Abstract: A vehicle drivetrain includes a magnetic bearing. The vehicle drivetrain includes a motor configured to provide a rotational driving force. The rotational driving force is received by a shaft, and the magnetic bearing is configured to support the shaft. The shaft is configured to drive a wheel of the vehicle.

Abstract: Systems, devices, methods, and compositions are described for providing an x-ray shielding system including a flexible layer including a support structure having a plurality of interconnected interstitial spaces that provide a circulation network for an x-ray shielding fluid composition.

Abstract: An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.

Abstract: A helmet testing apparatus including a movable member, a sensor coupled to the movable member and configured to acquire compliance data regarding a liner disposed within a shell of a helmet through engagement of the sensor with the liner, and a processing circuit configured to determine a rating for the helmet based on the compliance data and predetermined compliance parameters for the helmet.

Abstract: A helmet testing apparatus including a movable member, a sensor coupled to the movable member and configured to acquire compliance data regarding a liner disposed within a shell of a helmet through engagement of the sensor with the liner, and a processing circuit configured to determine a rating for the helmet based on the compliance data and predetermined compliance parameters for the helmet.

Abstract: An underwater carbon dioxide storage facility including a carbon dioxide deposit stored underwater as a clathrate includes a flexible barrier disposed at least partially over the carbon dioxide deposit. The carbon dioxide deposit may be stored in or at the bottom of a body of water.

Abstract: An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.

Abstract: An electronic device may include a touch screen electronic display configured to offset and/or shift the contact locations of touch implements and/or displayed content based on one or more calculated parallax values. The parallax values may be associated with the viewing angle of an operator relative to the display of the electronic device. In various embodiments, the parallax value(s) may be calculated using three-dimensional location sensors, an angle of inclination of a touch implement, and/or one or more displayed calibration objects. Parallax values may be utilized to remap contact locations by a touch implement, shift and/or offset displayed content, and/or perform other transformations as described herein. A stereoscopically displayed content may be offset such that a default display plane is coplanar with a touch surface rather than a display surface. Contacts by a finger may be remapped using portions of the contact region and/or a centroid of the contact region.

Abstract: Devices and methods for competency training and use authorization for dispensing an agent are described, which include: an agent-dispensing device including a reservoir configured to store agents, a controllable agent-dispensing mechanism in communication with the reservoir, a locking mechanism coupled to the controllable agent-dispensing mechanism, a microprocessor including circuitry, use sensors to monitor at least one operational step for use of the agent-dispensing device, training circuitry configured to train the user and to assign a value for each of the monitored at least one operational step for use of the agent-dispensing device, verification circuitry configured to determine if the assigned value for each of the monitored at least one operational step for use of the agent-dispensing device meets or exceeds a pre-defined performance threshold, and activation circuitry responsive to the verification circuitry and configured to deactivate the locking mechanism to allow dispensing of agents if the ass

Abstract: A germination facility includes a seedling growing system configured to grow a plurality of seedlings; and a seedling sorting device configured to receive spatially variable planting data regarding a planting area for planting the seedlings; receive seedling data regarding the plurality of seedlings; and arrange the plurality of seedlings in a planting container based on the seedling data and on the planting data.

Abstract: A display system includes a display, a focus region component, a content update component, and a content component. The focus region component is configured to determine a focus region of a user in relation to a display screen of the display. The focus region includes a region of the display screen at which a user is likely looking. The content update component is configured to select content update rates for a plurality of display regions of the display screen, including the focus region. The content update rate in the focus region is different than a content update rate in one or more other display regions of the plurality of display regions. The content component is configured to receive content and updated content for display on the display screen and to provide the content to the display based on the content update rates.

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: In some embodiments, a temperature-controlled container for use within a refrigeration device includes: one or more sections of insulation material substantially defining one or more walls of a temperature-controlled container, the temperature-controlled container including an internal region; a thermally-insulated partition dividing the internal region to form a storage region and a phase change material region internal to the container, the thermally-insulated partition including a conduit between the storage region and the phase change material region; a thermal control device within the conduit; an aperture within a section of the insulation material substantially defining the container, the aperture between the phase change material region internal to the container and an external surface of the container; and a unidirectional thermal conductor positioned within the aperture, the unidirectional thermal conductor configured to transmit heat in a direction from the phase change material region to the exter

Abstract: A vehicle tire pressure control system includes a road sensor configured to acquire road data regarding a road at an advanced location ahead of a current location of a vehicle; a pressure regulator configured to control the air pressure within a tire of the vehicle during operation of the vehicle; and a controller configured to control operation of the pressure regulator and vary the air pressure within the tire based on the road data.

Abstract: Embodiments disclosed herein relate to methods, devices, and computer systems thereof for automated data collection from a subject. In certain embodiments, one or more characteristics of a subject are sensed, and the subject is given a queue status indicator based on a comparison of the subject's one or more sensed characteristics with corresponding sensed characteristics from other subjects. In one embodiment, the subject is a healthcare worker and the system, methods, and devices are utilized to evaluate the overall health of the worker as part of the check-in process for work.

Abstract: Portage storage containers including controlled evaporative cooling systems are described herein. In some embodiments, a portable container including an integral controlled evaporative cooling system includes: a storage region, an evaporative region adjacent to the storage region, a desiccant region adjacent to the outside of the container, and an insulation region positioned between the evaporative region and the desiccant region. A vapor conduit with an attached vapor control unit has a first end within the evaporative region and a second end within the desiccant region. In some embodiments, the controlled evaporative cooling systems are positioned in a radial configuration within the portable container.

Abstract: A computerized method of customizing hardware for a mobile phone is provided. The method includes receiving shell selection information from a user input device, identifying a set of hardware components, the set of hardware components generated based on a compatibility between the hardware components and the shell selection information, and outputting the identified set of compatible hardware components.

Abstract: Multi-compartment pharmaceutical vials are described. In some embodiments, a multi-compartment pharmaceutical vial includes: a multi-compartment pharmaceutical storage region including a bottom wall, at least one outer wall and at least one interior wall, the bottom wall, the at least one outer wall and the at least one interior wall forming a plurality of pharmaceutical storage compartments, each pharmaceutical storage compartment including an aperture positioned opposite to the bottom wall of the pharmaceutical storage region; and an access region attached to the pharmaceutical storage region, the access region including a plurality of conduits, each with a first end and a second end, wherein the first end of each conduit is connected to one aperture in a pharmaceutical storage compartment, and the second end of each conduit circumscribes an aperture positioned opposite to the bottom wall.

Abstract: A method of customizing hardware by an end user for a mobile phone is provided. The method includes receiving from an end-user a selection of a mobile phone shell from a set of mobile phone shells, sending to the end-user a subset of interchangeable hardware components having different functions, and receiving from the end-user a selection of at least one hardware component from the subset of interchangeable hardware components. The subset of interchangeable hardware components is generated based on a compatibility between the selected mobile phone shell and the set of available interchangeable hardware components.

Abstract: A needle insertion system is disclosed that includes a moveable hollow needle having a distal tip configured to be transdermally inserted into a vertebrate subject at an insertion-target region; at least one sensor operable to detect skin structure at a position in proximity to the distal tip of the moveable needle in the insertion-target region; and control circuitry operably coupled to the at least one sensor and configured to receive information therefrom indicating the skin structure at the insertion-target region in proximity to the distal tip, and the control circuitry configured to output moveable needle targeting instructions to control movement of the moveable needle into the skin in response to one or more signals from the at least one sensor detecting the skin structure in proximity to the distal tip. A method for inserting a movable needle of a needle insertion system into a vertebrate subject is disclosed.