Abstract: Methods, systems, and computer program products are described herein an extensible input stack for processing input device data received from a plurality of different input devices attached to a computing device. The extensible input stack comprises a plurality of stack layers. Each of the plurality of stack layers performs a particular set of processing with respect to the input device data, among other operations. Each of the plurality of stack layers comprises a code interface, which is used to provide and/or or receive data from the input device and/or other stack layers. Each of the stack layers is extensible to include additional functionality to support new input devices. By separating out the functionality performed by the input stack into separate stack layers, and having each layer accessible via a code interface, the functionality of each of stack layers may be easily extended to support any type of input device.

Abstract: Methods, systems, and computer program products are described herein an extensible input stack for processing input device data received from a plurality of different input devices attached to a computing device. The extensible input stack comprises a plurality of stack layers. Each of the plurality of stack layers performs a particular set of processing with respect to the input device data, among other operations. Each of the plurality of stack layers comprises a code interface, which is used to provide and/or or receive data from the input device and/or other stack layers. Each of the stack layers is extensible to include additional functionality to support new input devices. By separating out the functionality performed by the input stack into separate stack layers, and having each layer accessible via a code interface, the functionality of each of stack layers may be easily extended to support any type of input device.

Abstract: Methods, systems, and computer program products are described herein an extensible input stack for processing input device data received from a plurality of different input devices attached to a computing device. The extensible input stack comprises a plurality of stack layers. Each of the plurality of stack layers performs a particular set of processing with respect to the input device data, among other operations. Each of the plurality of stack layers comprises a code interface, which is used to provide and/or or receive data from the input device and/or other stack layers. Each of the stack layers is extensible to include additional functionality to support new input devices. By separating out the functionality performed by the input stack into separate stack layers, and having each layer accessible via a code interface, the functionality of each of stack layers may be easily extended to support any type of input device.

Abstract: Example apparatus and methods detect how a portable (e.g., handheld) device (e.g., phone, tablet) is gripped (e.g., held, supported). Detecting the grip may include detecting and characterizing touch points for fingers, thumbs, palms, or surfaces that are involved in supporting and positioning the apparatus. Example apparatus and methods may determine whether and how an apparatus is being held and then may exercise control based on the grip detection. For example, a display on an input/output interface may be reconfigured, physical controls (e.g., push buttons) on the apparatus may be remapped, user interface elements may be repositioned, resized, or repurposed, portions of the input/output interface may be desensitized or hyper-sensitized, virtual controls may be remapped, or other actions may be taken. Touch sensors may detect the pressure with which a smart phone is being gripped and produce control events (e.g., on/off, louder/quieter, brighter/dimmer, press and hold) based on the pressure.

Abstract: Example apparatus and methods concern detecting and responding to a multiple hover point gesture performed for a hover-sensitive device. An example apparatus may include a hover-sensitive input/output interface configured to detect multiple objects in a hover-space associated with the hover-sensitive input/output interface. The apparatus may include logics configured to identify an object in the hover-space, to characterize an object in the hover-space, to track an object in the hover-space, to identify a multiple hover point gesture based on the identification, characterization, and tracking, and to control a device, application, interface, or object based on the multiple hover point gesture. In different embodiments, multiple hover point gestures may be performed in one, two, three, or four dimensions. In one embodiment, the apparatus may be event driven with respect to handling gestures.

Abstract: Example apparatus and methods concern detecting and responding to a crane gesture performed for a touch or hover-sensitive device. An example apparatus may include a hover-sensitive input/output interface configured to display an object that can be manipulated using a crane gesture. The apparatus may include a proximity detector configured to detect an object in a hover-space associated with the hover-sensitive input/output interface. The apparatus may include fogies configured to change a state of the object from untouched to target to pinched to lifted to released in response to detecting the appearance and movement of bracket points. The appearance of the object may change in response to detecting the state changes.