Patents by Inventor Pejman Lotfali Kazemi
Pejman Lotfali Kazemi has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9571970Abstract: Among other things, we describe a method that includes, on an electronic device, receiving, from a first location system of the electronic device, first data indicative of a first location of the device at a first time, comparing the first data to second data indicative of a second location of the device at a second time, the second data having been received from a second location system of the electronic device, and based on the comparison, determining whether the first data meets a threshold of location data integrity.Type: GrantFiled: May 30, 2014Date of Patent: February 14, 2017Assignee: Apple Inc.Inventors: Pejman Lotfali Kazemi, Glenn Donald MacGougan, Robert Mayor
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Publication number: 20160349376Abstract: Systems, methods and non-transitory, computer-readable storage mediums are disclosed for a multimode GNSS odometer. In some implementations, a method comprises: obtaining, by a device, position and velocity data from a sensor embedded in, or coupled to the device; statistically combining, by the device, the position and velocity data to generate a first delta distance travelled by the device over a period of time, the statistical combining including weighting a contribution of an integrated speed to the first delta distance, the integrated speed derived from the obtained velocity data and period of time; filtering, by the device, the first delta distance to generate a filtered first delta distance; and generating, by the device, a first estimate of total distance travelled by the device based on the filtered first delta distance.Type: ApplicationFiled: August 27, 2015Publication date: December 1, 2016Inventors: Pejman Lotfali Kazemi, Glenn Donald MacGougan
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Publication number: 20160334433Abstract: Systems, methods and non-transitory, computer-readable mediums are disclosed for pedestrian pace estimation with pace change detection. In some implementations, a method comprises: receiving, by a processor of a mobile device, raw pedometer data from a pedometer included in or coupled to the mobile device; receiving, by the processor, raw GNSS data from a GNSS receiver included in or coupled to the mobile device; estimating, using a first filter implemented on the processor, a step frequency of a user wearing or holding the mobile device, the estimating including using the raw pedometer data; determining, by the processor, a pace change, the pace change determined from the estimated step frequency; responsive to the pace change, adapting by the processor, a bandwidth of a second filter implemented by the processor; and estimating, by the second filter, an estimated pace or speed of the user.Type: ApplicationFiled: May 14, 2015Publication date: November 17, 2016Inventor: Pejman Lotfali Kazemi
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Patent number: 9460388Abstract: Implementations are disclosed for obtaining a range state of a device operating in an indoor environment with radio frequency (RF) signal sources. In some implementations, windowed signal measurements obtained from RF signals transmitted by an RF signal source are classified into range classes that are defined by threshold values obtained from a RF signal propagation model. A range class observation is obtained by selecting a range class among a plurality of range classes based on a percentage of a total number of windowed signal measurements that are associated with the range class. The range class observation is provided as input to a state estimator that estimates a range class that accounts for process and/or measurement noise. The output of the state estimator is provided as input to a state machine.Type: GrantFiled: May 30, 2013Date of Patent: October 4, 2016Assignee: Apple Inc.Inventors: Lukas M. Marti, Shannon M. Ma, Pejman Lotfali Kazemi
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Patent number: 9445235Abstract: A proximity fence can be a location-agnostic fence defined by signal sources having no geographic location information. The proximity fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. A signal source can be a radio frequency (RF) transmitter broadcasting a beacon signal. The beacon signal can include a payload that includes an identifier indicating a category to which the signal source belongs, and one or more labels indicating one or more subcategories to which the signal source belongs. The proximity fence defined by the group of signal sources can trigger different functions of application programs associated with the proximity fence on a mobile device, when the mobile device moves within the proximity fence and enters and exits different parts of the proximity fence corresponding to the different subcategories.Type: GrantFiled: August 13, 2015Date of Patent: September 13, 2016Assignee: Apple Inc.Inventors: Lukas M. Marti, Shannon M. Ma, Robert Mayor, Augustin Prats, Brian J. Tucker, Christopher J. Edmonds, Joakim Linde, Pejman Lotfali Kazemi
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Patent number: 9401769Abstract: A wireless electronic device may include wireless communications circuitry and processing circuitry. The wireless communications circuitry may receive radio-frequency signals from external communications circuitry in a number of frequency channels of a communications band. The processing circuitry may gather received signal quality data such as receive signal strength indicator (RSSI) values from the radio-frequency signals received in each of the frequency channels. The processing circuitry may accumulate respective probability distributions of gathered RSSI values for each frequency channel and may compare each of the probability distributions to generate RSSI offset values for each frequency channel. The processing circuitry may gather additional RSSI values in one or more frequency channels and may adjust the additional RSSI values based on the associated RSSI offset values. The processing circuitry may use the adjusted RSSI values to determine an accurate location of the wireless electronic device.Type: GrantFiled: June 4, 2013Date of Patent: July 26, 2016Assignee: Apple Inc.Inventors: Robert W. Mayor, Pejman Lotfali Kazemi, Lukas M. Marti
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Patent number: 9307358Abstract: Techniques of non-intrusive region notification are described. A mobile device can be programmed to trigger an application program when the mobile device enters or exits a region. The region can be defined by various virtual fencing technologies. If, at the time of entry or exit of a region, the mobile device is in a power-saving operating mode, the mobile device can transition to an active operating mode temporarily, register a fence-crossing event (entry or exit of the region) with the application program, and then transition back to the power-saving operating mode. The mobile device can launch the registered application program in response to the mobile device receiving a user input to enter the active operating mode. The application program can provide a user interface associated with the region on a display surface of the mobile device in place of a home screen or other user interface.Type: GrantFiled: June 9, 2013Date of Patent: April 5, 2016Assignee: Apple Inc.Inventors: Lukas M. Marti, Pejman Lotfali Kazemi, Robert Mayor, Shannon M. Ma
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Publication number: 20160044457Abstract: A proximity fence can be a location-agnostic fence defined by signal sources having no geographic location information. The proximity fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. A signal source can be a radio frequency (RF) transmitter broadcasting a beacon signal. The beacon signal can include a payload that includes an identifier indicating a category to which the signal source belongs, and one or more labels indicating one or more subcategories to which the signal source belongs. The proximity fence defined by the group of signal sources can trigger different functions of application programs associated with the proximity fence on a mobile device, when the mobile device moves within the proximity fence and enters and exits different parts of the proximity fence corresponding to the different subcategories.Type: ApplicationFiled: August 13, 2015Publication date: February 11, 2016Inventors: Lukas M. Marti, Shannon M. Ma, Robert Mayor, Augustin Prats, Brian J. Tucker, Christopher J. Edmonds, Joakim Linde, Pejman Lotfali Kazemi
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Publication number: 20150350833Abstract: Among other things, we describe a method that includes, on an electronic device, receiving, from a first location system of the electronic device, first data indicative of a first location of the device at a first time, comparing the first data to second data indicative of a second location of the device at a second time, the second data having been received from a second location system of the electronic device, and based on the comparison, determining whether the first data meets a threshold of location data integrity.Type: ApplicationFiled: May 30, 2014Publication date: December 3, 2015Inventors: Pejman Lotfali Kazemi, Glenn Donald MacGougan, Robert Mayor
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Publication number: 20150347351Abstract: Among other things, we describe a method that includes, on an electronic device, determining that a current quality metric of signals received by a location system of the electronic device does not meet a threshold quality metric, and based on the determination, selecting a recommendation for changing a position of the device in a manner that would alter the current quality metric. This aspect can also include corresponding systems, apparatus, and computer program products stored on a storage device.Type: ApplicationFiled: May 30, 2014Publication date: December 3, 2015Inventors: Pejman Lotfali Kazemi, Glenn Donald MacGougan, Robert Mayor
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Patent number: 9116234Abstract: A system and method for an advanced GNSS receiver that is operable to provide an ultra-fast, autonomous and reliable TTFF that does not require an initial position, at the same time, minimizing processing power and hardware cost. The system and method is able to reliably recover the time of transmission of the received signals using I/Q sample lengths on the order of milliseconds, and is capable of operating autonomously without the need of aiding technologies such as the AGPS technology for which there are privacy and service availability concerns.Type: GrantFiled: July 26, 2012Date of Patent: August 25, 2015Assignee: Baseband Technologies IncInventors: Keith Van Dierendonck, Ming Xu, Pejman Lotfali Kazemi
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Patent number: 9113300Abstract: A proximity fence can be a location-agnostic fence defined by signal sources having no geographic location information. The proximity fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. A signal source can be a radio frequency (RF) transmitter broadcasting a beacon signal. The beacon signal can include a payload that includes an identifier indicating a category to which the signal source belongs, and one or more labels indicating one or more subcategories to which the signal source belongs. The proximity fence defined by the group of signal sources can trigger different functions of application programs associated with the proximity fence on a mobile device, when the mobile device moves within the proximity fence and enters and exits different parts of the proximity fence corresponding to the different subcategories.Type: GrantFiled: February 26, 2014Date of Patent: August 18, 2015Assignee: Apple Inc.Inventors: Lukas M. Marti, Shannon M. Ma, Robert Mayor, Augustin Prats, Brian J. Tucker, Christopher J. Edmonds, Joakim Linde, Pejman Lotfali Kazemi
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Publication number: 20150201306Abstract: Techniques of range free proximity determination are described. A mobile device can determine an entry into or exit from a proximity fence upon determining that the mobile device is sufficiently close to a signal source. The proximity fence can be a virtual fence defined by the signal source and associated with a service. The mobile device can detect signals from multiple signal sources. The mobile device can determine that, among the signal sources, one or more signal sources are located closest to the mobile device based on a ranking of the signal sources using signal strength. The mobile device can determine a probability indicating a confident level of the ranking. The mobile device can determine that the mobile device entered or exited a proximity fence associated with a highest ranked signal source satisfying a confidence threshold.Type: ApplicationFiled: January 16, 2014Publication date: July 16, 2015Inventors: Pejman Lotfali Kazemi, Lukas M. Marti, Robert Mayor, Shannon M. Ma, Ronald K. Huang
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Publication number: 20150181384Abstract: In some implementations, a beaconing protocol can be used to broadcast beacon information to mobile devices. The beaconing protocol can be used by a Bluetooth Low Energy (LE) (e.g., Bluetooth 4.0) beacon to transmit a package of information that identifies the beacon and indicates the calibrated transmission power (e.g., measured power) of the beacon. The package of information can be configured by beacon providers and/or beacon installers at the locations where the beacons are installed. When a mobile device receives the beacon package, the mobile device can use the beacon identification information and/or the measured power of the beacon to determine a location (e.g., precise location, geofence location) of the mobile device. In some implementations, the mobile device can transmit the beacon information to a server and the server can determine the location of the mobile device and send location and/or content information back to the mobile device.Type: ApplicationFiled: September 30, 2014Publication date: June 25, 2015Inventors: Robert Mayor, Pejman Lotfali Kazemi, Augustin Prats, Brian J. Tucker, Joakim Linde
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Publication number: 20150036724Abstract: A system and method for an advanced GNSS receiver that is operable to provide an ultra-fast, autonomous and reliable TTFF that does not require an initial position, at the same time, minimizing processing power and hardware cost. The system and method is able to reliably recover the time of transmission of the received signals using I/Q sample lengths on the order of milliseconds, and is capable of operating autonomously without the need of aiding technologies such as the AGPS technology for which there are privacy and service availability concerns.Type: ApplicationFiled: July 26, 2012Publication date: February 5, 2015Inventors: Keith Van Dierendonck, Ming Xu, Pejman Lotfali Kazemi
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Publication number: 20140364103Abstract: Techniques of non-intrusive region notification are described. A mobile device can be programmed to trigger an application program when the mobile device enters or exits a region. The region can be defined by various virtual fencing technologies. If, at the time of entry or exit of a region, the mobile device is in a power-saving operating mode, the mobile device can transition to an active operating mode temporarily, register a fence-crossing event (entry or exit of the region) with the application program, and then transition back to the power-saving operating mode. The mobile device can launch the registered application program in response to the mobile device receiving a user input to enter the active operating mode. The application program can provide a user interface associated with the region on a display surface of the mobile device in place of a home screen or other user interface.Type: ApplicationFiled: June 9, 2013Publication date: December 11, 2014Inventors: Lukas M. Marti, Pejman Lotfali Kazemi, Robert Mayor, Shannon M. Ma
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Publication number: 20140358835Abstract: Implementations are disclosed for obtaining a range state of a device operating in an indoor environment with radio frequency (RF) signal sources. In some implementations, windowed signal measurements obtained from RF signals transmitted by an RF signal source are classified into range classes that are defined by threshold values obtained from a RF signal propagation model. A range class observation is obtained by selecting a range class among a plurality of range classes based on a percentage of a total number of windowed signal measurements that are associated with the range class. The range class observation is provided as input to a state estimator that estimates a range class that accounts for process and/or measurement noise. The output of the state estimator is provided as input to a state machine.Type: ApplicationFiled: May 30, 2013Publication date: December 4, 2014Inventors: Lukas M. Marti, Shannon M. Ma, Pejman Lotfali Kazemi
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Publication number: 20140357196Abstract: A wireless electronic device may include wireless communications circuitry and processing circuitry. The wireless communications circuitry may receive radio-frequency signals from external communications circuitry in a number of frequency channels of a communications band. The processing circuitry may gather received signal quality data such as receive signal strength indicator (RSSI) values from the radio-frequency signals received in each of the frequency channels. The processing circuitry may accumulate respective probability distributions of gathered RSSI values for each frequency channel and may compare each of the probability distributions to generate RSSI offset values for each frequency channel. The processing circuitry may gather additional RSSI values in one or more frequency channels and may adjust the additional RSSI values based on the associated RSSI offset values. The processing circuitry may use the adjusted RSSI values to determine an accurate location of the wireless electronic device.Type: ApplicationFiled: June 4, 2013Publication date: December 4, 2014Inventors: Robert W. Mayor, Pejman Lotfali Kazemi, Lukas M. Marti
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Publication number: 20140274150Abstract: A proximity fence can be a location-agnostic fence defined by signal sources having no geographic location information. The proximity fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. A signal source can be a radio frequency (RF) transmitter broadcasting a beacon signal. The beacon signal can include a payload that includes an identifier indicating a category to which the signal source belongs, and one or more labels indicating one or more subcategories to which the signal source belongs. The proximity fence defined by the group of signal sources can trigger different functions of application programs associated with the proximity fence on a mobile device, when the mobile device moves within the proximity fence and enters and exits different parts of the proximity fence corresponding to the different subcategories.Type: ApplicationFiled: February 26, 2014Publication date: September 18, 2014Inventors: Lukas M. Marti, Shannon M. Ma, Robert Mayor, Augustin Prats, Brian J. Tucker, Christopher J. Edmonds, Joakim Linde, Pejman Lotfali Kazemi
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Publication number: 20140256306Abstract: Among other things, we describe a method that includes receiving, on a mobile device, an indication that an application executing on the mobile device has entered a background state, receiving, from the application, a value indicating a condition for providing location data to the application, disabling a resource associated with the application, while the resource associated with the application is disabled, storing location data received from a location system of the mobile device, and when the condition indicated by the value is met, enabling the resource associated with the application, and providing the stored location data to the application.Type: ApplicationFiled: May 23, 2014Publication date: September 11, 2014Applicant: Apple Inc.Inventors: Glenn Donald MacGougan, Jay N. Bruins, Robert Mayor, Ronald K. Huang, Stephen J. Rhee, Jay L. Prunty, Pejman Lotfali Kazemi