Abstract: Techniques for patient medical care are disclosed. These techniques include identifying a plurality of rules relating to a purchase of a medical item. The techniques further include selecting a first rule, of the plurality of rules, to apply to the purchase, including generating a specificity score for each of the plurality of rules, based on setting one or more bit values in each specificity score using matching criteria between the respective rule and the purchase and comparing the specificity scores for the plurality of rules. The techniques further include facilitating supply of the medical item to a patient based on completing the purchase using the selected first rule.

Abstract: Modular storage systems include load sensors disposed beneath or in association with platforms. The load sensors are pulse-sampled for signals corresponding to loads at time intervals, rather than continuously, in order to conserve electrical power. An item associated with a transaction is identified based on a change in the loads, as determined from the pulse-sampled signals. The platforms are aligned at horizontal or non-horizontal angles, and photovoltaic power sources with banks of photovoltaic cells are mounted to front edges of the platforms. When a user reaches over one of the photovoltaic cells to access an item on a platform, a level of power or voltage generated by the photovoltaic cell is diminished. The item closest to the photovoltaic cell having the diminished power or voltage, or a customer that accessed the item, may be identified accordingly.

Abstract: Various embodiments are directed to strap assemblies for securing a mobile device relative to an arm of a user and methods of using the same. Various embodiments are directed to a strap assembly comprising a strap panel comprising a rachet cable tension adjustment slot, a ratchet assembly for selective tightening of the strap assembly towards an arm and comprising a ratchet element on the strap panel; a dynamic cable attachment element disposed within the rachet cable tension adjustment slot and configured to move along a length of the rachet cable tension adjustment slot; and a ratchet cable extending between the ratchet element and the dynamic cable attachment element and having a looped cable portion configured for attachment to the dynamic cable attachment element; wherein the dynamic cable attachment element is movable along the length of the rachet cable tension adjustment slot in response to forces imparted from the ratchet cable.

Abstract: Various embodiments are directed to strap assemblies for securing a mobile device relative to an arm of a user and methods of using the same. Various embodiments are directed to a strap assembly comprising a strap panel comprising a rachet cable tension adjustment slot, a ratchet assembly for selective tightening of the strap assembly towards an arm and comprising a ratchet element on the strap panel; a dynamic cable attachment element disposed within the rachet cable tension adjustment slot and configured to move along a length of the rachet cable tension adjustment slot; and a ratchet cable extending between the ratchet element and the dynamic cable attachment element and having a looped cable portion configured for attachment to the dynamic cable attachment element; wherein the dynamic cable attachment element is movable along the length of the rachet cable tension adjustment slot in response to forces imparted from the ratchet cable.

Abstract: Free-space communication systems and methods are provided. The systems include a transmitter that combines multiple sets of radio-frequency-modulated optical carrier frequencies for transmission across free space using multiple transmission apertures. Different sets of signals are filtered to form single sideband signals. The different sets of single sideband signals are then combined to form dense wavelength division multiplexed signals. In addition, combined sets of signals of different polarizations can be combined. A receiver can include a single receive aperture.

Abstract: Free-space communication systems and methods are provided. The systems include a transmitter that combines multiple sets of radio-frequency-modulated optical carrier frequencies for transmission across free space using multiple transmission apertures. Different sets of signals are filtered to form single sideband signals. The different sets of single sideband signals are then combined to form dense wavelength division multiplexed signals. In addition, combined sets of signals of different polarizations can be combined. A receiver can include a single receive aperture.

Abstract: Field widening lens methods and systems are provided. The field widening lens includes a non-planar primary mirror and a secondary mirror. In addition, separate input and output ports are provided. The field widening lens further provides for an optical path difference for rays within the lens that is essentially zero for any ray within the field of view of an optical system including the field widening lens, regardless of the angle at which the ray entered the lens.

Abstract: Lidar systems and methods are provided. The lidar system includes an optical autocovariance receiver and one or more chemical composition sensors or processors, in addition to a Doppler signal processor for obtaining relative wind speed information. The additional processors may include a high spectral resolution lidar signal processor and/or a differential absorption lidar processor that receive input signals from the optical autocovariance receiver. Receivers that may be incorporated into the lidar system, in addition to the optical autocovariance receiver, include a depolarization receiver, a Raman receiver, and/or an Etalon receiver.

Abstract: Field widening lens methods and systems are provided. The field widening lens includes a non-planar primary mirror and a secondary mirror. In addition, separate input and output ports are provided. The field widening lens further provides for an optical path difference for rays within the lens that is essentially zero for any ray within the field of view of an optical system including the field widening lens, regardless of the angle at which the ray entered the lens.

Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.

Abstract: Optical transceivers include a diffractive optical element (DOE) attached to a surface of a prism or other optical support. The DOE is configured to direct an input optical signal to a planar or curved reflective surface, or receive an output optical signal from the planar or curved reflective surface at angles greater than a critical angle in the prism. In some examples, the optical support includes one or more curved reflective surfaces and the DOE is a hologram. Such optical transceivers include a reflective surface that is rotatable with respect to the DOE, or with respect to a selected communication direction and the DOE for selection of a transmission or reception direction. The optical supports of such optical transceivers can be mounted to a window, and include a reflective region configured to total internally reflect optical signals. Selection of a communication direction is based on a rotation of the rotatable reflective surface.

Abstract: Optical transceivers include a diffractive optical element (DOE) attached to a surface of a prism or other optical support. The DOE is configured to direct an input optical signal to a curved reflective surface or receive an output optical signal from the curved reflective surface at angles greater than a critical angle. In some examples, the optical support includes one or more curved reflective surfaces and the DOE is a hologram. Such optical transceivers can be provided with optical mounts configured for attachment to a building window.

Abstract: An apparatus and method for combining multiple optical beams into mode-scrambled optical signals. In one embodiment, the apparatus includes a plurality of laser beam sources, each to produce a modulated optical beam. A plurality of input fiber segments, each comprising a multimode optical fiber core, are operatively coupled at one end to a respective laser source to receive a respective modulated optical beam. A multimode optical beam combiner is used to operatively couple the output ends of the input fiber segments to the input end of an output fiber segment having a multimode optical fiber core. The modulated optical beams produced by the laser beam sources are combined into a single mode-scrambled optical signal. The apparatus enables multiple optical beams having similar wavelengths to be combined to increase optical signal strength. It also enables multiple optical beams having different wavelengths to be combined to form a wavelength division multiplexed signal.

Abstract: Optical transceivers include a diffractive optical element (DOE) attached to a surface of a prism or other optical support. The DOE is configured to direct an input optical signal to a planar or curved reflective surface, or receive an output optical signal from the planar or curved reflective surface at angles greater than a critical angle in the prism. In some examples, the optical support includes one or more curved reflective surfaces and the DOE is a hologram. Such optical transceivers include a reflective surface that is rotatable with respect to the DOE, or with respect to a selected communication direction and the DOE for selection of a transmission or reception direction. The optical supports of such optical transceivers can be mounted to a window, and include a reflective region configured to total internally reflect optical signals. Selection of a communication direction is based on a rotation of the rotatable reflective surface.

Abstract: An apparatus and method for generating a mode-scrambled optical signal. A laser beam source directs an optical signal into a free end of a first segment of multimode fiber comprising a graded-index (GI) fiber core at an offset from the centerline of the core, generating an offset-launch condition. The first segment of multimode fiber is operatively coupled into a second segment of multimode fiber comprising a step-index (SI) fiber core. As the offset-launched optical signal passes through the first and second segments of multimode fiber, the optical signal is converted into a mode-scrambled optical signal having a substantially-filled numerical aperture.

Abstract: An apparatus and method for generating a mode-scrambled optical signal using a VCSEL array. An array of vertical cavity surface-emitting lasers (VCSELs) are employed to generate respective of optical signals comprising modulated laser beams that are optically coupled into an input end of a multimode fiber segment. In one embodiment, the optical signals are offset-launched into the multimode fiber. As the respective optical signals pass through the segment of multimode fiber, they are combined to produce a mode-scrambled optical signal having a substantially-filled numerical aperture that is emitted from the output end of the fiber. In accordance with one aspect of the invention, the apparatus enables multiple optical beams having similar wavelengths to be combined to increase optical signal strength. In accordance with another aspect, one portion of the VCSELs may be initially activated, while another portion is used as spares that may be selectively activated to replace any activated VCSELs that fail.

Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.

Abstract: A free-space optical (FSO) transceiver head and mounting assembly to enable the FSO transceiver head to be mounted to a window. The FSO transceiver head has a binocular configuration including respective sets of transmit and receive optics configured to facilitate transmission and reception of optical signals. The mounting assembly provides a pair of adjustable axes to enable the FSO transceiver head to be rotated and tilted relative to an axis that is normal to the window. The mounting assembly also provides adjustable feet for fine-pointing. Upon assembly, the entire apparatus has a depth of approximately 3½ inches, enabling it to be deployed in a standard-sized window frame behind a window blind. The apparatus may also be deployed in vehicle windows and out-building windows. A breakaway feature is also provided such that the apparatus will break free from a window rather than having the window break when a sufficient force is applied to the mounting assembly and/or transceiver head.

Abstract: An apparatus and method for generating a mode-scrambled optical signal using a VCSEL array. An array of vertical cavity surface-emitting lasers (VCSELs) are employed to generate respective of optical signals comprising modulated laser beams that are optically coupled into an input end of a multimode fiber segment. In one embodiment, the optical signals are offset-launched into the multimode fiber. As the respective optical signals pass through the segment of multimode fiber, they are combined to produce a mode-scrambled optical signal having a substantially-filled numerical aperture that is emitted from the output end of the fiber. In accordance with one aspect of the invention, the apparatus enables multiple optical beams having similar wavelengths to be combined to increase optical signal strength. In accordance with another aspect, one portion of the VCSELs may be initially activated, while another portion is used as spares that may be selectively activated to replace any activated VCSELs that fail.

Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.