Patent application number | Description | Published |
20120083705 | Activity Monitoring Systems and Methods of Operating Same - The present inventions, in one aspect, is an activity monitoring system comprising a fixture having size/shape adapted to couple to a location on the user's body and a particular signature; and a portable monitoring device adapted to detect the fixture's particular signature. The monitoring device includes a housing that is adapted to engage the fixture; activity sensors, disposed in the housing, to detect activity of the user and to generate data which is representative of the activity of the user; and processing circuitry, disposed in the housing, to calculate an activity-related quantity of the user using the data which is representative of the activity of the user, wherein the processing circuitry: determines the monitoring device is engaging the fixture by detecting the fixture's particular signature, and, in response thereto, calculates the activity-related quantity using data from a set of the activity sensors. | 04-05-2012 |
20120083714 | Activity Monitoring Systems and Methods of Operating Same - The present inventions, in one aspect, are directed to an activity monitoring system comprising a portable monitoring device and a base device. In one embodiment, the portable monitoring device includes a housing having a physical size and shape that is adapted to couple to the body of the user, a motion sensor, disposed in the housing, to detect motion of a user and, in response thereto, to generate data which is representative of motion of the user, processing circuitry, disposed in the housing, to calculate a calorie burn of the user and/or number of steps taken by the user using the data which is representative of motion of the user. The portable monitoring device also includes a display to display data to the user, wherein the display includes a data transfer mode to optically transmit data which is representative of the calorie burn of the user and/or number of steps taken by the user. The base device includes a visual sensor to detect the data which is representative of the calorie burn of the user and/or number of steps taken by the user transmitted by the display. | 04-05-2012 |
20120083715 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to a portable monitoring device to calculate calorie burn of a user, comprising a motion sensor to detect motion of the user and, in response, to generate data which is representative of motion of the user, and an altitude sensor to detect a change in altitude of the user and, in response, to generate data which is representative of the change in altitude of the user. The portable monitoring device may include processing circuitry to: calculate data which is representative of a change in elevation of the user using (i) the data which is representative of motion of the user and (ii) the data which is representative of a change in altitude of the user, calculate first calorie burn using the data which is representative of motion of the user, and calculate second calorie burn by adjusting the first calorie burn based on data which is representative of a change in elevation of the user. The portable monitoring device may include a housing having a physical size and shape that is adapted to couple to the body of the user. | 04-05-2012 |
20120083716 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to a portable monitoring device to calculate a number of stairs or flights of stairs traversed by a user, the portable monitoring device comprising (i) a motion sensor to detect motion of the user and, in response thereto, to generate data which is representative of motion of the user, (ii) an altitude sensor to detect a change in altitude of the user and, in response thereto, to generate data which is representative of the change in altitude of the user, and (iii) processing circuitry, coupled to the motion sensor and the altitude sensor, to calculate a number of stairs or flights of stairs traversed by the user using the data which is representative of motion of the user and the data which is representative of a change in altitude of the user. The portable monitoring device may include a housing having a physical size and shape that is adapted to couple to the body of the user. | 04-05-2012 |
20120084053 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING SAME - The present inventions, in one aspect, are directed to a portable monitoring device comprising (i) a housing having a physical size and shape that is adapted to couple to the user, (ii) a motion sensor, disposed in the housing, to detect motion of the user and, in response thereto, to generate motion data, (iii) an altitude sensor, disposed in the housing, to sample an altitude of the user in response to a sample signal, wherein, in response to sampling the altitude of the user, the altitude sensor generates change in altitude data, and (iv) processing circuitry, disposed in the housing, to: generate the sample signal using the motion data, and calculate a number of stairs or flights of stairs traversed by the user using the motion data and the change in altitude data. | 04-05-2012 |
20120084054 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING SAME - The present inventions, in one aspect, are directed to a portable monitoring device comprises (i) a housing having a physical size and shape that is adapted to couple to the user, (ii) a motion sensor, disposed in the housing, to detect motion of a user and, in response thereto, to generate motion data, (iii) an altitude sensor, disposed in the housing, to detect a change in altitude of the user and, in response thereto, to generate change in altitude data, and (iv) processing circuitry, disposed in the housing, to: (a) calculate a change in elevation of the user using the motion data and the change in altitude data, and (b) a state of an avatar (which is a graphical representation of the user) using the motion data and/or the change in altitude data, and (vi) a display to output state of avatar data. | 04-05-2012 |
20120226471 | Portable Monitoring Devices and Methods of Operating Same - A portable monitoring device to calculate a number of stairs or flights of stairs traversed by the user, in one aspect, comprising a housing having a physical size and shape that is adapted to couple to the body of the user, a motion sensor, disposed in the housing, to sample motion of the user in response to a motion sample signal and generate data which is representative thereof; an altitude sensor, disposed in the housing, to sample an altitude of the user in response to an altitude sample signal and generate data which is representative thereof; and processing circuitry, disposed in the housing to: (i) generate the altitude sample signal using the data which is representative of motion of the user, and (ii) determine a change in altitude of the user using the data which is representative of a change in altitude of the user. | 09-06-2012 |
20120226472 | Portable Monitoring Devices and Methods of Operating Same - An activity monitoring system, in one aspect, comprises a portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body; a motion sensor, disposed in the housing, to detect motion of a user and to generate data representative thereof; an altitude sensor, disposed in the housing, to detect a change in altitude of the user and to generate data which is representative thereof; and processing circuitry, disposed in the housing, to calculate a number of stairs or flights of stairs traversed by the user using the motion data and change in altitude data. The system also includes a display to output data of a badge and/or metric wherein such badge and/or metric describes the number of stairs or flights of stairs traversed by the user. | 09-06-2012 |
20130073254 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING SAME - The present inventions, in one aspect, are directed to a portable activity monitoring device to calculate a number of stairs or flights of stairs traversed by a user, the monitoring device comprising (i) a housing having a physical size and shape that is adapted to couple to the body of the user, (ii) an altitude sensor, disposed in the housing, to detect a change in altitude of the user and, in response thereto, to generate data which is representative of the change in altitude of the user, and (iii) processing circuitry, disposed in the housing and coupled to the motion sensor and the altitude sensor, to calculate a number of stairs or flights of stairs traversed by the user using the data which is representative of a change in altitude of the user. | 03-21-2013 |
20130073255 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to a portable activity monitoring device adapted to couple to a body of a user, comprising a housing having a physical size/shape that is adapted to couple to the user's body, an altitude sensor to detect a change in altitude of the user and to generate data which is representative of the change in altitude of the user, and processing circuitry to calculate: (i) a number or flights of stairs traversed by the user using the data which is representative of a change in altitude of the user, and (ii) a state of an avatar using the data which is representative of the number or flights of stairs traversed by the user. The device also includes a display to output data which is representative of the state of the avatar. | 03-21-2013 |
20130080113 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to a portable activity monitoring device having a physical size/shape that is adapted to couple to the user's body, a plurality of sensors including: (i) an altitude sensor to detect a change in altitude and to generate data which is representative of the change in altitude, and (ii) a first motion sensor to detect motion and to generate data which is representative of motion. A user interface having a display. Processing circuitry detects a user input using data from one or more of the plurality of sensors, and calculates data which is representative of a number of stairs or flights of stairs traversed by the user using the data which is representative of the change in altitude. | 03-28-2013 |
20130096843 | Portable Monitoring Devices and Methods of Operating Same - A portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, a motion sensor to detect user motion and, in response thereto, to generate data which is representative of motion of the user, an altitude sensor to detect a change in user altitude and, in response thereto, to generate data which is representative of the change in altitude of the user, processing circuitry to calculate activity metrics of the user, wherein the processing circuitry: (i) calculates a motion metric using the motion data, (ii) calculates an altitude metric using the altitude data, and (iii) calculates at least one sleep metric of the user. In certain embodiments, the processing circuitry may automatically determine a sleep mode of the user using the motion data and calculate at least one user sleep metric. | 04-18-2013 |
20130151196 | Portable Monitoring Devices and Methods of Operating Same - A portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, a plurality of sensors, disposed in the housing, to generate sensor data which is representative of activity of the user, processing circuitry, disposed in the housing and electrically coupled to the plurality of sensors, to calculate the one or more activity metrics of the user using the sensor data, wherein the processing circuitry calculates a number of stairs or flights of stairs traversed by the user using the sensor data. | 06-13-2013 |
20130158369 | Activity Monitoring Systems and Methods of Operating Same - The present inventions, in one aspect, is an activity monitoring system comprising a fixture having size/shape adapted to couple to a location on the user's body and a particular signature; and a portable monitoring device adapted to detect the fixture's particular signature. The monitoring device includes a housing that is adapted to engage the fixture; an activity sensor, disposed in the housing, to detect activity of the user and to generate data which is representative of the activity of the user; and processing circuitry, disposed in the housing, to calculate an activity-related quantity of the user, wherein the processing circuitry determines the monitoring device is engaging the fixture by detecting the fixture's particular signature and calculates the activity-related quantity. | 06-20-2013 |
20130268236 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to an activity monitoring system including a portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, a motion sensor, disposed in the housing, to generate data which is representative of the user's motion, and an altitude sensor, disposed in the housing, to generate data which is representative of the change in the user's altitude. The system further includes a display to output data which is representative of a badge, wherein the badge is representative of an achievement computed using motion and/or altitude sensor data. The monitoring device may also include a physiological sensor to generate data which is representative of a user's physiological condition. Here, the display outputs data which is representative of a badge wherein the badge is representative of a physiological achievement. | 10-10-2013 |
20130289889 | Biometric Monitoring Device having a Body Weight Sensor, and Methods of Operating Same - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 10-31-2013 |
20130297220 | Portable Monitoring Devices and Methods of Operating Same - A portable activity monitoring device adapted to couple to a body of a user, the portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, (i) one or more motion sensors, disposed in the housing, to detect motion, and (ii) a user interface, disposed in the housing. The monitoring device further includes processing circuitry, disposed in the housing, to: (i) detect one or more user inputs to the user interface using data from at least one of the one or more motion sensors, (ii) calculate data which is representative of a progress toward a user activity goal using data from at least one the motion sensors, and (iii) generate display data which is representative of the progress toward the user activity goal in response to detecting the user input to the user interface. | 11-07-2013 |
20130325394 | Methods and Systems for Processing Social Interactive Data and Sharing of Tracked Activity Associated with Locations - A method includes determining a location of a first monitoring device used while performing an activity. The first monitoring device is worn by a first user. The method includes determining a location of a second monitoring device used while performing an activity. The second monitoring device is worn by a second user. The method further includes determining whether the locations of the first and second monitoring devices are within a range and whether the activities are similar. The method includes sending a prompt to the first monitoring device upon determining that the activities are similar and the locations are within the range. The prompt includes a request for permission from a first user account to allow a second user account to access information from the first user account regarding the activity performed using the first monitoring device. | 12-05-2013 |
20130325396 | Methods and Systems for Metrics Analysis and Interactive Rendering, Including Events Having Combined Activity and Location Information - A method includes receiving location data of a monitoring device when carried by a user and receiving motion data of the monitoring device. The motion data is associated with a time of occurrence and the location data. The method includes processing the received motion data to identify a group of the motion data having a substantially common characteristic and processing the location data for the group of the motion data. The group of motion data by way of processing the location data provides an activity identifier. The motion data includes metric data that identifies characteristics of the motion data. The method includes transferring the activity identifier and the characteristics of the motion data to a screen of a device for display. The activity identifier being a graphical user interface that receives an input for rendering more or less of the characteristics of the motion data. | 12-05-2013 |
20130325399 | Calendar Integration Methods and Systems for Presentation of Events Having Combined Activity and Location Information - A method includes receiving geo-location data collected over time period. The geo-location data is associated with a monitoring device. The method further includes receiving motion tracking data of the monitoring device. The motion tracking data is collected over time period. The method includes identifying one or more activities. The activities are identified based on inference rules that identify certain activities to have occurred when at least part of the motion tracking data is correlated to the received geo-location data. The method further includes defining a metric for one or more of the identified activities. The metric is associated to a calendar date. The method includes sending the metric to a calendar application with integration instructions. The integration instructions define the calendar date to which the metric will be added. | 12-05-2013 |
20130325404 | METHODS AND SYSTEMS FOR INTERACTIVE GOAL SETTING AND RECOMMENDER USING EVENTS HAVING COMBINED ACTIVITY AND LOCATION INFORMATION - A method for generating recommendations for achieving goals is described. The method includes receiving a goal for a user account. The goal is associated with an activity that is trackable via a monitoring device. The method further includes receiving tracking data associated with the monitoring device. At least part of the tracking data is associated to the activity. The method includes receiving geo-location data associated with the monitoring device. The geo-location data is correlated to the tracking data. The method includes analyzing the received tracking data and geo-location data to characterize a current performance metric for the activity and generating a recommendation for the user account. The recommendation identifies the current performance metric and a suggested action and location for increasing the current performance metric to achieve the goal. | 12-05-2013 |
20140012512 | Biometric Monitoring Device having a Body Weight Sensor, and Methods of Operating Same - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 01-09-2014 |
20140018706 | Biometric Monitoring Device having a Body Weight Sensor, and Methods of Operating Same - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, and communication circuitry. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to transmit the user weight data to data storage which is associated with user identification data (which identifies the user or the portable activity monitoring device), and processing circuitry to calculate activity data using the sensor data and user weight data. | 01-16-2014 |
20140039839 | Methods and Systems for Geo-Location Optimized Tracking and Updating for Events Having Combined Activity and Location Information - A method includes obtaining a first geo-location and a second geo-location. The first and second geo-locations are associated with a monitoring device. The monitoring device is configured to be used by a user. The first geo-location is determined at a first time and the second geo-location is determined at a second time. The first time and the second time are associated with a rate of obtaining geo-location data. The method includes calculating a difference in distance between the second and first geo-locations and changing the rate of obtaining a third geo-location associated with the monitoring device based on the difference in distance between the second and first geo-locations. | 02-06-2014 |
20140039840 | Methods and Systems for Classification of Geographic Locations for Tracked Activity - A method includes receiving activity of a monitoring device that is configured to be worn by a user having a user account. The activity includes an amount of movement of the monitoring device and occurs for a period of time. The method further includes receiving geo-location data for the monitoring device and processing the activity data and geo-location data received for the period of time. The operation of processing is performed to segment the period of time into at least two events. The method includes assigning an identifier to each event. The identifier has a default description for the geo-location data. The default description is selected from a plurality of descriptions based on the activity data obtained by the movement of the monitoring device for the geo-location data. | 02-06-2014 |
20140039841 | Methods and Systems for Identification of Event Data Having Combined Activity and Location Information of Portable Monitoring Devices - Systems and methods for segmenting a period of time into identification of locations of a user who performs activities are described. One of the methods includes detecting activity of a monitoring device worn by the user. The activity includes an amount of movement of the monitoring device. The activity is performed for a period of time. The method further includes obtaining geo-location data for the monitoring device and storing, during the period of time, the detected activity and corresponding geo-location data. The method also includes analyzing the detected activity and the corresponding geo-location data to identify one or more events. Each event is associated with a group of activity data and one or more of the groups of activity data is associated with an identifier, which is obtained using the geo-location data. | 02-06-2014 |
20140039842 | Methods and Systems for Generation and Rendering Interactive Events Having Combined Activity and Location Information - A computer-implemented method is described. The computer-implemented method is used for populating data of a graphical user interface (GUI). The computer-implemented method includes generating one or more graphical elements of one or more activities captured by a monitoring device. The monitoring device is usable by a user during the capturing. The method further includes generating a timeline including a time period over which the activities are performed. The timeline includes a chronological order of time within the time period. The method further includes generating an activity symbol for one or more of the activities performed during the time period. The activity symbol has an image that is graphically overlaid on the graphical elements of the activities. | 02-06-2014 |
20140052280 | Methods and Systems for Interactive Goal Setting and Recommender Using Events Having Combined Activity and Location Information - A method for generating recommendations for achieving goals is described. The method includes receiving a goal for a user account. The goal is associated with an activity that is trackable via a monitoring device. The method further includes receiving tracking data associated with the monitoring device. At least part of the tracking data is associated to the activity. The method includes receiving geo-location data associated with the monitoring device. The geo-location data is correlated to the tracking data. The method includes analyzing the received tracking data and geo-location data to characterize a current performance metric for the activity and generating a recommendation for the user account. The recommendation identifies the current performance metric and a suggested action and location for increasing the current performance metric to achieve the goal. | 02-20-2014 |
20140052790 | Methods and Systems for Processing Social Interactive Data and Sharing of Tracked Activity Associated with Locations - A method includes determining a location of a first monitoring device used while performing an activity. The first monitoring device is worn by a first user. The method includes determining a location of a second monitoring device used while performing an activity. The second monitoring device is worn by a second user. The method further includes determining whether the locations of the first and second monitoring devices are within a range and whether the activities are similar. The method includes sending a prompt to the first monitoring device upon determining that the activities are similar and the locations are within the range. The prompt includes a request for permission from a first user account to allow a second user account to access information from the first user account regarding the activity performed using the first monitoring device. | 02-20-2014 |
20140067278 | Portable Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to a portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, a plurality of sensors (for example, motion sensor and altitude sensor) disposed in the housing. The monitoring device may further include processing circuitry, disposed in the housing and electrically coupled to the plurality of sensor, to calculate the activity points corresponding to the physical activity of the user using the sensor data, wherein the activity points correlate to an amount and intensity of the physical activity of the user, and output the data which is representative of the activity points. The monitoring device may also include a display, coupled to the processing circuitry, may output the data which is representative of the activity points to the user. | 03-06-2014 |
20140107493 | Portable Biometric Monitoring Devices and Methods of Operating Same - The present inventions, in one aspect, are directed to portable biometric monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, at least one band to secure the monitoring device to the user, a physiological sensor, disposed in the housing, to generate data which is representative of a physiological condition of the user data. The physiological sensor may include a light source to generate and output light having at least a first wavelength, and a photodetector to detect scattered light (e.g., from the user). A light pipe is disposed in the housing and optically coupled to the light source directs/transmits light therefrom along a predetermined path to an outer surface of the housing. Processing circuitry calculates a heart rate of the user using data which is representative of the scattered light. | 04-17-2014 |
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 |
20140135631 | BIOMETRIC MONITORING DEVICE WITH HEART RATE MEASUREMENT ACTIVATED BY A SINGLE USER-GESTURE - A biometric monitoring device measuring various biometric information is provided that allows the person to take and/or display a heart rate reading by a simple user interaction with the device, e.g., by simply touching a heart rate sensor surface area or moving the device in a defined motion pattern. Some embodiments of this disclosure provide biometric monitoring devices that allow a person to get a quick heart rate reading without removing the device or interrupting their other activities. Some embodiments provide heart rate monitoring with other desirable features such as feedback on data acquisition status. | 05-15-2014 |
20140142403 | BIOMETRIC MONITORING DEVICE WITH HEART RATE MEASUREMENT ACTIVATED BY A SINGLE USER-GESTURE - A biometric monitoring device measuring various biometric information is provided that allows the person to take and/or display a heart rate reading by a simple user interaction with the device, e.g., by simply touching a heart rate sensor surface area or moving the device in a defined motion pattern. Some embodiments of this disclosure provide biometric monitoring devices that allow a person to get a quick heart rate reading without removing the device or interrupting their other activities. Some embodiments provide heart rate monitoring with other desirable features such as feedback on data acquisition status. | 05-22-2014 |
20140156196 | MOLDED WRISTBAND CASE - A biometric monitoring device and multiple carrying cases for same are provided. In some implementations, the case may be made from a flexible viscoelastic material and the biometric monitoring device may be slipped into a receptacle in the case through an opening in the case; the opening may become distended during the insertion of the biometric monitoring device. In some implementations, the case may feature a display window that, in combination with materials of the biometric monitoring device, may mask a display of the biometric monitoring device from view when the display is off and may allow the display to be seen when the display is displaying content. | 06-05-2014 |
20140156228 | METHOD OF DATA SYNTHESIS - Methods, devices, and computer programs are presented for consolidating overlapping data provided by multiple sources. One method includes operations for associating a plurality of devices to a user, each device operable to capture data associated with the user, and for receiving, from the plurality of devices, captured data about a first activity associated with a first period of time. Additionally, the method includes operations for detecting that the received captured data from two or more devices provide overlapping information about the first activity, and for evaluating one or more rules for consolidating the overlapping information to produce consolidated data. The consolidated data provides a unified view of the first activity during the first period of time. The consolidated data is stored in permanent storage and made available for presentation to the user. | 06-05-2014 |
20140163927 | METHOD OF DATA SYNTHESIS - Methods, devices, and computer programs are presented for consolidating overlapping data provided by multiple sources. One method includes operations for associating a plurality of devices to a user, each device operable to capture data associated with the user, and for receiving, from the plurality of devices, captured data about a first activity associated with a first period of time. Additionally, the method includes operations for detecting that the received captured data from two or more devices provide overlapping information about the first activity, and for evaluating one or more rules for consolidating the overlapping information to produce consolidated data. The consolidated data provides a unified view of the first activity during the first period of time. The consolidated data is stored in permanent storage and made available for presentation to the user. | 06-12-2014 |
20140164320 | Methods and Systems for Classification of Geographic Locations for Tracked Activity - A method includes receiving activity of a monitoring device that is configured to be worn by a user having a user account. The activity includes an amount of movement of the monitoring device and occurs for a period of time. The method further includes receiving geo-location data for the monitoring device and processing the activity data and geo-location data received for the period of time. The operation of processing is performed to segment the period of time into at least two events. The method includes assigning an identifier to each event. The identifier has a default description for the geo-location data. The default description is selected from a plurality of descriptions based on the activity data obtained by the movement of the monitoring device for the geo-location data. | 06-12-2014 |
20140164611 | TRACKING USER PHYSICAL ACTIVITY WITH MULTIPLE DEVICES - Methods, devices, and computer programs are presented for creating a unified data stream from multiple data streams acquired from multiple devices. One method includes an operation for receiving activity data streams from the devices, each activity data stream being associated with physical activity data of a user. Further, the method includes an operation for assembling the unified activity data stream for a period of time. The unified activity data stream includes data segments from the data streams of at least two devices, and the data segments are organized time-wise over the period of time. | 06-12-2014 |
20140174958 | INTERCHANGEABLE CASES FOR BIOMETRIC MONITORING DEVICES - A biometric monitoring device and multiple carrying cases for same are provided. In some implementations, the case may be made from a flexible viscoelastic material and the biometric monitoring device may be slipped into a receptacle in the case through an opening in the case; the opening may become distended during the insertion of the biometric monitoring device. In some implementations, the case may feature a display window that, in combination with materials of the biometric monitoring device, may mask a display of the biometric monitoring device from view when the display is off and may allow the display to be seen when the display is displaying content. | 06-26-2014 |
20140176335 | BIOMETRIC MONITORING DEVICE WITH CONTEXTUALLY- OR ENVIRONMENTALLY-DEPENDENT DISPLAY - A biometric monitoring device with a display is provided. The display may, in response to receiving page advance requests from a user, advance through a plurality of different data display pages, at least some of which show aspects of biometric data recorded by the device. The biometric monitoring device may also, based on the biometric data, modify the sequential display order of the data display pages. In some implementations, a biometric monitoring device integrated into a wristband may be configured to turn a display of the biometric monitoring device on and display the time in response to biometric sensors of the biometric monitoring device detecting motion of the wearer's forearm consistent with moving the forearm into a watch-viewing position. | 06-26-2014 |
20140176346 | BIOMETRIC MONITORING DEVICE WITH CONTEXTUALLY- OR ENVIRONMENTALLY-DEPENDENT DISPLAY - A biometric monitoring device with a display is provided. The display may, in response to receiving page advance requests from a user, advance through a plurality of different data display pages, at least some of which show aspects of biometric data recorded by the device. The biometric monitoring device may also, based on the biometric data, modify the sequential display order of the data display pages. In some implementations, a biometric monitoring device integrated into a wristband may be configured to turn a display of the biometric monitoring device on and display the time in response to biometric sensors of the biometric monitoring device detecting motion of the wearer's forearm consistent with moving the forearm into a watch-viewing position. | 06-26-2014 |
20140176422 | BIOMETRIC MONITORING DEVICE WITH WRIST-MOTION TRIGGERED DISPLAY - A biometric monitoring device with a display is provided. The display may, in response to receiving page advance requests from a user, advance through a plurality of different data display pages, at least some of which show aspects of biometric data recorded by the device. The biometric monitoring device may also, based on the biometric data, modify the sequential display order of the data display pages. In some implementations, a biometric monitoring device integrated into a wristband may be configured to turn a display of the biometric monitoring device on and display the time in response to biometric sensors of the biometric monitoring device detecting motion of the wearer's forearm consistent with moving the forearm into a watch-viewing position. | 06-26-2014 |
20140180019 | WEARABLE BIOMETRIC MONITORING DEVICES, INTERCHANGEABLE ACCESSORIES AND INTEGRATED FASTENINGS TO PERMIT WEAR - A biometric monitoring device and multiple carrying cases for same are provided. In some implementations, the case may be made from a flexible viscoelastic material and the biometric monitoring device may be slipped into a receptacle in the case through an opening in the case; the opening may become distended during the insertion of the biometric monitoring device. In some implementations, the case may feature a display window that, in combination with materials of the biometric monitoring device, may mask a display of the biometric monitoring device from view when the display is off and may allow the display to be seen when the display is displaying content. | 06-26-2014 |
20140180595 | DEVICE STATE DEPENDENT USER INTERFACE MANAGEMENT - A biometric monitoring device with a display is provided. The display may, in response to receiving page advance requests from a user, advance through a plurality of different data display pages, at least some of which show aspects of biometric data recorded by the device. The biometric monitoring device may also, based on the biometric data, modify the sequential display order of the data display pages. In some implementations, a biometric monitoring device integrated into a wristband may be configured to turn a display of the biometric monitoring device on and display the time in response to biometric sensors of the biometric monitoring device detecting motion of the wearer's forearm consistent with moving the forearm into a watch-viewing position. | 06-26-2014 |
20140182952 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 07-03-2014 |
20140191866 | Methods and Systems for Metrics Analysis and Interactive Rendering, Including Events Having Combined Activity and Location Information - A method includes receiving location data of a monitoring device when carried by a user and receiving motion data of the monitoring device. The motion data is associated with a time of occurrence and the location data. The method includes processing the received motion data to identify a group of the motion data having a substantially common characteristic and processing the location data for the group of the motion data. The group of motion data by way of processing the location data provides an activity identifier. The motion data includes metric data that identifies characteristics of the motion data. The method includes transferring the activity identifier and the characteristics of the motion data to a screen of a device for display. The activity identifier being a graphical user interface that receives an input for rendering more or less of the characteristics of the motion data. | 07-10-2014 |
20140191867 | Methods and Systems for Metrics Analysis and Interactive Rendering, Including Events Having Combined Activity and Location Information - A method includes receiving location data of a monitoring device when carried by a user and receiving motion data of the monitoring device. The motion data is associated with a time of occurrence and the location data. The method includes processing the received motion data to identify a group of the motion data having a substantially common characteristic and processing the location data for the group of the motion data. The group of motion data by way of processing the location data provides an activity identifier. The motion data includes metric data that identifies characteristics of the motion data. The method includes transferring the activity identifier and the characteristics of the motion data to a screen of a device for display. The activity identifier being a graphical user interface that receives an input for rendering more or less of the characteristics of the motion data. | 07-10-2014 |
20140197963 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING THE SAME - In one aspect of the disclosed implementations, a device includes one or more motion sensors for sensing motion of the device and providing activity data indicative of the sensed motion. The device also includes one or more processors for monitoring the activity data, and receiving or generating annotation data for annotating the activity data with one or more markers or indicators to define one or more characteristics of an activity session. The device also includes one or more feedback devices for providing feedback, a notice, or an indication to a user based on the monitoring. The device further includes a portable housing that encloses at least portions of the motion sensors, the processors and the feedback devices. | 07-17-2014 |
20140197965 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING THE SAME - In one aspect of the disclosed implementations, a device includes one or more motion sensors for sensing motion of the device and providing activity data indicative of the sensed motion. The device also includes one or more processors for monitoring the activity data, and receiving or generating annotation data for annotating the activity data with one or more markers or indicators to define one or more characteristics of an activity session. The device also includes one or more feedback devices for providing feedback, a notice, or an indication to a user based on the monitoring. The device further includes a portable housing that encloses at least portions of the motion sensors, the processors and the feedback devices. | 07-17-2014 |
20140206954 | Portable Monitoring Devices for Processing Applications and Processing Analysis of Physiological Conditions of a User Associated With the Portable Monitoring Device - An activity monitoring device and associated methods for using and interfacing with the activity monitoring device are provided. In one example, the activity monitoring device includes a housing configured for attachment to a body part of a user. Also included ins a display screen attached to the housing and a sensor for capturing physiological conditions of the user. The sensor is disposed along a surface of the housing so that the sensor is proximate to the body part, the body part having at least some exposed skin. The activity monitoring device also includes memory for storing the captured physiological conditions, and a processor for examining the captured physiological conditions. At a particular time, the processor automatically selects an application to execute from a plurality of applications based on characteristics of the captured physiological conditions. | 07-24-2014 |
20140207408 | Methods and Systems for Geo-Location Optimized Tracking and Updating for Events Having Combined Activity and Location Information - A method includes obtaining a first geo-location and a second geo-location. The first and second geo-locations are associated with a monitoring device. The monitoring device is configured to be used by a user. The first geo-location is determined at a first time and the second geo-location is determined at a second time. The first time and the second time are associated with a rate of obtaining geo-location data. The method includes calculating a difference in distance between the second and first geo-locations and changing the rate of obtaining a third geo-location associated with the monitoring device based on the difference in distance between the second and first geo-locations. | 07-24-2014 |
20140218369 | Methods and Systems for Generation and Rendering Interactive Events Having Combined Activity and Location Information - A computer-implemented method is described. The computer-implemented method is used for populating data of a graphical user interface (GUI). The computer-implemented method includes generating one or more graphical elements of one or more activities captured by a monitoring device. The monitoring device is usable by a user during the capturing. The method further includes generating a timeline including a time period over which the activities are performed. The timeline includes a chronological order of time within the time period. The method further includes generating an activity symbol for one or more of the activities performed during the time period. The activity symbol has an image that is graphically overlaid on the graphical elements of the activities. | 08-07-2014 |
20140235275 | Calendar Integration Methods and Systems for Presentation of Events Having Combined Activity and Location Information - A method includes receiving geo-location data collected over time period. The geo-location data is associated with a monitoring device. The method further includes receiving motion tracking data of the monitoring device. The motion tracking data is collected over time period. The method includes identifying one or more activities. The activities are identified based on inference rules that identify certain activities to have occurred when at least part of the motion tracking data is correlated to the received geo-location data. The method further includes defining a metric for one or more of the identified activities. The metric is associated to a calendar date. The method includes sending the metric to a calendar application with integration instructions. The integration instructions define the calendar date to which the metric will be added. | 08-21-2014 |
20140245161 | Motion-Activated Display of Messages on an Activity Monitoring Device - Methods, systems and devices are provided for motion-activated display of messages on an activity monitoring device. In one embodiment, method for presenting a message on an activity monitoring device is provided, including the following method operations: storing a plurality of messages to the device; detecting a stationary state of the device; detecting a movement of the device from the stationary state; in response to detecting the movement from the stationary state, selecting one of a plurality of messages, and displaying the selected message on the device. | 08-28-2014 |
20140249774 | Methods and Systems for Identification of Event Data Having Combined Activity and Location Information of Portable Monitoring Devices - Systems and methods for segmenting a period of time into identification of locations of a user who performs activities are described. One of the methods includes detecting activity of a monitoring device worn by the user. The activity includes an amount of movement of the monitoring device. The activity is performed for a period of time. The method further includes obtaining geo-location data for the monitoring device and storing, during the period of time, the detected activity and corresponding geo-location data. The method also includes analyzing the detected activity and the corresponding geo-location data to identify one or more events. Each event is associated with a group of activity data and one or more of the groups of activity data is associated with an identifier, which is obtained using the geo-location data. | 09-04-2014 |
20140257053 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 09-11-2014 |
20140257709 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 09-11-2014 |
20140258220 | Methods and Systems for Classification of Geographic Locations for Tracked Activity - A method includes receiving activity of a monitoring device that is configured to be worn by a user having a user account. The activity includes an amount of movement of the monitoring device and occurs for a period of time. The method further includes receiving geo-location data for the monitoring device and processing the activity data and geo-location data received for the period of time. The operation of processing is performed to segment the period of time into at least two events. The method includes assigning an identifier to each event. The identifier has a default description for the geo-location data. The default description is selected from a plurality of descriptions based on the activity data obtained by the movement of the monitoring device for the geo-location data. | 09-11-2014 |
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 |
20140275852 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. | 09-18-2014 |
20140275854 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-18-2014 |
20140276119 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-18-2014 |
20140278139 | MULTIMODE SENSOR DEVICES - The disclosure provides BMDs that have multiple device modes depending on operational conditions of the devices, e.g., motion intensity, device placement, and/or activity type. The device modes are associated with various data processing algorithms. In some embodiments, the BMD is implemented as a wrist-worn or arm-worn device. In some embodiments, methods for tracking physiological metrics using the BMDs are provided. In some embodiments, the process or the BMD applies a time domain analysis on data provided by a sensor of the BMD when the data has a high signal (e.g., high signal-to-noise ratio), and applies a frequency domain analysis on the data when the data has a low signal, which contributes to improved accuracy and speed of biometric data. | 09-18-2014 |
20140278220 | FITNESS MONITORING DEVICE WITH ALTIMETER - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for utilizing altimeters in biometric monitoring devices are provided. Such techniques may, in some implementations, involve recalibrating a biometric monitoring device altimeter based on location data; using altimeter data as an aid to gesture recognition; and/or using altimeter data to manage an airplane mode of a biometric monitoring device. | 09-18-2014 |
20140278229 | USE OF GYROSCOPES IN PERSONAL FITNESS TRACKING DEVICES - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for utilizing gyroscopes in biometric monitoring devices are provided. Such techniques may, in some implementations, involve obtaining swimming metrics regarding stroke cycle count, lap count, and stroke type. Such techniques may also, in some implementations, involve obtaining performance metrics for bicycling activities. | 09-18-2014 |
20140288390 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. | 09-25-2014 |
20140288391 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. Some embodiments provide methods for using response characteristics of the user's skin to adjust a gain and/or light emission intensity of the heart rate monitor. | 09-25-2014 |
20140288392 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. Some embodiments provide methods for using response characteristics of the user's skin to adjust a gain and/or light emission intensity of the heart rate monitor. | 09-25-2014 |
20140288435 | HEART RATE DATA COLLECTION - One innovative aspect is directed to heart rate data collection. In some implementations, a circuit includes a light detector for generating a first electrical signal based on received light. The circuit includes a switching circuit, having a first and a second configuration, configured to receive a first voltage signal based on the first electrical signal and to switch among the first and the second configurations. The circuit includes first and second sampling circuits for sampling a value of the first voltage signal when the switching circuit is in the first configuration and second configurations, respectively. The circuit includes an ambient light cancellation circuit for generating a current signal to counter a first component of the first electrical signal when the first switching circuit is in the first configuration. | 09-25-2014 |
20140288436 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-25-2014 |
20140288438 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-25-2014 |
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 |
20140297217 | FITNESS MONITORING DEVICE WITH ALTIMETER AND GESTURE RECOGNITION - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for utilizing altimeters in biometric monitoring devices are provided. Such techniques may, in some implementations, involve recalibrating a biometric monitoring device altimeter based on location data; using altimeter data as an aid to gesture recognition; and/or using altimeter data to manage an airplane mode of a biometric monitoring device. | 10-02-2014 |
20140297218 | FITNESS MONITORING DEVICE WITH ALTIMETER AND AIRPLANE MODE - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for utilizing altimeters in biometric monitoring devices are provided. Such techniques may, in some implementations, involve recalibrating a biometric monitoring device altimeter based on location data; using altimeter data as an aid to gesture recognition; and/or using altimeter data to manage an airplane mode of a biometric monitoring device. | 10-02-2014 |
20140303523 | MULTIMODE SENSOR DEVICES - The disclosure provides BMDs that have multiple device modes depending on operational conditions of the devices, e.g., motion intensity, device placement, and/or activity type, the device modes are associated with various data processing algorithms. In some embodiments, the BMD is implemented as a wrist-worn or arm-worn device. In some embodiments, methods for tracking physiological metrics using the BMDs are provided. In some embodiments, the process and the BMD applies a time domain analysis on data provided by a sensor of the BMD when the data has a high signal (e.g., high signal-to-noise ratio), and applies a frequency domain analysis on the data when the data has a low signal, which contributes to improved accuracy and speed of biometric data. | 10-09-2014 |
20140305204 | USE OF GYROSCOPES IN PERSONAL FITNESS TRACKING DEVICES AND BICYCLING ACTIVITIES - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for utilizing gyroscopes in biometric monitoring devices are provided. Such techniques may, in some implementations, involve obtaining swimming metrics regarding stroke cycle count, lap count, and stroke type. Such techniques may also, in some implementations, involve obtaining performance metrics for bicycling activities. | 10-16-2014 |
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 |
20140336980 | Methods and Systems for Processing Social Interactive Data and Sharing of Tracked Activity Associated with Locations - A method includes determining a location of a first monitoring device used while performing an activity. The first monitoring device is worn by a first user. The method includes determining a location of a second monitoring device used while performing an activity. The second monitoring device is worn by a second user. The method further includes determining whether the locations of the first and second monitoring devices are within a range and whether the activities are similar. The method includes sending a prompt to the first monitoring device upon determining that the activities are similar and the locations are within the range. The prompt includes a request for permission from a first user account to allow a second user account to access information from the first user account regarding the activity performed using the first monitoring device. | 11-13-2014 |
20140340221 | Methods and Systems for Metrics Analysis and Interactive Rendering, Including Events Having Combined Activity and Location Information - A method includes receiving location data of a monitoring device when carried by a user and receiving motion data of the monitoring device. The motion data is associated with a time of occurrence and the location data. The method includes processing the received motion data to identify a group of the motion data having a substantially common characteristic and processing the location data for the group of the motion data. The group of motion data by way of processing the location data provides an activity identifier. The motion data includes metric data that identifies characteristics of the motion data. The method includes transferring the activity identifier and the characteristics of the motion data to a screen of a device for display. The activity identifier being a graphical user interface that receives an input for rendering more or less of the characteristics of the motion data. | 11-20-2014 |
20140343443 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 11-20-2014 |
20140343867 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING SAME - The present inventions, in one aspect, are directed to a portable activity monitoring device comprising a housing having a physical size and shape that is adapted to couple to the user's body, a plurality of sensors (for example, motion sensor and altitude sensor) disposed in the housing. The monitoring device may further include processing circuitry, disposed in the housing and electrically coupled to the plurality of sensor, to calculate the activity points corresponding to the physical activity of the user using the sensor data, wherein the activity points correlate to an amount and intensity of the physical activity of the user, and output the data which is representative of the activity points. The monitoring device may also include a display, coupled to the processing circuitry, may output the data which is representative of the activity points to the user. | 11-20-2014 |
20140343892 | Methods and Systems for Geo-Location Optimized Tracking and Updating for Events Having Combined Activity and Location Information - A method includes obtaining a first geo-location and a second geo-location. The first and second geo-locations are associated with a monitoring device. The monitoring device is configured to be used by a user. The first geo-location is determined at a first time and the second geo-location is determined at a second time. The first time and the second time are associated with a rate of obtaining geo-location data. The method includes calculating a difference in distance between the second and first geo-locations and changing the rate of obtaining a third geo-location associated with the monitoring device based on the difference in distance between the second and first geo-locations. | 11-20-2014 |
20140375452 | Methods and Systems for Metrics Analysis and Interactive Rendering, Including Events Having Combined Activity and Location Information - A method includes receiving location data of a monitoring device when carried by a user and receiving motion data of the monitoring device. The motion data is associated with a time of occurrence and the location data. The method includes processing the received motion data to identify a group of the motion data having a substantially common characteristic and processing the location data for the group of the motion data. The group of motion data by way of processing the location data provides an activity identifier. The motion data includes metric data that identifies characteristics of the motion data. The method includes transferring the activity identifier and the characteristics of the motion data to a screen of a device for display. The activity identifier being a graphical user interface that receives an input for rendering more or less of the characteristics of the motion data. | 12-25-2014 |
20140377729 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 12-25-2014 |
20140378786 | MULTIMODE SENSOR DEVICES - The disclosure provides BMDs that have multiple device modes depending on operational conditions of the devices, e.g., motion intensity, device placement, and/or activity type. The device modes are associated with various data processing algorithms. In some embodiments, the BMD is implemented as a wrist-worn or arm-worn device. In some embodiments, methods for tracking physiological metrics using the BMDs are provided. In some embodiments, the process or the BMD determines that the user is engaged in a particular activity type by detecting a signature signal selectively associated with the particular activity type, and quantifies a physiological metric for the particular activity type. | 12-25-2014 |
20140378787 | BIOMETRIC MONITORING DEVICE WITH HEART RATE MEASUREMENT ACTIVATED BY A SINGLE USER-GESTURE - A biometric monitoring device having a heart rate sensor for measuring various biometric information is provided. In some embodiments, the biometric monitoring device allows the person to take and/or display a heart rate reading by a simple user interaction with the device, e.g., by simply touching a heart rate sensor surface area, moving the device in a defined motion pattern, or clenching the fist. Some embodiments of this disclosure provide a biometric monitoring device that allows a person to get a quick heart rate reading without removing the device or interrupting their other activities. Some embodiments provide heart rate monitoring with other desirable features such as feedback on data acquisition status. | 12-25-2014 |
20140378872 | MULTIMODE SENSOR DEVICES - The disclosure provides BMDs that have multiple device modes depending on operational conditions of the devices, e.g., motion intensity, device placement, and/or activity type, the device modes are associated with various data processing algorithms. In some embodiments, the BMD is implemented as a wrist-worn or arm-worn device. In some embodiments, methods for tracking physiological metrics using the BMDs are provided. In some embodiments, the process and the BMD applies a time domain analysis on data provided by a sensor of the BMD when the data has a high signal (e.g., high signal-to-noise ratio), and applies a frequency domain analysis on the data when the data has a low signal, which contributes to improved accuracy and speed of biometric data. | 12-25-2014 |
20140379275 | BIOMETRIC MONITORING DEVICE HAVING A BODY WEIGHT SENSOR, AND METHODS OF OPERATING SAME - A system comprising a biometric monitoring device including a housing including a platform to receive at least one foot of the user, a body weight sensor to generate body weight data, processing circuitry to calculate user weight data which corresponds to the user's weight, using the body weight data, and communication circuitry to: (a) receive user identification data which identifies the user or a portable activity monitoring device, and (b) transmit the user weight data to data storage associated with the user identification data. The system further includes the portable activity monitoring device including a housing having a physical size and shape that is adapted to couple to the user's body, a sensor to generate sensor data, and communication circuitry to receive physiologic data which is based on the user weight data, and processing circuitry to calculate activity data using the sensor data and physiologic data. | 12-25-2014 |
20150018991 | FITNESS MONITORING DEVICE WITH USER ENGAGEMENT METRIC FUNCTIONALITY - Methods, apparatuses, and systems are provided for determining a level of user engagement with a fitness monitoring device and, when a level of engagement metric for the fitness monitoring device for a person meets certain criteria, encouraging user engagement with the fitness monitoring device. | 01-15-2015 |
20150025393 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. | 01-22-2015 |
20150025394 | WEARABLE HEART RATE MONITOR - Some embodiments provide a wearable fitness monitoring device including a motion sensor and a photoplethysmographic (PPG) sensor. The PPG sensor includes (i) a periodic light source, (ii) a photo detector, and (iii) circuitry determining a user's heart rate from an output of the photo detector. Some embodiments provide methods for operating a heart rate monitor of a wearable fitness monitoring device to measure one or more characteristics of a heartbeat waveform. Some embodiments provide methods for operating the wearable fitness monitoring device in a low power state when the device determines that the device is not worn by a user. Some embodiments provide methods for operating the wearable fitness monitoring device in a normal power state when the device determines that the device is worn by a user. Some embodiments provide methods for using response characteristics of the user's skin to adjust a gain and/or light emission intensity of the heart rate monitor. | 01-22-2015 |
20150042471 | PORTABLE MONITORING DEVICES AND METHODS OF OPERATING THE SAME - In one aspect of the disclosed implementations, a device includes one or more motion sensors for sensing motion of the device and providing activity data indicative of the sensed motion. The device also includes one or more processors for monitoring the activity data, and receiving or generating annotation data for annotating the activity data with one or more markers or indicators to define one or more characteristics of an activity session. The device also includes one or more feedback devices for providing feedback, a notice, or an indication to a user based on the monitoring. The device further includes a portable housing that encloses at least portions of the motion sensors, the processors and the feedback devices. | 02-12-2015 |
20150088457 | Methods And Systems For Identification Of Event Data Having Combined Activity And Location Information Of Portable Monitoring Devices - Systems and methods for segmenting a period of time into identification of locations of a user who performs activities are described. One of the methods includes detecting activity of a monitoring device worn by the user. The activity includes an amount of movement of the monitoring device. The activity is performed for a period of time. The method further includes obtaining geo-location data for the monitoring device and storing, during the period of time, the detected activity and corresponding geo-location data. The method also includes analyzing the detected activity and the corresponding geo-location data to identify one or more events. Each event is associated with a group of activity data and one or more of the groups of activity data is associated with an identifier, which is obtained using the geo-location data. | 03-26-2015 |
20150088464 | Methods And Systems For Classification Of Geographic Locations For Tracked Activity - A method includes receiving activity of a monitoring device that is configured to be worn by a user having a user account. The activity includes an amount of movement of the monitoring device and occurs for a period of time. The method further includes receiving geo-location data for the monitoring device and processing the activity data and geo-location data received for the period of time. The operation of processing is performed to segment the period of time into at least two events. The method includes assigning an identifier to each event. The identifier has a default description for the geo-location data. The default description is selected from a plurality of descriptions based on the activity data obtained by the movement of the monitoring device for the geo-location data. | 03-26-2015 |