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 device, a system, or a method is described for treating a disease or a condition of one or more joints of articulating bone in a mammalian subject. The device provides one or more medicaments to one or more joints of the mammalian subject. A device is described that includes one or more sheaths configured to contact one or more body contours in proximity to one or more joints of articulating bone of a mammalian subject; one or more sensors configured to detect one or more physiological conditions of the one or more joints; and one or more applicators supported by the one or more sheaths and configured to respond to the one or more sensors by injecting one or more medicaments to the one or more joint tissues of the mammalian subject.

Abstract: Described embodiments include an apparatus and a method. In an apparatus, a tracking circuit detects a segment of a path defined by a user contact point moving across a touch sensitive display. An analysis circuit determines a parameter descriptive of a motion of the user contact point during the detected segment. A selection circuit selects a time-interval forecasted to improve a correspondence between a predicted next segment of the path and a subsequently detected next segment of the path. A filter predicts in response to the motion parameter and the selected time-interval a next segment of the path. A compensation circuit initiates a display of the detected segment of the path and the predicted next segment of the path. An updating circuit initiates an update of the detected segment of the path and the predicted next segment of the path as the user contact point moves across the display.

Abstract: Described embodiments include an apparatus and a method. In an apparatus, a touch tracking circuit detects a segment of a path defined by a user contact point moving across a touch sensitive display. A motion analysis circuit determines a parameter descriptive of a motion of the user contact point during its movement across the detected segment of the path (hereafter “motion parameter”). A filter predicts in response to the motion parameter a next contiguous segment of the path defined by the user-contact point moving across the touch sensitive display. A compensation circuit initiates a display by the touch sensitive display of the detected segment of the path and the predicted next segment of the path. An updating circuit initiates an update of the detected segment of the path and the predicted next contiguous segment of the path as the user contact point moves across the touch sensitive display.

Abstract: Described embodiments include an apparatus and a method. In an apparatus, a tracking circuit detects a segment of a path defined by a user contact point moving across a touch sensitive display. A filter predicts a next contiguous segment of the path defined by the user contact point in response to an adaptively learned motion parameter. The adaptively learned motion parameter is based on at least two previous instances of the determined motion parameters respectively descriptive of a motion of a user contact point during its movement across the touch sensitive display. A compensation circuit initiates a display by the touch sensitive display of the detected segment of the path and the predicted next contiguous segment of the path. An updating circuit updates the detected segment of the path and the predicted next contiguous segment of the path as the user contact point moves across the touch sensitive display.

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: 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: In some embodiments, a refrigeration device includes: walls substantially forming a liquid-impermeable container configured to hold phase change material internal to the refrigeration device; at least one active refrigeration unit including a set of evaporator coils positioned at least partially within the liquid-impermeable container; a unidirectional thermal conductor with a condensing end and an evaporative end, the condensing end positioned within the liquid-impermeable container; a first aperture in the liquid-impermeable container, the first aperture of a size, shape and position to permit the set of evaporator coils to traverse the aperture; a second aperture in the liquid-impermeable container, the second aperture including an internal surface of a size, shape and position to mate with an external surface of the unidirectional thermal conductor; and one or more walls substantially forming a storage region in thermal contact with the evaporative end of the unidirectional thermal conductor.

Abstract: A system may produce images including narrow-bandwidth colors. One or more sets of the narrow-bandwidth colors may be selected to be interpreted as substantially a same color by a user. The system may include a light source configured to produce the narrow-bandwidth colors, and/or narrow-passband filters may create narrow-bandwidth colors from light emitted by broad-spectrum light sources or color sources. Spatial and/or time multiplexing may be used to create separate narrow-bandwidth colors interpreted as substantially a same color by the user. The light source and/or the narrow-passband filter elements may be adjustable and may alternate between emission of two or more narrow-bandwidth colors. A viewing device may include filters configured to selectively filter the narrow-bandwidth colors. The user may filter the narrow-bandwidth colors to separate a stereoscopic image pair, to view an image specific to a user, to view desired content obfuscated by an obfuscating image, and/or the like.

Abstract: A system may produce images including narrow-bandwidth colors. One or more sets of the narrow-bandwidth colors may be selected to be interpreted as substantially a same color by a user. The system may include a light source configured to produce the narrow-bandwidth colors, and/or narrow-passband filters may create narrow-bandwidth colors from light emitted by broad-spectrum light sources or color sources. Spatial and/or time multiplexing may be used to create separate narrow-bandwidth colors interpreted as substantially a same color by the user. For example, the light source and/or the narrow-passband filter elements may be adjustable and may alternate between emission of two or more narrow-bandwidth colors. A viewing device may include filters allowing the user to selectively filter the narrow-bandwidth colors. The user may filter the narrow-bandwidth colors to separate a stereoscopic image pair, to view a user-specific image, to view desired content obfuscated by an obfuscating image, and/or the like.

Abstract: A mobile device includes a shell; a first replaceable hardware component received within the shell; and a second replaceable hardware component received within the shell, the second replaceable hardware component configured to receive a wireless power signal from a remote device and convert the power signal into electrical energy usable by the mobile device.

Abstract: A system may produce images including narrow-bandwidth colors. One or more sets of the narrow-bandwidth colors may be selected to be interpreted as substantially a same color by a user. The system may include a light source configured to produce the narrow-bandwidth colors, and/or narrow-passband filters may create narrow-bandwidth colors from light emitted by broad-spectrum light sources or color sources. Spatial and/or time multiplexing may be used to create separate narrow-bandwidth colors interpreted as substantially a same color by the user. For example, the light source and/or the narrow-passband filter elements may be adjustable and may alternate between emission of two or more narrow-bandwidth colors. A viewing device may include filters allowing the user to selectively filter the narrow-bandwidth colors. The user may filter the narrow-bandwidth colors to separate a stereoscopic image pair, to view a user-specific image, to view desired content obfuscated by an obfuscating image, and/or the like.

Abstract: An embodiment of a risk-management method includes determining a risk that an insurer will deny coverage for treating an insured for a condition, and calculating, in response to a determined risk, a fee for taking an action if the insurer denies coverage for treating the insured. Such an embodiment may aid in managing a risk of a liability that may be incurred if an insurer under a medical insurance policy denies coverage for treating an insured under the policy. Examples of such liability include money owing to a physician or other provider that treated the insured, interest on the money owing, late fees and other penalties, and a downgrading of the credit of the insured or of a party financially responsible for the insured.

Abstract: An embodiment of a method includes generating a description of an asset that includes at least one coverage-denial contract, and generating an offer to transfer, or a solicitation of an offer to acquire, the asset. The asset may also include one or more instruments other than the at least one coverage-denial contract. Such an embodiment may allow a party to a coverage-denial contract to diversify its risk, or to recoup at least a portion of the fee it paid under the contract. An example of a coverage-denial contract includes a party paying a fee (e.g., an insurance premium) for another party to take an action (e.g., pay money to, or on behalf of, the party) if an insurer under another contract denies coverage for treating an insured under the other contract.

Abstract: An embodiment of a risk-management method includes determining a risk that one or more insurers will deny coverage for treating one or more insured for one or more conditions, and calculating, in response to a determined risk, a fee for taking a respective action for each instance of at least one of the one or more insurers denying coverage for treating at least one of the one or more insured. Such an embodiment may aid in managing a risk of a liability that may be incurred if one or more insurers under one or more medical insurance policies deny coverage for treating one or more insured under the one or more polices. An example of such liability includes money owing to one or more physicians or other treatment providers that treated the one or more insured (or, from a treatment provider's perspective, the inability to collect such money owing).

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: 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 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 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 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.