Abstract: An embodiment of a graphics apparatus may include a facial expression detector to detect a facial expression of a user, and a parameter adjuster communicatively coupled to the facial expression detector to adjust a graphics parameter based on the detected facial expression of the user. The detected facial expression may include one or more of a squinting, blinking, winking, and facial muscle tension of the user. The graphics parameter may include one or more of a frame resolution, a screen contrast, a screen brightness, and a shading rate. Other embodiments are disclosed and claimed.

Abstract: Systems, apparatuses, and methods may provide for technology to dynamically control a display in response to ocular characteristic measurements of at least one eye of a user.

Abstract: An embodiment may include an application processor, persistent storage media coupled to the application processor, and a graphics subsystem coupled to the application processor. The system may further include any of a performance analyzer to analyze a performance of the graphics subsystem to provide performance analysis information, a content-based depth analyzer to analyze content to provide content-based depth analysis information, a focus analyzer to analyze a focus area to provide focus analysis information, an edge analyzer to provide edge analysis information, a frame analyzer to provide frame analysis information, and/or a variance analyzer to analyze respective amounts of variance for the frame. The system may further include a workload adjuster to adjust a workload of the graphics subsystem based on the analysis information. Other embodiments are disclosed and claimed.

Abstract: An embodiment of a graphics apparatus may include an image generator, and a gesture tracker communicatively coupled to the image generator. The image generator may be configured to generate an image of a virtual input device, the gesture tracker may be configured to determine a position of a user's finger relative to the virtual input device, and the image generator may be further configured to generate an image of a virtual finger based on the determined position of the user's finger relative to the virtual input device. Other embodiments are disclosed and claimed.

Abstract: Apparatus, methods, and systems described herein are for segmentation, handshaking, and access control solutions for Opendots technology. One embodiment described a charging pad that includes a plurality of conductive strips, switches, and decipher circuitry. A switch is coupled to the plurality of conductive strips whereas the decipher circuitry is coupled to the plurality of conductive strips and the switch. In response to contact with one conductive strip of the plurality of conductive strips, the decipher circuitry determines whether a security password has been received. The switch allows a voltage higher than a threshold voltage level to be supplied to an external device if the security password is received by the decipher circuitry. However, the switch can also prevent a voltage higher than a threshold voltage level to be supplied to an external device if the security password is not received by the decipher circuitry.

Abstract: In one example a docking mat for an electronic device comprises a substrate defining a first major surface on which the electronic device may be positioned, a power source coupling, a plurality of power grids embedded in the first major surface and electrically coupled to the power source coupling, wherein a portion of the power grids extend above the first major surface. Other examples may be described.

Abstract: Apparatus, methods, and systems are herein described for segmentation, handshaking, and access control solutions for Opendots technology. The present disclosure provides a charging pad that includes a plurality of conductive strips, switches, and decipher circuitry. A switch may be coupled to the conductive strips whereas the decipher circuitry may be coupled to the conductive strips and the switch. In response to contact with one of the conductive strips, the decipher circuitry determines whether a security password has been received. The switch allows a voltage higher than a threshold voltage level to be supplied to an external device if the security password is received by the decipher circuitry. However, the switch may also prevent a voltage higher than a threshold voltage level to be supplied to an external device if the security password is not received by the decipher circuitry.

Abstract: The present disclosure relates to a wireless display adapter device including at least one processor and at least one memory element, wherein the wireless display adapter device is configured to: transmit a beacon signal from the wireless display adapter device, wherein the wireless display adapter device is in a sleep mode of operation; receive a connection request from a user device; initiate wake up of the wireless display adapter device from the sleep mode to an active mode responsive to receiving the connection request from the user device; and establish a connection between the wireless display adapter device and the user device using a wireless connection.