including the beacon on state to the at least one beacon image including the beacon off state.

Abstract: An alignment suite includes first and second targeting devices and an optical coupler. The first targeting device is configured to perform a positional determination regarding a downrange target. The first targeting device includes an image processor. The second targeting device is configured to perform a targeting function relative to the downrange target and is affixable to the first targeting device. The optical coupler enables the image processor to capture an image of a reference object at the second targeting device responsive to the first and second targeting devices being affixed together. The image processor employs processing circuitry that determines pose information indicative of an alignment relationship between the first and second targeting devices relative to the downrange target based on the image captured.

Abstract: An alignment suite includes first and second targeting devices and an optical coupler. The first targeting device is configured to perform a positional determination regarding a downrange target. The first targeting device includes an image processor. The second targeting device is configured to perform a targeting function relative to the downrange target and is affixable to the first targeting device. The optical coupler enables the image processor to capture an image of a reference object at the second targeting device responsive to the first and second targeting devices being affixed together. The image processor employs processing circuitry that determines pose information indicative of an alignment relationship between the first and second targeting devices relative to the downrange target based on the image captured.