Patent application number | Description | Published |
20140285402 | SOCIAL DATA-AWARE WEARABLE DISPLAY SYSTEM - Techniques associated with a social data-aware wearable display system are described, including a frame configured to be worn, a display coupled to the frame, the display configured to provide an image in a field of vision, a sensor configured to capture sensor data, a secondary sensor configured to capture environmental data, a sensor analytics module configured to process the sensor data and the environmental data to generate sensor analytics data, and a communication facility configured to send sensor analytics data to another device and to receive remote data. Some embodiments also include an adaptive optics module configured to determine an optical distortion to be applied to the image. | 09-25-2014 |
20150138700 | FLEXIBLE SUBSTRATES FOR WEARABLE DEVICES - Embodiments relate generally to wearable electrical and electronic hardware, computer software, wired and wireless network communications, and to wearable/mobile computing devices. More specifically, various embodiments are directed to, for example, a flexible substrate. In one example, a wearable device may include a framework configured to be worn or attached, and a flexible substrate coupled to the framework. The flexible substrate may include a first end and a second end, and may include one or more conductive layer structures and a conductive laminate structure. The flexible substrate may include rigid regions configured to receive one or more components including a sensor, an electrode, and/or a logic circuit (e.g., bioimpedance logic circuit). | 05-21-2015 |
20150146355 | ALIGNMENT OF COMPONENTS COUPLED TO A FLEXIBLE SUBSTRATE FOR WEARABLE DEVICES - Embodiments relate generally to wearable electrical and electronic hardware, computer software, wired and wireless network communications, and to wearable/mobile computing devices. More specifically, various embodiments are directed to, for example, aligning a flexible substrate and/or components thereof during fabrication to enhance reliability. In one example, a method includes forming a framework that includes, for example, a portion (e.g., an anchor portion) configured to couple to a flexible substrate, the portion having a neutral axis. Also, the method may include forming a flexible substrate that includes a supported flex region including conductors and one or more rigid regions configured to receive one or more components. A rigid region might include an encapsulated rigid region. The method further may also include aligning the encapsulated rigid region at an angle to the neutral axis, and molding over the encapsulated rigid region. | 05-28-2015 |
20150189753 | STRESS-TOLERANT INTERCONNECTIONS FOR CONNECTIVITY IN WEARABLE ELECTRONICS PLATFORMS - Embodiments relate generally to wearable electrical and electronic hardware, computer software, wired and wireless network communications, and to wearable/mobile computing devices configured to facilitate communication among electronic devices, including mobile phones and media devices that present audio and/or video content. More specifically, disclosed are wearable systems, platforms and methods for providing stress-tolerant interconnections to enhance signal connectivity reliability in a wearable device. In various embodiments, a wearable electronics platform can include circuit substrates and interconnect portions disposed coextensive with a longitudinal surface between the circuit substrates. An interconnection portion can include conductors having one or more stress-relief features, and an elastic material encapsulating the conductors. In some examples, the longitudinal surface including the interconnects and the circuit substrates can be configured to substantially encircle an axis. The axis can coincide with a body part or an appendage, such as a wrist. | 07-02-2015 |
20150237460 | WIRELESS ENABLED CAP FOR DATA-CAPABLE BAND - A data-capable band including a wirelessly enabled housing may include a sensor operative to capture sensor data, a plug coupled with the band and operative to send the sensor data to another device having a structure configured to receive the plug, the housing operative to be removeably coupled with the band and including a cavity operative to house the plug, and a microchip disposed within the housing and operative to electrically communicate stored data in accordance with a short-range communication standard (e.g., one or more wireless communication standards and/or protocols). The housing may comprise a cap or cap-like structure. The housing may include an antenna electrically coupled with the microchip. The microchip may be passive and may include circuitry to passively receive electrical power from an external source other than circuitry in the band (e.g., an externally generated RF signal electrically coupled with the microchip through one or more antennas). | 08-20-2015 |
20150237461 | WIRELESS ENABLED CAP FOR A DATA-CAPABLE DEVICE - A housing (e.g., a wearable structure) includes one or more sensors operative to capture sensor data and a plug operative to electrically communicate data (e.g., the sensor data) to another device via a hard wired connection. A wirelessly enabled cap may be removably coupled with the housing and may include: a cavity operative to house the plug; a RF chip disposed within the housing; and one or more antennas electrically coupled with the chip. The chip is operative to wirelessly communicate data (e.g., the sensor data) in accordance with one or more wireless communication protocols (e.g., short-range, long-range, near field). The one or more antennas may form an exterior portion(s) of the housing and/or may be embedded in a portion(s) of the housing. The chip may be passive powered from an external RF source (e.g., an externally generated RF signal electrically coupled with the chip through one or more antennas). | 08-20-2015 |
20150241915 | CONDUCTIVE STRUCTURES FOR A FLEXIBLE SUBSTRATE IN A WEARABLE DEVICE - Embodiments relate generally to wearable electrical and electronic hardware, computer software, wired and wireless network communications, and to wearable/mobile computing devices. More specifically, various embodiments are directed to, for example, conductive structures for a flexible substrate, a component coupled to the flexible substrate, and/or a wearable device. In one example, a wearable device includes a framework configured to be worn or attached, and a flexible substrate coupled to the framework. In some examples, the flexible substrate may have a first end and a second end, and may include one or more resilient conductive structures, and one or more rigid regions configured to receive one or more components including a sensor, or, for example, electrodes for a bioimpedance sensor. | 08-27-2015 |