Patent application number | Description | Published |
20140191041 | MOBILE DEVICES WITH RFID CAPABILITIES AND CORRESPONDING MEMORY WRITE METHODS - An electronic device ( | 07-10-2014 |
20140347274 | Low Power Management of Multiple Sensor Integrated Chip Architecture - A method, device, system, or article of manufacture is provided for low-power management of multiple sensor chip architecture. In one embodiment, a method comprises, at a computing device that includes a first processor, a second processor and a third processor, receiving, by the first processor, sensor data from a first sensor; determining, by the first processor, a movement by the computing device using the sensor data; receiving, by the first processor, a modality of the computing device; in response to determining that the modality corresponds to a predetermined state, determining, by the first processor, a modality move distance associated with the predetermined state; determining, by the first processor, a move distance of the computing device using the modality move distance; determining, by the first processor, that the move distance of the computing device is at least a move distance threshold; and, in response to determining that the move distance of the computing device is at least a move distance threshold, reporting, by the first processor, to at least one of the second processor and the third processor, that the move distance of the computing device is at least the move distance threshold. | 11-27-2014 |
20140351558 | Low Power Management of Multiple Sensor Integrated Chip Architecture - A method, device, system, or article of manufacture is provided for low-power management of multiple sensor chip architecture. In one embodiment, a method comprises, at a computing device that includes a first processor, a second processor and a third processor, receiving, by the first processor operating at a first clock rate, first sensor data from a first sensor operating at a first data rate; determining, by the first processor, a movement of the computing device using the first sensor data; in response to determining the movement of the computing device, performing, by the first processor, a first motion state algorithm to determine whether a modality of the computing device is a first motion state; and, in response to determining that the modality of the computing device is not the first motion state, changing, by the first processor, at least one of the first processor to operate at a second clock rate sufficient to perform a second motion state algorithm and changing the first sensor to operate at a second data rate sufficient to perform the second motion state algorithm, wherein the second motion state algorithm is used to determine whether the modality of the computing device is a second motion state. | 11-27-2014 |
20140351559 | Low Power Management of Multiple Sensor Chip Architecture - A method, device, system, or article of manufacture is provided for low-power management of multiple sensor chip architecture. In one embodiment, a method comprises, at a computing device that includes a first processor, a second processor and a third processor, receiving, at the first processor, first sensor data from a first sensor; determining, at the first processor, a motion state of the computing device using the first sensor data; in response to determining that the motion state corresponds to a predetermined motion state, activating the second processor; receiving, at the second processor, second sensor data from a second sensor; determining, by the second processor, that the motion state corresponds to the predetermined motion state using the second sensor data; and, in response to determining that the motion state corresponds to the predetermined motion state using the second sensor data, sending the motion state to the third processor. | 11-27-2014 |
20140351560 | Low Power Management of Multiple Sensor Integrated Chip Architecture - A method, device, system, or article of manufacture is provided for low-power management of multiple sensor chip architecture. In one embodiment, a method comprises, at a computing device that includes a first processor, a second processor and a third processor, performing, by the second processor, a first scan at a first scan rate for first location data using a sensor; receiving, at the second processor, from the sensor, the first location data; determining, by the second processor, a first location using the first location data; receiving, by the second processor, a modality of the computing device; in response to determining the first location, determining, by the second processor, that the modality corresponds to a predetermined state; and in response to determining that the modality corresponds to the predetermined state, performing, by the second processor, a second scan at a second scan rate for second location data using the sensor. | 11-27-2014 |
20150103056 | Calibrating an Electronic Writing Device - In embodiments of calibrating an electronic writing device, an electronic writing device includes a calibration component configured to calibrate writing data to an orientation of a writing surface. To do so, the calibration component determines whether writing data corresponds to a calibration movement. If the calibration component determines that the writing data corresponds to the calibration movement, the calibration component determines a correction angle based on the writing data and stores the correction angle in a writing buffer. The calibration component then uses the correction angle to adjust subsequently received writing data to align the writing data to the orientation of the writing surface. | 04-16-2015 |
20150177905 | CORRECTING WRITING DATA GENERATED BY AN ELECTRONIC WRITING DEVICE - In embodiments of correcting writing data generated by an electronic writing device, an electronic writing device includes a positional sensor configured to sense movement of the electronic writing device when the device is used to write on a writing surface, and to generate writing data corresponding to the movement of the electronic writing device. The device also includes a correction component that is configured to correct each sample of writing data using rotation data generated by a gyroscope. To do so, the correction component calculates an offset angle of the electronic writing device relative to a reference axis of the positional sensor based at least in part on the rotation data generated by the gyroscope. The correction component then determines a correction angle based on the offset angle, and adjusts the sample of writing data by applying the correction angle to the sample of the writing data. | 06-25-2015 |
20160028802 | PEER-TO-PEER GROUP RE-FORMATION - Disclosed are peer-to-peer group re-formation techniques. The techniques enable automatic reformation of a peer-to-peer group when the Group Owner (“GO”) device is lost. To do so, the techniques enable selection of a one of the peer devices in the peer-to-peer group as a next GO device responsive to detecting the loss of the original GO device. Then, the peer device selected as the next GO device automatically activates as the GO device, while the other peer devices scan for and connect to the next GO device. | 01-28-2016 |
20160036956 | CONTEXTUALLY UPDATING WIRELESS DEVICE FIRMWARE - A method includes a first wireless device initiating a wireless connection to a second wireless device and monitoring at least one context associated with one of the wireless connection and the second device. When contextual data is received that indicates a condition, the method further includes determining, based on a search of a firmware update service (FUS) database, whether a firmware update for the second wireless device is available within the FUS database. And when an available firmware update is received from the FUS database, the method includes triggering the first device to initiate the firmware update for the second device. The triggering of the first device to initiate the firmware update includes: transmitting a command to place the second device in firmware update mode; and forwarding the firmware update to the second device, such that the first device controls and/or initiates the firmware upgrade of the second device. | 02-04-2016 |
20160057117 | SYSTEM AND METHOD FOR MANAGING SECURE COMMUNICATIONS IN AN AD-HOC NETWORK - The present invention provides a system and method for managing secure communications in an ad-hoc network having three or more users including a first user, a second user and a third user. Each user is associated with at least one communication device, and has a set of keys associated with the user for managing secure communications between the at least one communication device of the user and the at least one communication device of another one of the three or more users. Each set of keys includes a private key and a public key, where the public key is shared with the communication device of the other ones of the three or more users with which the user has been authenticated, and the private key is used to decrypt communications encrypted using the corresponding public key from the same set of keys. When the second user of the three or more users has been authenticated by the first user, in addition to receiving the associated public key of the second user, the first user receives a value defining a share authority level, which defines the authority of the first user relative to the second user to provide peer key sharing with the third user. | 02-25-2016 |