Abstract: A detector configuration for use in a free space optical (FSO) node for transmitting and/or receiving optical signals has a plurality of sensors for detecting received optical signals. The system may be configured to modify or alter the light at the plurality of sensor to optimize different system functions.
Type:
Grant
Filed:
October 19, 2017
Date of Patent:
February 26, 2019
Assignee:
SA Photonics, Inc.
Inventors:
J. Elon Graves, William Dickson, Greg Mitchell, Andy McClaren, Dave Pechner
Abstract: Exemplary embodiments described a transmission scheme for use in a bi-directional Free Space Optical (FSO) communication system. Each node locally stores a transmitted data block until and acknowledgement is received that it was properly decoded. In the event that a decode was unsuccessful, the data is retransmitted. The receiving node may then add the received signals to then attempt a decode on a combined signal. The system may also include dynamic controls such that the retransmitted signal may be optimized to improve the probability of a successful decode.
Abstract: A fast tracking module for use in free space optical communications includes a primary motion stage supporting receive optics, where the primary motion stage is configured to move the receive optic relative to an optical path.
Type:
Grant
Filed:
October 7, 2016
Date of Patent:
May 15, 2018
Assignee:
SA Photonics, Inc.
Inventors:
J. Elon Graves, David Pechner, Andrew Olson
Abstract: Exemplary embodiments described herein include a bi-directional Free Space Optical (FSO) communication unit that may be used in a multi-node FSO communication system. The bi-directional FSO unit may include a co-boresighted optical unit such that received and transmitted beams are coincident through a common aperture. Embodiments described herein may be used to correct or accommodate the alignment errors of the received and transmitted beams.
Type:
Grant
Filed:
June 21, 2017
Date of Patent:
January 23, 2018
Assignee:
SA Photonics, Inc.
Inventors:
William C. Dickson, Andrew K. McClaren, Greg G. Mitchell
Abstract: A detector configuration for use in a free space optical (FSO) node for transmitting and/or receiving optical signals has a plurality of sensors for detecting received optical signals. The system may be configured to modify or alter the light at the plurality of sensor to optimize different system functions.
Type:
Grant
Filed:
August 22, 2016
Date of Patent:
November 7, 2017
Assignee:
SA Photonics, Inc.
Inventors:
J. Elon Graves, William Dickson, Greg Mitchell, Andy McClaren, Dave Pechner
Abstract: Exemplary embodiments described herein include a bi-directional Free Space Optical (FSO) communication unit that may be used in a multi-node FSO communication system. The bi-directional FSO unit may include a co-boresighted optical unit such that received and transmitted beams are coincident through a common aperture. Embodiments described herein may be used to correct or accommodate the alignment errors of the received and transmitted beams.
Type:
Grant
Filed:
January 28, 2015
Date of Patent:
July 25, 2017
Assignee:
SA Photonics, Inc.
Inventors:
William C. Dickson, Andrew K. McClaren, Greg G. Mitchell
Abstract: Apparatus and method of reducing light leakage from display devices are described. An embodiment of reducing light leakage from display devices includes providing an optical shutter that is configured to block light from a display device from being emitted into the ambient environment when the display device is in a bright state and configured to display visual information to the user. The optical shutter can be configured to transmit light from the ambient environment to the user when the display device is not displaying visual information.
Abstract: A wide field of view night vision system includes a head attachment apparatus configured to attach to a user's head and a night vision subsystem. The night vision subsystem includes one or more digital night vision image sensors attached to the head attachment apparatus. Each sensor receives input light and produces a digital image of the input light. A processor processes the digital image(s) to produce a wide-field image. The wide-field image spans at least 60 degrees of a user's horizontal field of view. A display and eyepiece attached to the head attachment apparatus receives and displays the wide-field image. The eyepiece is positionable between the display and the user's eye to image the wide-field image into the user's eye.
Abstract: An anamorphic eyepiece. In one implementation, the eyepiece is for use with a display where both the eyepiece and display are head-mounted, with the eyepiece projecting an image from the display into the user's eye. The display has high resolution in a horizontal direction, preferably at least 2000 pixels, but the image produced by the display is compressed in aspect ratio. The anamorphic eyepiece decompresses the aspect ratio.
Abstract: A wide field of view night vision system is described. The system comprises a head attachment apparatus configured to attach to a user's head and a night vision subsystem. The night vision subsystem comprises one or more night vision image sensors attached to the head attachment apparatus. Each sensor receives input light and produces a digital image of the input light. A processor processes the digital image(s) to produce a wide-field image. The wide-field image spans at least 60 degrees of a user's horizontal field of view. A display and eyepiece attached to the head attachment apparatus receives and displays the wide-field image. The eyepiece is positionable between the display and the user's eye to image the wide-field image into the user's eye.
Abstract: A mirror drive mechanism for a tilting mirror is controlled using feedback from one or more interferometric angular sensors. The wavelength of an optical beam is varied as it is fed into an interferometric angular sensor. The wavelength at which the resulting interference pattern is measured to be at a minimum intensity is determined. This wavelength is used to determine a distance quantity representative of the angular position of the mirror.
Type:
Grant
Filed:
February 17, 2010
Date of Patent:
May 8, 2012
Assignee:
SA Photonics, Inc.
Inventors:
James F. Coward, Ting K. Yee, William C. Dickson