Patent application number | Description | Published |
20140125618 | SELECTION OF DISPLAY POWER MODE BASED ON SENSOR DATA - Methods, devices, and computer programs are presented for managing power consumption in an activity monitoring device associated with a user. One method includes an operation for analyzing sensor data acquired by sensors of an activity monitoring device to be worn on a wrist of a user, the sensor data being associated with motion of the user. In addition, the method includes an operation for determining the motion profile of the activity monitoring device based on the sensor data. The method further includes an operation for identifying display settings for a display of the activity monitoring device based on the motion profile. The display settings are associated with a rate of power consumption by the display. The display settings are applied to the display of the activity monitoring device when the identified display settings are different than the current display settings. | 05-08-2014 |
20140125619 | POWER CONSUMPTION MANAGEMENT OF DISPLAY IN PORTABLE DEVICE BASED ON PREDICTION OF USER INPUT - Methods, devices, and computer programs are presented for managing power consumption of a display. One method includes an operation for setting a first display setting for a touchscreen of an activity monitoring device associated with a user. The first display setting has having a first rate of power consumption by the display and a first touchscreen scan rate for detecting touch on the touchscreen. Further, the method includes operations for receiving data at the activity monitoring device, the data being indicative of an external event, and for applying a second display setting for the touchscreen based on a predefined expected user interaction. The second display setting has a second rate of power consumption and a second touchscreen scan rate. | 05-08-2014 |
20140125620 | TOUCHSCREEN WITH DYNAMICALLY-DEFINED AREAS HAVING DIFFERENT SCANNING MODES - Methods, devices, and computer programs are presented for managing power consumption by a display. One method includes an operation for identifying one or more possible inputs for an activity monitoring device based on a state of the activity monitoring device. The one or more possible inputs are defined to be entered via a touchscreen of the activity monitoring device. Further, the method identifies a first region and a second region in the touchscreen, the first region being associated with the one or more possible inputs, and the second region being defined outside the first region. Further, the method includes operations for establishing in the first region a first touchscreen setting for scanning the first region for touch, and for establishing in the second region a second touchscreen setting for scanning the second region, where the first touchscreen setting defines higher processing than the second touchscreen setting. | 05-08-2014 |
20140232558 | WIRELESS PORTABLE ACTIVITY-MONITORING DEVICE SYNCING - A notification signal, intended to be received by a wireless communication device, is repetitively broadcast by a portable activity-monitoring device that generates user-activity data corresponding to activity of an individual bearing the portable activity-monitoring device. The notification signal conveys information that identifies the portable activity-monitoring device and indicates whether or not the portable activity-monitoring device seeks establishment of a wireless communication link to enable transmission of the user-activity data to the wireless communication device. | 08-21-2014 |
20140235166 | SYSTEM AND METHOD FOR WIRELESS DEVICE PAIRING - Embodiments of the present invention include a system and method for wirelessly identifying and validating an electronic device in order to initiate a communication process with another device or a service. In an embodiment, the system includes a portable biometric monitoring device that is identified by a client device or a server for the purpose of initiating a pairing process. In an embodiment, pairing implies pairing the portable device to an online user account with minimal user interaction. After pairing, the portable device and appropriate client devices and servers communicate with little or no user interaction, for example to upload sensor data collected by the portable device. | 08-21-2014 |
20140235168 | SYSTEM AND METHOD FOR WIRELESS DEVICE PAIRING - Embodiments of the present invention include a system and method for wirelessly identifying and validating an electronic device in order to initiate a communication process with another device or a service. In an embodiment, the system includes a portable biometric monitoring device that is identified by a client device or a server for the purpose of initiating a pairing process. In an embodiment, pairing implies pairing the portable device to an online user account with minimal user interaction. After pairing, the portable device and appropriate client devices and servers communicate with little or no user interaction, for example to upload sensor data collected by the portable device. | 08-21-2014 |
20140235171 | SYSTEM AND METHOD FOR WIRELESS DEVICE PAIRING - Embodiments of the present invention include a system and method for wirelessly identifying and validating an electronic device in order to initiate a communication process with another device or a service. In an embodiment, the system includes a portable biometric monitoring device that is identified by a client device or a server for the purpose of initiating a pairing process. In an embodiment, pairing implies pairing the portable device to an online user account with minimal user interaction. After pairing, the portable device and appropriate client devices and servers communicate with little or no user interaction, for example to upload sensor data collected by the portable device. | 08-21-2014 |
20140273858 | ADAPTIVE DATA TRANSFER USING BLUETOOTH - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques, systems, and apparatuses are discussed herein for utilizing two different Bluetooth communications interfaces, one that provides Bluetooth classic (base rate/enhanced data rate) communications functionality and one that provides Bluetooth low-energy communications functionality, in a common device. The techniques, systems, and apparatuses may elect to use a particular Bluetooth interface based on various criteria. | 09-18-2014 |
20140275850 | GPS POWER CONSERVATION USING ENVIRONMENTAL DATA - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques, systems, and apparatuses are discussed herein for providing power-conserving techniques and systems for efficiently utilizing a GPS receiver are described. The positional fix frequency of the GPS receiver may, according to some implementations, be modified or adjusted between various levels according to data from one or more non-GPS sensors. Such non-GPS sensors may include, for example, ambient light intensity or spectrum sensors, accelerometers, gyroscopes, magnetometers, heart rate sensors, galvanic skin response sensors, infrared sensors, etc. | 09-18-2014 |
20140292564 | PORTABLE BIOMETRIC MONITORING DEVICES HAVING LOCATION SENSORS - Assisted-GPS for a portable biometric monitoring device is provided. The portable biometric monitoring device may obtain updated ephemeris data from an associated secondary device via a short-range, low-power communication protocol. The secondary device may be a computing device such as a smartphone, tablet, or laptop. Various rules may control when the ephemeris data is updated. The ephemeris data may be used in the calculation of the global position of the portable biometric monitoring device. Additionally, the portable biometric monitoring device may communicate downloaded position fixing data to the associated secondary device. The associated secondary device may then calculate the global position from the position fixing data. | 10-02-2014 |
20140292565 | PORTABLE BIOMETRIC MONITORING DEVICES HAVING LOCATION SENSORS - Assisted-GPS for a portable biometric monitoring device is provided. The portable biometric monitoring device may obtain updated ephemeris data from an associated secondary device via a short-range, low-power communication protocol. The secondary device may be a computing device such as a smartphone, tablet, or laptop. Various rules may control when the ephemeris data is updated. The ephemeris data may be used in the calculation of the global position of the portable biometric monitoring device. Additionally, the portable biometric monitoring device may communicate downloaded position fixing data to the associated secondary device. The associated secondary device may then calculate the global position from the position fixing data. | 10-02-2014 |
20140292566 | PORTABLE BIOMETRIC MONITORING DEVICES HAVING LOCATION SENSORS - Assisted-GPS for a portable biometric monitoring device is provided. The portable biometric monitoring device may obtain updated ephemeris data from an associated secondary device via a short-range, low-power communication protocol. The secondary device may be a computing device such as a smartphone, tablet, or laptop. Various rules may control when the ephemeris data is updated. The ephemeris data may be used in the calculation of the global position of the portable biometric monitoring device. Additionally, the portable biometric monitoring device may communicate downloaded position fixing data to the associated secondary device. The associated secondary device may then calculate the global position from the position fixing data. | 10-02-2014 |
20140293059 | PORTABLE BIOMETRIC MONITORING DEVICES HAVING LOCATION SENSORS - Assisted-GPS for a portable biometric monitoring device is provided. The portable biometric monitoring device may obtain updated ephemeris data from an associated secondary device via a short-range, low-power communication protocol. The secondary device may be a computing device such as a smartphone, tablet, or laptop. Various rules may control when the ephemeris data is updated. The ephemeris data may be used in the calculation of the global position of the portable biometric monitoring device. Additionally, the portable biometric monitoring device may communicate downloaded position fixing data to the associated secondary device. The associated secondary device may then calculate the global position from the position fixing data. | 10-02-2014 |
20140316305 | GPS ACCURACY REFINEMENT USING EXTERNAL SENSORS - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for enhancing GPS speed and distance measurements based on step counts measured by a biometric monitoring device are provided. Such techniques may, in some implementations, involve blending two independently-measured data streams of raw distance traveled—one based on inter-coordinate GPS coordinate distances and one based on step count and stride length—using a Kalman filter to provide an enhanced-accuracy measurement of distance or speed traveled. In some other or additional implementations, distances or speeds calculated based on inter-coordinate GPS coordinate distances may be smoothed with a smoothing constant that is proportional to the variance in measured step count. | 10-23-2014 |
20150042490 | WIRELESS PORTABLE ACTIVITY-MONITORING DEVICE SYNCING - A notification signal, intended to be received by a wireless communication device, is repetitively broadcast by a portable activity-monitoring device that generates user-activity data corresponding to activity of an individual bearing the portable activity-monitoring device. The notification signal conveys information that identifies the portable activity-monitoring device and indicates whether or not the portable activity-monitoring device seeks establishment of a wireless communication link to enable transmission of the user-activity data to the wireless communication device. | 02-12-2015 |