Patent application number | Description | Published |
20100304730 | SPACE & TIME BASED DEVICE CUSTOMIZATION - Customizing a device based on space and time (e.g., a geographic position of the device at a particular time) is disclosed. In one aspect, geographic position data of a device is obtained. Temporal data that is related to the geographic position data is obtained. An operational mode is selected based on the geographic position data and the temporal data for activation on the device. In some implementations, the operational mode identifies a communication medium. | 12-02-2010 |
20100307016 | Magnetometer Accuracy and Use - A parameter related to the Earth's magnetic field can be used to determine accuracy of a magnetometer of a mobile device. In one aspect, a first instance of a parameter related to Earth's magnetic field is determined using data generated by the magnetometer. The magnetometer data can be based in part on a position of the mobile device with respect to the Earth. A second instance of the parameter can be determined using data generated by a model of Earth's magnetic field. The model data can also be based in part on the position of the mobile device with respect to the Earth. The first instance of the parameter can be compared with the second instance of the parameter. An accuracy metric for the magnetometer can be determined based on a result of the comparison. An indication of the accuracy metric can be presented by the mobile device. | 12-09-2010 |
20110054787 | Context Determination to Assist Location Determination Accuracy - A location aware device includes a navigation system and one or more environment sensors. Sensor output(s) are aggregated and used to determine a context for the location aware device. Based on the determined context, context data is generated and provided to a navigation engine where it can be used to determine a navigation solution. | 03-03-2011 |
20110131825 | Magnetometer Accuracy and Use - A parameter related to the Earth's magnetic field can be used to determine accuracy of a magnetometer of a mobile device. In one aspect, a first instance of a parameter related to Earth's magnetic field is determined using data generated by the magnetometer. The magnetometer data can be based in part on a position of the mobile device with respect to the Earth. A second instance of the parameter can be determined using data generated by a model of Earth's magnetic field. The model data can also be based in part on the position of the mobile device with respect to the Earth. The first instance of the parameter can be compared with the second instance of the parameter. An accuracy metric for the magnetometer can be determined based on a result of the comparison. An indication of the accuracy metric can be presented by the mobile device. | 06-09-2011 |
20110176494 | Location Filtering Using Mobile Country Code - Methods, program products, and systems for location filtering using mobile country code (MCC) is described. A mobile device can determine its geographic location using locations of access points of a wireless communications network to which the mobile device is connected. The mobile device can wirelessly receive identifiers of one or more access points of the wireless communications network and a current MCC through a cellular network. The mobile device can identify a polygon that is a bounding box of a geographic area that corresponds to the current MCC. The mobile device can select a set of access point locations from a location database using the received identifiers, where the access point locations are inside the identified polygon. The mobile device can determine a current location of the mobile device based on an average location of the selected set of access point locations. | 07-21-2011 |
20110222673 | INDICATORS FOR VOICEMAILS - Methods and systems to examine, in one embodiment, content of a voicemail to determine whether the voicemail is message-less. An indicator that indicates the voicemail is message-less can be presented in response to determining that the voicemail is message-less. A method in an embodiment can be performed on either a client system or on a voicemail server. In another embodiment, a method can determine whether a length of the content of a voicemail is less than a period of time and can display an indicator that the voicemail has either no content or is very short. | 09-15-2011 |
20110241656 | Determining Heading Using Magnetometer Data and Angular Rate Data - A device coupled with a magnetometer and an angular rate sensor can determine a heading of the device using magnetometer data. When the device receives a notification that the magnetometer data may be inaccurate, the device can determine the heading of the device using angular rate data. When the device determines that the magnetometer data are accurate, the device can resume determining the heading of the device using the magnetometer data. | 10-06-2011 |
20110246117 | CALIBRATING SENSOR MEASUREMENTS ON MOBILE DEVICES - Sensor measurements are used to detect when a device incorporating the sensor is stationary. While the device is stationary, sensor measurements at a current device temperature are used to estimate model parameters. The model parameters can be used in a state estimator to provide an estimated attitude that can be provided to other applications. In some implementations, the estimated attitude can be used to mitigate interference in other sensor measurements. | 10-06-2011 |
20110252057 | JOURNALING ON MOBILE DEVICES - A journaling subsystem on a mobile device stores event data related to applications or other subsystems running on the mobile device. The event data can be stored and indexed in a journal database so that a timeline of past events can be reconstructed in response to search queries. In some implementations, a timeline can be reconstructed with markers on a map display based on search results. When the user interacts with a marker on the map display, the event data collected by the mobile device is made available to the user. | 10-13-2011 |
20110256881 | CONTEXT-BASED REVERSE GEOCODING - In general, in one aspect, a mobile device can perform reverse geocoding based on context, in addition to latitude and longitude coordinates. The reverse geocoding can be used to determine in which geofence among multiple geofences the mobile device is located. Thus, the mobile device can be associated with a street address, a postal code, a named land feature, or a commercial, cultural, or political entity associated with the geofence. The context can include a pattern of movement, as well as an accuracy of the latitude and longitude coordinates. Information in the context can be compared to selection criteria of the geofence. A geofence having selection criteria that match the context the best can be selected. | 10-20-2011 |
20120007850 | Sensor Based Display Environment - A three-dimensional (ā3Dā) display environment for mobile device is disclosed that uses orientation data from one or more onboard sensors to automatically determine and display a perspective projection of the 3D display environment based on the orientation data without the user physically interacting with (e.g., touching) the display. | 01-12-2012 |
20120157158 | Magnetometer Accuracy and Use - A parameter related to the Earth's magnetic field can be used to determine accuracy of a magnetometer of a mobile device. In one aspect, a first instance of a parameter related to Earth's magnetic field is determined using data generated by the magnetometer. The magnetometer data can be based in part on a position of the mobile device with respect to the Earth. A second instance of the parameter can be determined using data generated by a model of Earth's magnetic field. The model data can also be based in part on the position of the mobile device with respect to the Earth. The first instance of the parameter can be compared with the second instance of the parameter. An accuracy metric for the magnetometer can be determined based on a result of the comparison. An indication of the accuracy metric can be presented by the mobile device. | 06-21-2012 |
20130083055 | 3D Position Tracking for Panoramic Imagery Navigation - Position tracking subsystems and onboard sensors enable a mobile device to navigate virtually a location in panoramic imagery. Physically moving the device through space provides translation data that can be used to move up or down a virtual street or other navigation actions. In some implementations, forward and backward translation enables the user to enter a structure (e.g., a commercial venue) or enter an intersection and navigate a turn onto another street at the intersection. In some implementations, information or an information layer can be displayed when translating. In some implementations, distance data can be used to move up or down a street a particular distance. Distance data can be obtained from motion and/or image sensors onboard the device. The distance data can be scaled to a virtual distance in the panoramic scene. | 04-04-2013 |
20130181811 | Magnetometer Accuracy and Use - A parameter related to the Earth's magnetic field can be used to determine accuracy of a magnetometer of a mobile device. In one aspect, a first instance of a parameter related to Earth's magnetic field is determined using data generated by the magnetometer. The magnetometer data can be based in part on a position of the mobile device with respect to the Earth. A second instance of the parameter can be determined using data generated by a model of Earth's magnetic field. The model data can also be based in part on the position of the mobile device with respect to the Earth. The first instance of the parameter can be compared with the second instance of the parameter. An accuracy metric for the magnetometer can be determined based on a result of the comparison. An indication of the accuracy metric can be presented by the mobile device. | 07-18-2013 |
20130196692 | CONTEXT-BASED REVERSE GEOCODING - In general, in one aspect, a mobile device can perform reverse geocoding based on context, in addition to latitude and longitude coordinates. The reverse geocoding can be used to determine in which geofence among multiple geofences the mobile device is located. Thus, the mobile device can be associated with a street address, a postal code, a named land feature, or a commercial, cultural, or political entity associated with the geofence. The context can include a pattern of movement, as well as an accuracy of the latitude and longitude coordinates. Information in the context can be compared to selection criteria of the geofence. A geofence having selection criteria that match the context the best can be selected. | 08-01-2013 |
20130325318 | Geocoded Data Detection and User Interfaces for Same - A system, method and computer-readable medium are disclosed that can detect an address, geographic coordinates or business name in text displayed on a device and geocode or reverse geocode, respectively, the address/business name or geographic coordinates to provide geocoded data. The detecting and geocoding/reverse geocoding can be performed automatically. The geocoded data can be displayed in-place with the text in a user interface of the device or be provided to another application. | 12-05-2013 |
20130332113 | CONTEXT AWARE MAP APPLICATION - The embodiments described relate to techniques and systems for utilizing a portable electronic device to monitor, process, present and manage data captured by a series of sensors and location awareness technologies to provide a context aware map and navigation application. The context aware map application offers a user interface including visual and audio input and output, and provides several map modes that can change based upon context determined by data captured by a series of sensors and location awareness technologies. | 12-12-2013 |
20140143275 | Journaling on Mobile Devices - A journaling subsystem on a mobile device stores event data related to applications or other subsystems running on the mobile device. The event data can be stored and indexed in a journal database so that a timeline of past events can be reconstructed in response to search queries. In some implementations, a timeline can be reconstructed with markers on a map display based on search results. When the user interacts with a marker on the map display, the event data collected by the mobile device is made available to the user. | 05-22-2014 |
20140325858 | Magnetometer Accuracy and Use - A parameter related to the Earth's magnetic field can be used to determine accuracy of a magnetometer of a mobile device. In one aspect, a first instance of a parameter related to Earth's magnetic field is determined using data generated by the magnetometer. The magnetometer data can be based in part on a position of the mobile device with respect to the Earth. A second instance of the parameter can be determined using data generated by a model of Earth's magnetic field. The model data can also be based in part on the position of the mobile device with respect to the Earth. The first instance of the parameter can be compared with the second instance of the parameter. An accuracy metric for the magnetometer can be determined based on a result of the comparison. An indication of the accuracy metric can be presented by the mobile device. | 11-06-2014 |