Abstract: A flexible multi-touch display, proximate to an ultrasound transducer that generates touch sensations to a user over air, may display a pop-up window. The pop-up window may provide a vibration on touch that increases over time. The flexible multi-touch display may detect at least two touches simultaneously. The flexible multi-touch display may also display a detailed list to select an item based on a detected physical indentation of the flexible multi-touch display.
Abstract: A mobile electronic device may have two rear facing cameras to capture environmental information. A camera and a depth sensor of the mobile electronic device may capture biometric facial data for security verification. Characteristics of the environment may be identified based on the environmental information and results of the security verification.
Abstract: A vehicle computing system may provide feedback in a vehicle, using a vehicle processor of the vehicle. A touch display may display windows with different vibrations to provide the feedback. A vibration may vary in relation to data.
Abstract: A mobile electronic device may have two rear facing cameras to capture environmental information. A camera and a depth sensor of the mobile electronic device may capture biometric facial data for security verification. Characteristics of the environment may be identified based on the environmental information and results of the security verification.
Abstract: A mobile electronic device may request for assistance with a photo, taken by the mobile electronic device, by a remote camera service on a remote device. Shared control, to the remote device, of sensor components of the mobile electronic device to adjust settings and filters prior to taking the photo from the remote camera service may be facilitated.
Abstract: A mobile electronic device may request for assistance with taking a photo by a remote camera service component on a remote device. Selective shared control may be facilitated for sensor components of the mobile electronic device to adjust components for taking the photo. The photo may be taken from the remote camera service component based on a shared view of objects in the photo and the selective shared control may expire after taking the photo.
Abstract: A semi-flexible rod may have a rounded tip having exposed metal conductor elements that produce an adaptive electrical field or an adaptive magnetic field. The adaptive electrical field or the adaptive magnetic field may be adjusted in order to capture a stray x-ray photon near an in-vivo target area of cancer cells.
Abstract: A mobile electronic device may have two or more rear facing camera to capture a first part of an environment, a second part of the environment, and a part of an item in the environment. A camera and a depth sensor of the mobile electronic device may capture biometric facial data to perform security verification. Characteristics of the environment may be identified based on the environmental data and results of the performed security verification.
Abstract: A mobile electronic device may have a flexible organic light emitting diode (OLED) multi-touch display with a pixel layer and an adaptive layer. The adaptive layer may include a resizable display area capable of being made semi-transparent by the controller.
Abstract: A semi-flexible rod may have a rounded tip having exposed metal conductor elements that produce an adaptive electrical field or an adaptive magnetic field. The adaptive electrical field or the adaptive magnetic field may be adjusted in order to capture a stray x-ray photon near an in-vivo target area of cancer cells.
Abstract: A vehicle computing system may provide a vehicle safety warning in a vehicle, using a vehicle processor and a three dimensional accelerometer of the vehicle. A touch display may display windows with different vibrations to provide the vehicle safety warning. A vibration may vary in relation to data from the three dimensional accelerometer based on motion of the vehicle.
Abstract: A profile set by a particular user from a social network application may be used to determine a view provided by the mobile electronic device to a user of the mobile electronic device. The particular user in a captured video of the current view is detected and augmented in real time to mimic a virtual character in an augmented video.
Abstract: An electronic device may have a rear facing camera and a depth sensor to capture a portion of a document or a book in an environment. A processor may identify the document or the book based on the captured portion, a captured first part of the environment, a captured second part of the environment, and information received via a network adapter.
Abstract: A mobile device may have a rear facing camera and a depth sensor to capture a portion of a document or a book in an environment. A processor may identify the document or the book based on the captured portion, a captured first part of the environment, a captured second part of the environment, and information received via a network adapter.
Abstract: An image displayed on a multi-touch display is associated with a tactile area that has an individually programmable tactile vibration pattern. The image may be automatically associated with a tactile area in association with a sensor detected rotation. Subsequent to the rotation, the image may be automatically associated with the individually programmable tactile vibration pattern.
Abstract: A view may be displayed on a multi-touch display based on force from a detected touch to a tactile point and an indentation of a clear layer. A detailed view related to the view may also be displayed on the multi-touch based on a detected further indentation of the tactile point.
Abstract: An image displayed on a multi-touch display device is associated with a tactile area that has an individually programmable tactile vibration pattern. The image may be automatically associated with a tactile area in association with a sensor detected rotation. Subsequent to the rotation, the image may be automatically associated with the individually programmable tactile vibration pattern.
Abstract: A multi-touch display layer may have a texturizing polymer layer. The texturizing polymer layer may elevate a surface portion of the texturizing polymer layer to a level to texturize information displayed on the multi-touch display layer. A gesture may be detected for the elevated surface portion.
Abstract: An image displayed on a multi-touch display device is associated with a tactile area that has an individually programmable tactile vibration pattern. The image may be automatically associated with a tactile area in association with a sensor detected rotation. Subsequent to the rotation, the image may be automatically associated with the individually programmable tactile vibration pattern.
Abstract: A mobile electronic device may have a multi-touch display device and a texturizing polymer layer. The texturizing polymer layer may elevate a surface portion of the texturizing polymer layer to a level to texturize information displayed on the multi-touch display device. A gesture may be detected for the elevated surface portion.