Abstract: A retrievable kinetic penetrator includes a tubular body having a first end and a second end, a nose coupled to the first end of the tubular body, and a retrieval system. The nose is configured to penetrate a ground surface and subsurface materials of a subterranean ground volume. The retrieval system includes a tether coupled to the tubular body and is configured to facilitate recovery of the tubular body from the subterranean ground volume.

Abstract: Apparatus and systems are described that include physical media related to accepting at least one attribute associated with an individual from a licensed health care provider and/or presenting an output of an artificial sensory experience associated with a request to measure at least one effect of a bioactive agent on the attribute associated with individual.

Abstract: An energy transfer apparatus includes a cable having first end with a first connector operably coupled thereto and a second end with a second connector operably coupled thereto. The energy transfer apparatus also includes a control unit coupled to the cable. The control unit includes a device interface module configured to determine a first energy parameter of a first portable device connected to the cable via the first connector and to determine a second energy parameter of a second portable device connected to the cable via the second connector. The control unit also includes an energy transfer module configured to facilitate energy transfer between the first and second portable devices based on the first and second energy parameters.

Abstract: A hands-free intercom may include a user-tracking sensor, a directional microphone, a directional sound emitter, and a communication interface. The user-tracking sensor may determine a location of a user so the directional microphone can measure vocal emissions by the user and the directional sound emitter can deliver audio to the user. The hands-free intercom may determine whether the user is communicatively coupled via a mobile device to a remote entity. The hands-free intercom may be configured to receive a handoff of the communicative coupling, for example, by acting as a peripheral of the mobile device, by requesting the handoff, and/or the like. The hands-free intercom may be configured to deliver communications from the user to an appliance and vice versa. The hands-free intercom may manage access rights of the various entities to prevent unauthorized communications.

Abstract: A system and associated methods of operation for tracking vehicles, such as automobiles, aircraft, boats, unmanned aerial vehicles, and drones. The system includes a communication interface for receiving measurements and observations of a sighting location for each of one or more vehicles from a plurality of independent observers, which may include both human observers and equipment, such as cameras, phones, telescopes, and other automated tracking devices. Upon receiving the location information, a processor associates one or more measurements with a selected vehicle and computes a location of the selected vehicle based on the measurements. In some instances, the processor may also determine a flight path of the selected vehicle based on the measurements.

Abstract: A system and associated methods of operation for tracking vehicles, such as automobiles, aircraft, boats, unmanned aerial vehicles, and drones. The system includes a communication interface for receiving measurements and observations of a sighting location for each of one or more vehicles from a plurality of independent observers, which may include both human observers and equipment, such as cameras, phones, telescopes, and other automated tracking devices. Upon receiving the location information, a processor associates one or more measurements with a selected vehicle and computes a location of the selected vehicle based on the measurements. In some instances, the processor may also determine a flight path of the selected vehicle based on the measurements.

Abstract: Methods of controlling the operation of a device traveling in a body tube tree, including sensing parameters from possible directions of travel and selecting the direction of travel based on the sensed parameters, implemented with a control system located partially or fully on the lumen traveling device. Various actions can be performed by the device for, e.g., medical or therapeutic purposes. Machine-readable media including instructions for performing the methods are also described.

Abstract: In an embodiment, a nerve stimulation earpiece includes an ear canal insert, and a concha insert. The canal insert fits into an ear canal of a subject. The canal insert includes a first electrode configured to electrically contact skin within the ear canal of the subject. The concha insert fits within a concha of the subject. The concha insert includes a base portion that fits within the cavum of the concha of the subject, a wing portion that fits within the cymba of the concha of the subject, and at least one second electrode configured to electrically contact at least a portion of the concha. The earpiece includes a first electrical connector for connecting the first electrode on the canal insert to a first electrical current source, and a second electrical connector for connecting the second electrode on the concha insert to a second electrical current source.

Abstract: The present disclosure provides systems and methods for using compressed sensing for imaging an object for use in combination with an entertainment or infotainment device. For example, the system may utilize a few—(e.g., 1, 2, 3 . . . ) pixel imaging sensor to obtain coarse image data from each of a plurality of subregions of a region of interest. Compressed sensing techniques may then be used to estimate a higher resolution image of the region of interest using the coarse image data from the plurality of subregions.

Abstract: A method, composition and system respond to ionizing radiation to adjust biological activity. In some approaches the ionizing radiation is X-ray or extreme ultraviolet radiation that produces luminescent responses that induce biologically active responses.

Abstract: Described embodiments include an electromagnetic beam steering apparatus. The apparatus includes a first planar refractive component including a first tangential refractive index gradient deflecting an electromagnetic beam at a first deflection angle. The apparatus includes a second planar refractive component including a second tangential refractive index gradient deflecting an electromagnetic beam at a second deflection angle. The apparatus includes an electromagnetic beam steering structure configured to independently rotate the first planar refractive component and the second planar refractive component about a coaxial axis such that an electromagnetic beam incident on the first planar refractive component exits the second planar refractive component as a steered electromagnetic beam.

Abstract: A lightweight transport vessel transports compressed natural gas underwater without needing to liquefy the gas for transport.

Abstract: Described embodiments include an electromagnetic beam steering apparatus. The apparatus includes a first blazed transmission diffraction grating component configured to angularly deflect an electromagnetic beam at a first blaze angle. The apparatus includes a second blazed transmission diffraction grating component configured to angularly deflect an electromagnetic beam at a second blaze angle. The apparatus includes an electromagnetic beam steering structure configured to independently rotate the first blazed transmission diffraction grating component and the second blazed transmission diffraction grating component about a coaxial axis such that an electromagnetic beam incident on the first blazed transmission diffraction grating component exits the second blazed transmission diffraction grating component as a steered electromagnetic beam.

Abstract: Described embodiments include an electromagnetic beam steering apparatus. The apparatus includes a first electromagnetic beam deflecting structure including a first artificially structured effective media having at least two first electronically-selectable tangential refractive index gradients. Each electronically-selectable tangential refractive index gradient of the at least two first electronically selectable tangential refractive index gradients deflecting an incident electromagnetic beam at a respective first deflection angle. The apparatus includes a second electromagnetic beam deflecting structure including a second artificially structured effective media having at least two second electronically-selectable tangential refractive index gradients. Each electronically-selectable tangential refractive index gradient of the at least two second electronically selectable tangential refractive index gradients deflecting an incident electromagnetic beam at a respective second deflection angle.

Abstract: A system and method for repowering an unmanned aircraft system is disclosed. The system and method may comprise use of a utility transmission system configured to function as power system/source for UAV/aircraft and UAV/aircraft configured to interface with the power source/system. Systems and methods provide access and for administrating, managing, and monitoring access and interfacing by UAV/aircraft with the power system/source. UAV/aircraft system can be configured and operated/managed to interface with and use the power system/source (e.g. network of power lines from a utility transmission system) to enhance range and utility (e.g. for repowering and/or as a flyway or route). The system comprises an interface between the aircraft and the power source for power transfer; a monitoring system to monitor the aircraft; and an administrative/management system to manage interaction/transaction with the aircraft.

Abstract: A system for fragmenting material includes an energy source, an acoustic transmitter coupled to the energy source and having a unit acoustic source configured to emit an acoustic wave through a volume of ground material, a signal reflecting device, and a controller configured to engage the acoustic transmitter such that the unit acoustic source emits an acoustic locating wave toward the signal reflecting device. The controller is configured to engage the acoustic transmitter such that the unit acoustic source emits the acoustic wave toward a target location, and the acoustic wave is configured to fracture the volume of ground material at the target location.

Abstract: A system and method for repowering an unmanned aircraft system is disclosed. The system and method may comprise use of a utility transmission system configured to function as power system/source for UAV/aircraft and UAV/aircraft configured to interface with the power source/system. Systems and methods provide access and for administrating, managing, and monitoring access and interfacing by UAV/aircraft with the power system/source. UAV/aircraft system can be configured and operated/managed to interface with and use the power system/source (e.g. network of power lines from a utility transmission system) to enhance range and utility (e.g. for repowering and/or as a flyway or route). The system comprises an interface between the aircraft and the power source for power transfer; a monitoring system to monitor the aircraft; and an administrative/management system to manage interaction/transaction with the aircraft.

Abstract: The present disclosure provides systems and methods for using two imaging modalities for imaging an object at two different resolutions. For example, the system may utilize a first modality (e.g., ultrasound or electromagnetic radiation) to generate image data at a first resolution. The system may then utilize the other modality to generate image data of portions of interest at a second resolution that is higher than the first resolution. In another embodiment, one imaging modality may be used to resolve an ambiguity, such as ghost images, in image data generated using another imaging modality.

Abstract: A display system includes a display, a content component, a focus region component, and a refresh rate component. The display is configured to selectively display information with refresh rates that vary across a plurality of display regions of the display screen. The content component is configured to receive content for display on the display screen and to provide the content to the display. The focus region component is configured to determine a focus region of a user in relation to the display screen. The focus region includes one of the plurality of display regions at which a user is likely looking. The refresh rate component is configured to select the refresh rates of the display elements in the plurality of display regions. A refresh rate in the focus region may be different than a refresh rate in one or more other display regions of the plurality of display regions.

Abstract: Described embodiments include a system and method. A computer-implemented method includes receiving electronic data indicative of at least two incremental movements of a vehicle moving over a stochastic surface during a period of time proximate to an event. The electronic data is responsive to a correlation vector between a feature of the stochastic surface in a first digital image captured at a first time by a first digital imaging device carried by the vehicle and the feature of the stochastic surface in a second digital image captured at a subsequent second time by a second digital imaging device carried by the vehicle. The method includes determining in response to the received electronic data a behavior of the vehicle during the period of time proximate to the event. The method includes electronically outputting data indicative of the determined behavior of the vehicle during the period of time proximate to the event.