Abstract: High temperature superconductor (HTS)-based interconnect systems comprising a cable including HTS-based interconnects are described. Each of the HTS-based interconnects includes a first portion extending from a first end towards an intermediate portion and a second portion extending from the intermediate portion to a second end. Each of the HTS-based interconnects includes a substrate layer formed in the first portion, in the intermediate portion, and in the second portion, a high temperature superconductor layer formed in at least a sub-portion of the first portion, in the intermediate portion, and in the second portion, and a metallic layer formed in the first portion and in at least a sub-portion of the intermediate portion. The HTS-based interconnect system includes a thermal load management system configured to maintain the intermediate portion of each of the HTS-based interconnects at a predetermined temperature in a range between a temperature of 60 kelvin and 92 kelvin.

Abstract: Techniques for providing third party incentivized communications sessions are described. In some embodiments, a Voice over IP (VoIP) conversation is sampled for audio information such as a word, phrase, utterance, or phoneme that may be associated with an advertisement in a database. The database may be searched for the audio information, or in some embodiments a text equivalent of the audio information, and the associated advertisement may be served to a participant in the VoIP communication session. In some implementations, data from or about the conversation may be compiled for analysis.

Abstract: A system for displaying visual information to a user includes a waveguide and a thermal management device. The waveguide has a front surface, a rear surface, and a dual expansion grating area to guide light through the waveguide. The thermal management device is positioned at least partially overlapping the dual expansion grating area and in thermal communication with the dual expansion area.

Abstract: A system for displaying visual information to a user includes a waveguide and a thermal management device. The waveguide has a front surface, a rear surface, and a dual expansion grating area to guide light through the waveguide. The thermal management device is positioned at least partially overlapping the dual expansion grating area and in thermal communication with the dual expansion area.

Abstract: A system and method providing a capture device autonomously determining its own operational window in the presence of other such devices. The capture device includes an imaging sensor having a field of view and an illumination source. A processor includes code instructing the processor to scan the field of view another illumination source operating in a recurring window of time proximate to the capture device. If illumination occurs from another source within the recurring window, an operational window for the second illumination source is determined an a new a new operational window within the recurring window established for the capture device.

Abstract: Technology is presented for providing feedback to a user on an ability of an executing application to track user action for control of the executing application on a computer system. A capture system detects a user in a capture area. Factors in the capture area and the user's actions can adversely affect the ability of the application to determine if a user movement is a gesture which is a control or instruction to the application. One example of such factors is a user being out of the field of view of the capture system. Some other factor examples include lighting conditions and obstructions in the capture area. Responsive to a user tracking criteria not being satisfied, feedback is output to the user. In some embodiments, the feedback is provided within the context of an executing application.

Abstract: A system and method providing gesture controlled video conferencing includes a local capture device detecting movements of a user in a local environment and an audio/visual display. A processor is coupled to the capture device and a remote capture device and a remote processor at a remote environment via a network. The local processor includes instructions to render a representation of the remote environment on the display responsive to the remote processor and remote capture device. The processor also tracks movements of a local user in a space proximate to the local capture device. Responsive to a user gesture detected at the local capture device, the audio or visual signals provided by the remote capture device are altered to change the representation of the remote location is altered locally.

Abstract: A method comprises receiving one or more depth images from a depth camera, the depth images indicating a depth of a surface imaged by each pixel of the depth images. The method may further comprise identifying a human subject imaged by the depth images and recognizing within one or more of the depth images a beacon emitted from a control device. A position of the control device may be assessed in three dimensions, and the control device may be associated with the human subject based on a proximity of the control device to the human subject or other parameter of the control device with relation to the human subject.

Abstract: A “Mixed-Reality Headset” include an attachment mechanism for a smartphone or other portable computing device. A combination of the smartphone display with various internal headset optics present both augmented reality (AR) and virtual reality (VR). The Mixed-Reality Headset provides low cost, high performance, easy to use AR and VR experiences with unmodified smartphone hardware, thereby improving user experience and interaction with smartphones. In various implementations, applications associated with the Mixed-Reality Headset consider user movement and tracking (e.g., head, eye, hands, body) and real-world environmental mapping when rendering AR and VR content. The Mixed-Reality Headset easily and quickly transitions between AR and VR scenarios by causing transparent optical members to either pass light or block light, thereby either showing or hiding views of the real world.

Abstract: Techniques are provided for authenticating a phone or other device for a user. A phone or other device is provided to the user. A personal identification number is provided to the user. The personal identification number is used to authenticate the phone or other device in the network for the user.

Abstract: A code sequence relayed to an infrared blaster is monitored. If the code sequence approaches a violating sequence, the infrared blaster is controlled to emit infrared light with a corrected sequence that does not express the violating sequence. If the code sequence does not approach the violating sequence, the infrared blaster is controlled to emit infrared light with the code sequence.

Abstract: Embodiments disclosed herein are directed to time-of-flight (TOF) systems, and methods for use therewith, that substantially reduce interference that the TOF system may cause to at least one other system that is configured to wirelessly receive and respond to IR light signals. Some such embodiments involve emitting IR light having a low frequency (LF) power envelope that is shaped to substantially reduce frequency content within at least one frequency range known to be used by at least one other system that may be in close proximity to the TOF system. Such embodiments can also involve detecting at least a portion of the emitted RF modulated IR light that has reflected off one or more objects. A TOF system can produce depth images in dependence on results of the detecting, as well as update an application in dependence on the depth images.

Abstract: A system and method providing gesture controlled video conferencing includes a local capture device detecting movements of a user in a local environment and an audio/visual display. A processor is coupled to the capture device and a remote capture device and a remote processor at a remote environment via a network. The local processor includes instructions to render a representation of the remote environment on the display responsive to the remote processor and remote capture device. The processor also tracks movements of a local user in a space proximate to the local capture device. Responsive to a user gesture detected at the local capture device, the audio or visual signals provided by the remote capture device are altered to change the representation of the remote location is altered locally.

Abstract: An optical structure useful in a see-through head mounted display apparatus is provided. A first and a second partially reflective and transmissive elements are configured to receive the output of any number of optical sources via an optical element. Each reflective and transmissive element is positioned along an optical viewing axis for a wearer of the device with an air gap between the elements. Each reflective and transmissive element has a geometric axis which is positioned in an off-axis relationship with respect to the optical viewing axis. The off-axis relationship may comprise the geometric axis of one or both elements being at an angle with respect to the optical viewing axis and/or vertically displaced with respect to the optical viewing axis.

Abstract: Technology for detecting a change in a configuration position of one or more elements in an illumination system is described. A light source generates an illumination signal, and an element of the system directs a portion of the light of the signal back to a light detector. In one example, the portion of light is reflected back to the light detector. By monitoring an output signal of the light detector based on the directed light, control circuitry can detect that a position of an element of the system has changed. In one example, an off-the-shelf integrated circuit laser diode package including a monitor photodiode can be used with a reflective element. In one example, the reflective element is a tilted optical element. Changes can be detected in the configuration of one or more optical elements of the illumination system which are outside the laser diode package.

Abstract: A system and method providing gesture controlled video conferencing includes a local capture device detecting movements of a user in a local environment and an audio/visual display. A processor is coupled to the capture device and a remote capture device and a remote processor at a remote environment via a network. The local processor includes instructions to render a representation of the remote environment on the display responsive to the remote processor and remote capture device. The processor also tracks movements of a local user in a space proximate to the local capture device. Responsive to a user gesture detected at the local capture device, the audio or visual signals provided by the remote capture device are altered to change the representation of the remote location is altered locally.

Abstract: Techniques are provided for determining distance to an object in a depth camera's field of view. The techniques may include raster scanning light over the object and detecting reflected light from the object. One or more distances to the object may be determined based on the reflected image. A 3D mapping of the object may be generated. The distance(s) to the object may be determined based on times-of-flight between transmitting the light from a light source in the camera to receiving the reflected image from the object. Raster scanning the light may include raster scanning a pattern into the field of view. Determining the distance(s) to the object may include determining spatial differences between a reflected image of the pattern that is received at the camera and a reference pattern.

Abstract: The subject disclosure is directed towards using an emitter such as an IR blaster to output control traffic (e.g., control codes that control operation of an appliance or toy) and data traffic. The timing of the output of the control code traffic and the data traffic is controlled so that the control code traffic and the data traffic are independent of one another in time. The control code traffic may be output in between outputting the data traffic, so that a user does not perceive a delay when attempting to control a device via interactive control code requests.

Abstract: Various embodiments related to monitoring for optical faults in an optical system are disclosed. For example, one disclosed embodiment provides, in an optical system comprising a light source, a light outlet, and an optical element disposed between the light source and the light outlet, a method of monitoring for optical system faults. The method includes detecting, via a light sensor directed toward an interface surface of the optical element closest to the light source, an intensity of light traveling from the interface surface of the optical element to the light sensor, and comparing an intensity of light detected to one or more threshold intensity values. The method further includes identifying an optical system fault condition based on comparing the intensity of light detected to one or more threshold values, and modifying operation of the optical system.

Abstract: The claimed subject matter relates to various architectures that can, inter alia, facilitate creation of a synch file as well as facilitate interpretation of the synch file. Both creation and interpretation can be accomplished in conjunction with an original media asset. The synch file can include transformation commands that can operate on a presentation of the asset rather than upon the asset itself. Accordingly, what is actually perceived by a content consumer during a presentation of the asset need not be exactly what the asset creator fixed in a tangible medium. Rather, the content consumer can observe a derivative media presentation based upon interpretation of the synch file.