Abstract: A neurological screening device and method for assessing brain dysfunction of a subject including a projection apparatus configured to project an image onto retinas of a subject, detectors configured to capture light reflected from the retinas, the reflected light indicating a fixation of the eyes, a controller configured to generate baseline cognitive performance data based at least in part on a presence or absence of fixation, cause output of a plurality of assessment images on displays of the neurological screening device, the plurality of assessment images corresponding to a cognitive assessment configured to stress the frontal lobe of the subject, generate stressed cognitive performance data based at least in part on a presence or absence of fixation during the cognitive assessment, and determine brain dysfunction of the subject based at least in part on the baseline cognitive performance data and the stressed cognitive performance data.

Abstract: Opto-mechanical assemblies, systems, devices and methods for pointing laser and other optical beams, and for directing the field of view of sensors are disclosed. The assemblies consist of thin rotating optical elements of a type that diffracts the optical beam over a wide field of regard in two dimensions, and the angle of incidence of the optical beam or line of sight impinging on the optical elements are dynamically controlled maximizing the diffraction efficiency of the optical elements.

Abstract: A neurological screening device and method for assessing brain dysfunction of a subject including a projection apparatus configured to project an image onto retinas of a subject, detectors configured to capture light reflected from the retinas, the reflected light indicating a fixation of the eyes, a controller configured to generate baseline cognitive performance data based at least in part on a presence or absence of fixation, cause output of a plurality of assessment images on displays of the neurological screening device, the plurality of assessment images corresponding to a cognitive assessment configured to stress the frontal lobe of the subject, generate stressed cognitive performance data based at least in part on a presence or absence of fixation during the cognitive assessment, and determine brain dysfunction of the subject based at least in part on the baseline cognitive performance data and the stressed cognitive performance data.

Abstract: A neurological screening device and method for assessing brain dysfunction of a subject including a projection apparatus configured to project an image onto retinas of a subject, detectors configured to capture light reflected from the retinas, the reflected light indicating a fixation of the eyes, a controller configured to generate baseline cognitive performance data based at least in part on a presence or absence of fixation, cause output of a plurality of assessment images on displays of the neurological screening device, the plurality of assessment images corresponding to a cognitive assessment configured to stress the frontal lobe of the subject, generate stressed cognitive performance data based at least in part on a presence or absence of fixation during the cognitive assessment, and determine brain dysfunction of the subject based at least in part on the baseline cognitive performance data and the stressed cognitive performance data.

Abstract: An apparatus and method for ophthalmic neural scanning including a projection apparatus configured to project a projected image onto one or more retinas of one or more eyes of a subject, one or more photodetectors disposed conjugate to the one or more retinas, the one or more photodetectors being configured to capture a reflected image reflected from the one or more retinas in response to the projected image, the reflected image including information indicating fixation of the one or more eyes, and an image capture device disposed conjugate to one or more corneas of the one or more eyes of the subject and configured to capture a diagnostic image including one or more pupils of the one or more eyes when the one or more pupils are illuminated by retroreflected light from the one or more retinas in response to the projected image.

Abstract: Modified low emissivity (low-E) coated glass, so that windows using the processed glass allow uninterrupted use of RF devices within commercial or residential buildings. Glass processed in the manner described herein will not significantly diminish the energy conserving properties of the low-E coated glass. This method and apparatus disrupts the conductivity of the coating in small regions. In an embodiment, the method and apparatus ablates the low-E coating along narrow contiguous paths, such that electrical conductivity can no longer occur across the paths. The paths may take the form of intersecting curves and/or lines, so that the remaining coating consists of electrically isolated areas. The method and apparatus are applicable both to treating glass panels at the factory as well as treating windows in-situ after installation.

Abstract: An apparatus and method for ophthalmic neural scanning including a projection apparatus configured to project a projected image onto one or more retinas of one or more eyes of a subject, one or more photodetectors disposed conjugate to the one or more retinas, the one or more photodetectors being configured to capture a reflected image reflected from the one or more retinas in response to the projected image, the reflected image including information indicating fixation of the one or more eyes, and an image capture device disposed conjugate to one or more corneas of the one or more eyes of the subject and configured to capture a diagnostic image including one or more pupils of the one or more eyes when the one or more pupils are illuminated by retroreflected light from the one or more retinas in response to the projected image.

Abstract: A device and method for measuring saccadic latency, including a light source positioned within a housing that projects a beam of light through a window of the housing and onto a retina of a subject, lights disposed on or in an external surface of the housing, detectors positioned within the housing and configured to detect light reflected from the retina of the subject through the window of the housing, and a controller that causes output of a sequence of cues and determines a time interval corresponding to a delay between output of a cue in the sequence of cues and either fixation or loss of fixation by the subject, the fixation or loss of fixation being determined based at least in part on the light reflected from the retina of the subject.

Abstract: Modified low emissivity (low-E) coated glass, so that windows using the processed glass allow uninterrupted use of RF devices within commercial or residential buildings. Glass processed in the manner described herein will not significantly diminish the energy conserving properties of the low-E coated glass. This method and apparatus disrupts the conductivity of the coating in small regions. In an embodiment, the method and apparatus ablates the low-E coating along narrow contiguous paths, such that electrical conductivity can no longer occur across the paths. The paths may take the form of intersecting curves and/or lines, so that the remaining coating consists of electrically isolated areas. The method and apparatus are applicable both to treating glass panels at the factory as well as treating windows in-situ after installation.

Abstract: A device can include a body having a top surface, an opposing bottom surface, a first face and an opposing second face. The first face can have an opening therein. A light source can be positioned within the body. The light source can be configured to create a beam of polarized light. At least a portion of the beam of polarized light can be directed outside of the body through the opening in the front face. At least one polarization sensitive detector can be positioned within the body. At least one light can be positioned on or in the first face. At least one target can be configured to be visible through the opening in the front face of the device. The lights and the target can be configured to illuminate in a predetermined manner or pattern.

Abstract: A method and apparatus for modifying low emissivity (low-E) coated glass, so that windows using the processed glass allow uninterrupted use of RF devices within commercial or residential buildings. Glass processed in the manner described herein will not significantly diminish the energy conserving properties of the low-E coated glass. This method and apparatus disrupts the conductivity of the coating in small regions. In an embodiment, the method and apparatus ablates the low-E coating along narrow contiguous paths, such that electrical conductivity can no longer occur across the paths. The paths may take the form of intersecting curves and/or lines, so that the remaining coating consists of electrically isolated areas. The method and apparatus are applicable both to treating glass panels at the factory as well as treating windows in-situ after installation.

Abstract: Modified low emissivity (low-E) coated glass, so that windows using the processed glass allow uninterrupted use of RF devices within commercial or residential buildings. Glass processed in the manner described herein will not significantly diminish the energy conserving properties of the low-E coated glass. This method and apparatus disrupts the conductivity of the coating in small regions. In an embodiment, the method and apparatus ablates the low-E coating along narrow contiguous paths, such that electrical conductivity can no longer occur across the paths. The paths may take the form of intersecting curves and/or lines, so that the remaining coating consists of electrically isolated areas. The method and apparatus are applicable both to treating glass panels at the factory as well as treating windows in-situ after installation.

Abstract: A method and apparatus for modifying low emissivity (low-E) coated glass, so that windows using the processed glass allow uninterrupted use of RF devices within commercial or residential buildings. Glass processed in the manner described herein will not significantly diminish the energy conserving properties of the low-E coated glass. This method and apparatus disrupts the conductivity of the coating in small regions. In an embodiment, the method and apparatus ablates the low-E coating along narrow contiguous paths, such that electrical conductivity can no longer occur across the paths. The paths may take the form of intersecting curves and/or lines, so that the remaining coating consists of electrically isolated areas. The method and apparatus are applicable both to treating glass panels at the factory as well as treating windows in-situ after installation.

Abstract: A vehicle restraining system for restraining vehicles transported in a transport carrier is described. The system comprises at least one energy absorbing mechanism which is secured to the transport carrier. Adjustable connectors are displaceably secured to the energy absorbing mechanism. A connector strut is pivotally connected at one end to a respective one of the adjustable connectors. The connector strut has a vehicle engaging suction cup assembly at a free end thereof for securement at a predetermined location to a vehicle to be transported by the transport carrier, and preferably, but not exclusively, the front and rear windows of vehicles being transported. The connector strut functions to connect the vehicle to the energy absorbing mechanism and transmit forces between the two. The connector strut also has a vacuum pumping piston mechanism that is activated by vehicle displacement during transport to assure a continued vacuum in the suction cups.

Abstract: A vehicle restraining system for restraining vehicles transported in a transport carrier is described. The system comprises at least one energy absorbing mechanism which is secured to the transport carrier. Adjustable connectors are displaceably secured to the energy absorbing mechanism. A connector strut is pivotally connected at one end to a respective one of the adjustable connectors. The connector strut has a vehicle engaging suction cup assembly at a free end thereof for securement at a predetermined location to a vehicle to be transported by the transport carrier, and preferably, but not exclusively, the front and rear windows of vehicles being transported. The connector strut functions to connect the vehicle to the energy absorbing mechanism and transmit forces between the two. The connector strut also has a vacuum pumping piston mechanism that is activated by vehicle displacement during transport to assure a continued vacuum in the suction cups.

Abstract: An intraocular device including a prism and shift amplifier is provided. Also provided is a system containing the intraocular device, and a method for improving vision of a person with central vision loss. The method involves implanting the intraocular device in the person so that the prism and shift amplifier cumulatively shift a retinal image away from the fovea of an eye to a functional retinal portion of the eye. Also provided is a method for correcting a binocular misalignment of a person using the intraocular device.

Abstract: A catcher tire abutment device is described for restraining road vehicles transported on a support surface of a transport vehicle. Primary wheel restraining devices are secured to the support surface on outward sides of pairs of wheels of each road vehicle adjacent the thread surface of the wheels. A catcher tire abutment device is also secured to the support surface an approximate predetermined distance spaced adjacent the thread face on inward sides of front and rear pairs of wheels of the vehicle. When the road vehicles are subjected to an impact force, from either a front or rear direction, kinetic energy from the impacted vehicle is absorbed and dissipated softly in a sequential manner by (a) contact of the tires of one of the front and rear pairs of wheels against an arresting surface of the primary wheel restraining devices and (b) by the tires of the other pair of wheels contacting the arresting surface of the catcher tire abutment devices.

Abstract: A catcher tire abutment device is described for restraining road vehicles transported on a support surface of a transport vehicle. Primary wheel restraining devices are secured to the support surface on outward sides of pairs of wheels of each road vehicle adjacent the thread surface of the wheels. A catcher tire abutment device is also secured to the support surface an approximate predetermined distance spaced adjacent the thread face on inward sides of front and rear pairs of wheels of the vehicle. When the road vehicles are subjected to an impact force, from either a front or rear direction, kinetic energy from the impacted vehicle is absorbed and dissipated softly in a sequential manner by (a) contact of the tires of one of the front and rear pairs of wheels against an arresting surface of the primary wheel restraining devices and (b) by the tires of the other pair of wheels contacting the arresting surface of the catcher tire abutment devices.

Abstract: A catcher tire abutment device is described for restraining road vehicles transported on a support surface of a transport vehicle. Primary wheel restraining devices are secured to the support surface on outward sides of pairs of wheels of each road vehicle adjacent the thread surface of the wheels. A catcher tire abutment device is also secured to the support surface an approximate predetermined distance spaced adjacent the thread face on inward sides of front and rear pairs of wheels of the vehicle. When the road vehicles are subjected to an impact force, from either a front or rear direction, kinetic energy from the impacted vehicle is absorbed and dissipated softly in a sequential manner by (a) contact of the tires of one of the front and rear pairs of wheels against an arresting surface of the primary wheel restraining devices and (b) by the tires of the other pair of wheels contacting the arresting surface of the catcher tire abutment devices.