Abstract: An apparatus for creating resonant standing waves in biological tissue, in particular in the treatment of medical conditions, comprising at least one applicator for application to biological tissue and a drive unit for driving the at least one applicator simultaneously with AM modulated and FM modulated carrier signals in order to create resonant standing waves in the tissue.

Abstract: A backlit display system includes a display framework and a display fabric. The display frame has an inner perimeter defining a central open space. The display fabric has mutually distinct back and image-display panels supported by the display frame such that at least a portion of the central open space is situated between the back and image-display panels. Removably supported by the display frame within the central open space is an illumination panel fabricated from a flexible material and having opposed rear-facing and front-facing surfaces. The illumination panel supports a plurality of light-emitting elements such that, when selectively energized, the light-emitting elements emit light in a direction from the front-facing surface of the illumination panel toward the image-display panel of the display fabric through which the light passes to illuminate an image defined on the image-display panel. The flexible illumination panel can be rolled or folded for storage or transport.

Abstract: An interconnect system for coupling first and second frame members includes female and male interconnect members. The female interconnect is secured to the first frame member and has defined therein a receptacle. The male interconnect member is secured to the second frame member and defines a protrusion configured for selective axial insertion into, and mating engagement with, the receptacle. The receptacle extends axially between a receptacle opening through which the protrusion is axially received and a receptacle rear wall at which the receptacle terminates. The protrusion terminates at a protrusion tip. The receptacle and protrusion are furthermore configured such that at least one of (a) the receptacle and the protrusion are complementarily keyed in order to prevent relative rotational displacement of the male and female interconnect members when they are in mutual mating engagement, and (b) the protrusion tip is magnetically attracted toward the receptacle rear wall.

Abstract: An Aerial Robotics Network (ARN) Management Infrastructure (MI) (also referred to as ARNMI) that provides a mechanism for the management of aerobots.

Abstract: A blender system that includes a base that is selectively and operatively engaged with a container and an open and closable enclosure is shown and described herein. The base may include an interlock component that may interact with an interlock component of an enclosure or a container. The base also includes a motor that is selectively and operatively engaged with a blade disposed within the container. The motor may be controlled based on arrangement of the base, the enclosure, or the container.

Abstract: Methods and apparatus for proving a sensor assembly. Embodiments can include employing a circuit assembly having a first layer bonded to a second layer with an oxide layer, depositing bonding oxide on the second layer of the circuit assembly, and thinning the first layer of the circuit assembly after depositing the bonding oxide. A coating can be applied over at least a portion of the first layer of the circuit assembly after annealing the circuit assembly. After polishing the bonding oxide on the second surface of the second layer of the circuit assembly, a shim can be secured to the bonding oxide on the second surface of the second layer of the circuit assembly to reduce bow of the assembly. Embodiments can provide a sensor useful in focal plane arrays.

Abstract: A battery-operated palm stapler, an insert for holding a fastener, and a method of installing a fastener using the palm stapler. The stapler includes a housing with a telescoping barrel extending outwardly therefrom. An insert is engaged in the barrel's bore and is held in place by magnets. The insert body defines a slot for receiving fasteners therein. The slot extends from a top wall of the body to a bottom wall thereof. At least one magnet is provided in the body adjacent the slot and is used to hold fasteners in a correct orientation for installation. A sensor probe provided in the body is operable to detect if voltage is carried in electrical cables adjacent which fasteners are to be installed. The probe deactivates a hammer actuating mechanism if voltage is detected. Inserts holding different types of fastener may be selectively engaged with the palm stapler.

Abstract: A method and apparatus for positioning robots using a gantry. A base platform is provided, and a work platform is positioned above the base platform for supporting one or more humans. One or more robots are supported on the base platform independently of the work platform. At least one gantry is positioned above the base platform and adjacent the work platform for supporting and positioning the robots along the work platform.

Abstract: A method and apparatus for supplying cables to robots at non-static locations. A work platform for supporting one or more humans is positioned above a base platform for supporting one or more are robots independently of the work platform. A cable carrier system for providing cables to the robots is positioned underneath the work platform and above the base platform.

Abstract: In an embodiment, a parachute deployment system includes a parachute coupled to a release via a first load path. The first path includes crown lines. The release is adapted to attach the parachute to a rocket via the crown lines, and disengage the parachute from the rocket if a load shifts from the first path to a second path. The system also includes a line constrainer between the release and the parachute. The crown lines pass through the line constrainer, and the line constrainer is adapted to restrict an extent to which the crown lines are able to extend away from a longitudinal axis. An example release includes a back plate configured to couple a tow line to crown lines and a soft pin. The pin is adapted to separate from the back plate in response to tensioning of the release line, causing the parachute to disengage.

Abstract: A finned semiconductor structure including sets of relatively wide and relatively narrow fins is obtained by employing hard masks having different quality. A relatively porous hard mask is formed over a first region of a semiconductor substrate and a relatively dense hard mask is formed over a second region of the substrate. Patterning of the different hard masks using a sidewall image transfer process causes greater lateral etching of the relatively porous hard mask than the relatively dense hard mask. A subsequent reactive ion etch to form semiconductor fins causes relatively narrow fins to be formed beneath the relatively porous hard mask and relatively wide fins to be formed beneath the relatively dense hard mask.

Abstract: A method and apparatus for supplying cables to robots at non-static locations. A base platform is provided, and a work platform is positioned above the base platform for supporting one or more humans. One or more are robots supported on the base platform independently of the work platform. A cable carrier system is positioned above the base platform and underneath the work platform for providing cables to the robots.

Abstract: A finned semiconductor structure including sets of relatively wide and relatively narrow fins is obtained by employing hard masks having different quality. A relatively porous hard mask is formed over a first region of a semiconductor substrate and a relatively dense hard mask is formed over a second region of the substrate. Patterning of the different hard masks using a sidewall image transfer process causes greater lateral etching of the relatively porous hard mask than the relatively dense hard mask. A subsequent reactive ion etch to form semiconductor fins causes relatively narrow fins to be formed beneath the relatively porous hard mask and relatively wide fins to be formed beneath the relatively dense hard mask.

Abstract: A staple gun and a method of using the same. A stapling mechanism in the housing is activated to deliver a staple through an aperture in a housing wall and drive the staple into a surface around a stack of one or more electric cables. The gun includes a reciprocating cable guide for centering the gun on the stack of cables and closing a safety switch to permit the gun's trigger to be activated. A spacer extending outwardly from the housing wall rests on the upper surface of the cable stack. The spacer and a bumper that engages a hammer of the stapling mechanism provide for automatic depth adjustment when driving the staple into the surface. A reciprocating cable guard extending outwardly from the housing wall is positioned between the stack of cables and the staple to aid in preventing the staple from piercing the cable.

Abstract: A staple gun and a method of using the same. A stapling mechanism in the housing is activated to deliver a staple through an aperture in a housing wall and drive the staple into a surface around a stack of one or more electric cables. The gun includes a reciprocating cable guide for centering the gun on the stack of cables and closing a safety switch to permit the gun's trigger to be activated. A spacer extending outwardly from the housing wall rests on the upper surface of the cable stack. The spacer and a bumper that engages a hammer of the stapling mechanism provide for automatic depth adjustment when driving the staple into the surface. A reciprocating cable guard extending outwardly from the housing wall is positioned between the stack of cables and the staple to aid in preventing the staple from piercing the cable.

Abstract: A staple gun and a method of using the same. A stapling mechanism in the housing is activated to deliver a staple through an aperture in a housing wall and drive the staple into a surface around a stack of one or more electric cables. The gun includes a reciprocating cable guide for centering the gun on the stack of cables and closing a safety switch to permit the gun's trigger to be activated. A spacer extending outwardly from the housing wall rests on the upper surface of the cable stack. The spacer and a bumper that engages a hammer of the stapling mechanism provide for automatic depth adjustment when driving the staple into the surface. A reciprocating cable guard extending outwardly from the housing wall is positioned between the stack of cables and the staple to aid in preventing the staple from piercing the cable.

Abstract: Techniques for fin length variability control are provided. In one aspect, a method of patterning fins in a wafer includes: depositing a hardmask and a tone invert layer on the wafer; patterning trenches in the tone invert layer; forming inverse tone etch masks on the hardmask within the trenches, wherein the inverse tone etch masks include inner and outer inverse tone etch masks; forming a save mask with opposite ends thereof aligned with the outer inverse tone etch masks; using the save mask to selectively remove unmasked portions of the tone invert layer; removing the outer inverse tone etch masks, wherein the inner inverse tone etch masks that remain have a uniform length L; patterning the hardmask into individual fin hardmasks using the inner inverse tone etch masks; and patterning fins in the wafer using the fin hardmasks. A device having fins of a uniform length L is also provided.

Abstract: Systems, computer-implemented methods, and computer program products that can facilitate elevator analytics and/or elevator optimization components are provided. According to an embodiment, a system can comprise a memory that stores computer executable components and a processor that executes the computer executable components stored in the memory. The computer executable components can comprise a prediction component that can predict a current destination of an elevator passenger based on historical elevator usage data of the elevator passenger. The computer executable components can further comprise an assignment component that can assign the elevator passenger to an elevator based on the current destination.

Abstract: The present invention is directed to a method and kit for inactivation of acid-fast bacteria. In some embodiments, the method may include: transferring a sample from a liquid culture containing acid-fast bacteria to a first tube, wherein the first tube comprises a body, a first end to the body having an opening, and a second end to the body having a frustoconical portion ending in a concave tip; centrifuging the tube to pellet the acid-fast bacteria in the concave tip and subsequently decanting a supernatant; resuspending the acid-fast bacteria pellet in alcohol; transferring the suspension to a second tube containing beads; agitating the second tube to disrupt acid-fast bacteria cells; and incubating the suspension to inactivate the acid-fast bacteria in the test sample. The method may also include identifying the acid-fast bacteria with mass spectrometry.

Abstract: An x-ray source can have a reduced voltage gradient and a consistent voltage gradient, thus allowing less insulation, reduced arcing failure, or both. The x-ray source can comprise a bipolar voltage multiplier and an x-ray tube. The bipolar voltage multiplier can include a negative voltage multiplier and a positive voltage multiplier. An axis extending from an input voltage of the negative voltage multiplier to a negative output bias voltage defines a negative axis. An axis extending from an input voltage of the positive voltage multiplier to a positive output bias voltage defines a positive axis. An angle A1 between the negative axis and the positive axis can be selected for optimal voltage gradient.