Patent application number | Description | Published |
20130228433 | Force Concentrator - Force concentrator techniques are described. In one or more implementations, a pressure sensitive key includes a sensor substrate having a plurality of conductors, a flexible contact layer spaced apart from the sensor substrate and configured to flex to contact the sensor substrate to initiate an input; and a force concentrator layer disposed proximal to the flexible contact layer on a side opposite the sensor substrate. The force concentrator layer has a pad disposed thereon that is configured to cause pressure applied to the force concentrator layer to be channeled through the pad to cause the flexible contact layer to contact the sensor substrate to initiate the input. | 09-05-2013 |
20130229568 | Mobile Device Power State - Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states. | 09-05-2013 |
20130231755 | SENSOR FUSION ALGORITHM - Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device. | 09-05-2013 |
20130232280 | Sensor Fusion Algorithm - Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device. | 09-05-2013 |
20130232353 | Mobile Device Power State - Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states. | 09-05-2013 |
20130300647 | Accessory Device Architecture - An accessory device architecture is described. In one or more implementations, data is received from an accessory device at an intermediate processor of a computing device, the data usable to enumerate functionality of the accessory device for operation as part of a computing device that includes the intermediate processor. The data is passed by the intermediate processor to an operating system executed on processor of the computing device to enumerate the functionality of the accessory device as part of the intermediate processor. | 11-14-2013 |
20130304941 | Accessory Device Architecture - An accessory device architecture is described. In one or more implementations, data is received from an accessory device at an intermediate processor of a computing device, the data usable to enumerate functionality of the accessory device for operation as part of a computing device that includes the intermediate processor. The data is passed by the intermediate processor to an operating system executed on processor of the computing device to enumerate the functionality of the accessory device as part of the intermediate processor. | 11-14-2013 |
20130304944 | Device Enumeration Support - Device enumeration support techniques are described for busses that do not natively support enumeration. In one or more embodiments, an intermediate controller of a computing device is configured to interconnect and manage various hardware devices associated with the computing device. The intermediate controller may detect connection and disconnection of hardware devices in association with one or more communication busses employed by the computing device. In response to such detection, the intermediate controller may send appropriate notifications to an operating system to alert the operating system when hardware devices come and go. This enables the operating system to enumerate and denumerate hardware devices within a device configuration and power management system implemented by the operating system that facilitates interaction with the hardware devices through corresponding representations. | 11-14-2013 |
20130332628 | User Experience Adaptation - User experience adaptation techniques are described. In one or more implementations, an apparatus includes a connection portion configured to be removably physically and communicatively with a computing device, a housing physically connected to the connection portion and providing an outer surface having one or more characteristics that are viewable by a user, and memory disposed within the housing and configured to communicate data to the computing device via the connection portion, the data usable by the computing device to dynamically adapt a user interface displayable by a display device of the computing device to mimic the one or more physical characteristics of the housing. | 12-12-2013 |
20140012401 | Sensor Fusion Algorithm - Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device. | 01-09-2014 |
20140379942 | Computing Device and an Apparatus Having Sensors Configured for Measuring Spatial Information Indicative of a Position of the Computing Devices - Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device. | 12-25-2014 |