Abstract: Methods, apparatus, systems and articles of manufacture are disclosed. An example apparatus to update a spatially adjustable display disclosed herein includes a display size monitor to acquire an indication of a size of the spatially adjustable display, a service image comparator to compare the indication of the size to a size model, and a source image adjuster to invoke visual configuration adjustments to an output image of the spatially adjustable display based on parameters identified in the size model.

Abstract: Various embodiments are generally directed to an apparatus, method and other techniques to determine a threshold value of power for a fundamental function for a device, determine whether a current power level of a power source is equal to or less than the threshold value for the fundamental function. Further, and in response to determining the current power level is less than or equal to the threshold value, prohibit operation of an extended function, and in response to determining the current power level is not less than or equal to the threshold value, permit operation of the extended function.

Abstract: The present disclosure pertains to extended visual capture in a reconfigurable device. In general, at least a display portion of a device may have a deformable shape configuration in that its shape is changeable by a user. The device may also comprise at least sensor circuitry including a plurality of sensors. The shape configuration may position the plurality of sensors at different positions to enable extended visual capture of a 180 to 360 degree viewing range surrounding the device in a single image or video. Control circuitry in the device may determine when shape reconfiguration of at least the display has occurred, determine whether the new shape configuration involves visual capture, and if the new shape configuration is determined to involve visual capture, determine an operational mode for the at least the sensor circuitry and cause the sensor circuitry to capture visual data based at least on the operational mode.

Abstract: Systems, apparatuses and methods may provide for a flexible display detection system to detect movement (e.g., flexing) of a flexible display screen on a device and to interpret the movement as a gesture or selection of a device mode. Embodiments may utilize bendable sensors located adjacent to the flexible display, and may divide a display into multiple panel sections (e.g., three panels) connected to one another via hinging portions of the flexible display. Depending on the arrangement of the sections, the device may be operated in a different mode such as, for example, a tablet mode, a reader mode, or a phone mode.

Abstract: A wireless gimbal connection of use with electronics devices such as computer notebooks relatively pivotable portions such as a lid and base. The gimbal includes a carriage on which transmitter and receiver chips are mounted, and further has a magnet whose magnetic forces may be used to bring the gimbaled carriage into a predetermined alignment with the base, which may be used to arrange the chips and any sensors as may be used into alignment as well. As the orientation of the lid varies with respect to the base, the carriage within seeks alignment with the base due to the magnetic forces present. Where the base is located on a flat surface, gravitational forces also contribute to the alignment.

Abstract: Robots and apparatus, systems and methods for powering robots are disclosed. A disclosed conductive floor to power a robot on the floor includes a plurality of stationary conductors positioned in a pattern and a power delivery circuit to cause adjacent ones of the conductors to have different electrical potentials, the adjacent ones of the conductors to form a circuit to deliver power to the robot via contacts formed in a bottom surface of the robot.

Abstract: Methods and apparatus to instruct movement based on sensor data. An example apparatus includes a sensor data receiver to receive sensor data from a sensor device, a preference receiver to receive a user preference, and a preference analyzer to: in response to determining that the sensor data indicates that the user preference is not met at a first location, determine if a second location has a condition that meets the user preference, and in response to determining that the second location has the condition that meets the user preference, transmitting a notification to instruct movement to the second location.

Abstract: Methods and apparatus for preserving privacy from a drone are disclosed herein. An example drone includes a privacy mode controller to, when the drone is within a restricted zone, flag data gathered by the drone in the restricted zone; and a private data deleter to, when the drone exits the restricted zone, delete the flagged data.

Abstract: In one example a electronic device comprises a housing, at least one heat generating component disposed within the housing, at least one internal heat dissipation device positioned proximate the at least one heat generating component, and a thermal interface defined in at least a portion of the housing to allow direct thermal contact between the heat dissipation device and an external heat dissipation device. Other examples may be described.

Abstract: In one example a power management module comprises logic, at least partially including hardware logic, to detect a disconnection on at least one signaling contact in a receptacle prior to a disconnection on the at least one power contact in the receptacle, wherein the receptacle is adapted to mate with a plug, the receptacle comprising a plurality of electrical contacts including at least one power contact to connect with a power pin on the plug and at least one signaling contact to connect with a signaling pin on the plug and in response to the disconnection on the signaling contact, to switch a processor to a low power state prior to a disconnect between the at least one power contact in the receptacle and the power pin on the plug. Other examples may be described.

Abstract: The present disclosure is directed to logging random “chirps” of IoT devices and rebroadcasting these chirps to other devices on demand. An apparatus consistent with the present disclosure includes a transmitter to communicate with a network of wireless-communication-enabled devices. The apparatus also includes a receiver to detect communications transmitted from the wireless-communication-enabled device. Further, the apparatus includes control unit logic to tally the number of electrical signals emitted from each wireless-communication-enabled device. In addition, the apparatus includes memory to store the number of emitted electrical signals. The apparatus further includes a power unit electrically coupled to the transmitter, receiver, and memory.

Abstract: The present disclosure relates to microelectronic substrates, such as interposers, motherboards, test platforms, and the like, that are fabricated to have overlapping connection zones, such that different microelectronic devices, such as microprocessors, chipsets, graphics processing devices, wireless devices, memory devices, application specific integrated circuits, and the like, may be alternately attached to the microelectronic substrates to form functional microelectronic packages.

Abstract: A mobile device may include circuitry, a thermally-conductive panel in thermal communication with the circuitry, and a housing with a user-operable thermal access cover that has a closed position to cover the thermally-conductive panel and an open position to expose the thermally-conductive panel. Embodiments may include a dock with which the mobile device may be engaged, wherein the dock may include a thermal transfer device to engage the thermally-conductive panel of the mobile device.

Abstract: Methods and apparatus to adjusting a flight path of a drone based on weather data are disclosed herein. An example apparatus includes navigating, via a processor of a drone, according to a flight path; intercepting, via the processor of the drone, weather data identified by a weather source within a threshold range of the flight path; and when the weather data corresponds to undesirable weather data, adjusting, via the processor of the drone, the flight path to avoid a region corresponding to the weather source.

Abstract: Various systems and methods for providing a smart entry system are described herein. A smart entry system includes a detector to detect a person near a portal to a room; a transceiver to attempt to establish a wireless connection between the smart entry system and a user device associated with the person; and a user interface to present a notification to the person based on a state of the wireless connection.

Abstract: The present application is directed to dynamic input mode selection. In general, a system may sense a user's finger approaching a surface of a display (e.g., an imminent user touch input) and, depending on at least one trigger condition, may perform at least one output operation. For example, a first trigger condition may cause a display to enlarge at least a portion of a displayed image based on the imminent user touch input, a second trigger condition may cause the display to present a menu corresponding to an object in the enlarged portion, etc. This functionality may be implemented utilizing either an operating system (OS)-aware configuration or an OS-unaware configuration. In an OS-aware configuration, an intent-to-touch (ITT) module may utilize application program interfaces (APIs) in the OS to facilitate display zooming, menu presentation, coordinate translation, etc. In an OS-unaware configuration, the ITT module may facilitate these actions without OS assistance.

Abstract: Methods, apparatus, systems and articles of manufacture are disclosed An example apparatus to update a spatially adjustable display disclosed herein includes a display size monitor to acquire an indication of a size of the spatially adjustable display, a service image comparator to compare the indication of the size to a size model, and a source image adjuster to invoke visual configuration adjustments to an output image of the spatially adjustable display based on parameters identified in the size model.

Abstract: In one embodiment, a processor includes at least one core to execute instructions and a power control logic to receive power capability information from a plurality of devices to couple to the processor and allocate a platform power budget to the devices, set a first power level for the devices at which the corresponding device is allocated to be powered, communicate the first power level to the devices, and dynamically reduce a first power to be allocated to a first device and increase a second power to be allocated to a second device responsive to a request from the second device for a higher power level. Other embodiments are described and claimed.

Abstract: Methods and apparatus relating to IoT (Internet of Things) and/or cloud enabled faster ambulances are described. In an embodiment, an IoT device overrides an operating state of an illumination device based at least in part on a wireless signal that indicates approachment of a moving object. The IoT device then cancels the override of the operating state of the illumination device based at least in part on an indication that the moving object has crossed a location of the illumination device. In one embodiment, cloud-based logic determines whether and/or when the IoT device causes the override of the operating state of the illumination device. Other embodiments are also disclosed and claimed.