Patents by Inventor Behrooz Abdi
Behrooz Abdi 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: 11635840Abstract: In a method for determining touch applied to an electronic device, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A signal change due to a change in a feature of the finger during a touch interaction with the ultrasonic sensor is determined based on differences between the first data and the second data. A touch applied by the finger to the electronic device is determined based at least in part on the signal change due to the change in the feature of the finger.Type: GrantFiled: June 28, 2021Date of Patent: April 25, 2023Assignee: InvenSense, Inc.Inventors: Eitan Medina, Behrooz Abdi, Sam Massih, Romain Fayolle, Hao-Yen Tang
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Publication number: 20210397290Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: ApplicationFiled: June 28, 2021Publication date: December 23, 2021Applicant: InvenSense, Inc.Inventors: Eitan MEDINA, Behrooz ABDI, Sam MASSIH, Romain FAYOLLE, Hao-Yen TANG
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Patent number: 11048358Abstract: In a method for determining touch applied to an electronic device, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A signal change due to a deformation of the finger during a touch interaction with the ultrasonic sensor is determined based on differences between the first data and the second data. A touch applied by the finger to the electronic device is determined based at least in part on the signal change due to the deformation.Type: GrantFiled: February 14, 2020Date of Patent: June 29, 2021Assignee: InvenSense, Inc.Inventors: Eitan Medina, Behrooz Abdi, Sam Massih, Romain Fayolle, Hao-Yen Tang
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Publication number: 20200183536Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: ApplicationFiled: February 14, 2020Publication date: June 11, 2020Applicant: InvenSense, Inc.Inventors: Eitan MEDINA, Behrooz ABDI, Sam MASSIH, Romain FAYOLLE, Hao-Yen TANG
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Patent number: 10564778Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: GrantFiled: April 23, 2019Date of Patent: February 18, 2020Assignee: InvenSense, Inc.Inventors: Eitan Medina, Behrooz Abdi, Sam Massih, Romain Fayolle, Hao-Yen Tang
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Publication number: 20190250771Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: ApplicationFiled: April 23, 2019Publication date: August 15, 2019Applicant: InvenSense, Inc.Inventors: Eitan MEDINA, Behrooz ABDI, Sam MASSIH, Romain FAYOLLE, Hao-Yen TANG
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Patent number: 10296145Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: GrantFiled: March 3, 2017Date of Patent: May 21, 2019Assignee: Invensense, Inc.Inventors: Eitan Medina, Behrooz Abdi, Sam Massih, Romain Fayolle, Hao-Yen Tang
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Publication number: 20170255338Abstract: In a method for determining force applied to an ultrasonic sensor, ultrasonic signals are emitted from an ultrasonic sensor. A plurality of reflected ultrasonic signals from a finger interacting with the ultrasonic sensor is captured. A first data based at least in part on a first reflected ultrasonic signal of the plurality of reflected ultrasonic signals is compared with a second data based at least in part on a second reflected ultrasonic signal of the plurality of reflected ultrasonic signals. A deformation of the finger during interaction with the ultrasonic sensor is determined based on differences between the first data based at least in part on the first reflected ultrasonic signal and the second data based at least in part on the second reflected ultrasonic signal. A force applied by the finger to the ultrasonic sensor is determined based at least in part on the deformation.Type: ApplicationFiled: March 3, 2017Publication date: September 7, 2017Applicant: InvenSense, Inc.Inventors: Eitan MEDINA, Behrooz ABDI, Sam MASSIH, Romain FAYOLLE, Hao-Yen TANG
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Publication number: 20150362315Abstract: Systems and methods are disclosed for determining position information for a mobile device by correlating patterns of data obtained with environmental sensors. A pattern of sensor data associated with an environmental condition may be detected at known location and then matched with a pattern of sensor data detected by the mobile device to determine position information.Type: ApplicationFiled: June 13, 2014Publication date: December 17, 2015Inventors: Behrooz Abdi, Ardalan Heshmati, Rahul Bakshi
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Publication number: 20150288687Abstract: Systems and methods are disclosed for providing sensor based authentication of a user's identification and may be used to control access. In this manner, a user's identity may be used to control access to any suitable location, space or resource, either locally or remotely. A combination of functions involved in authenticating a user's identification may be performed by one or more discrete devices and include obtaining sensor data from at least one sensor that is physically associated with a user, monitoring to determine that the sensor remains physically associated with the user, authenticating the user's identity using the sensor data and communicating information regarding the user's identification.Type: ApplicationFiled: April 7, 2014Publication date: October 8, 2015Applicant: InvenSense, IncorporatedInventors: Ardalan Heshmati, Behrooz Abdi, Karthik Katingari
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Publication number: 20060293029Abstract: Apparatus, methods, and programs for protecting data on a wireless device may include a wireless device having a computer platform with a processing engine operable, based upon configurable parameters, to log data access attempt on the wireless device and transmit the log to a remote device. Furthermore, the wireless device may be configured to execute locally and remotely generated control commands on the wireless device, the commands operable to modify an operation of the wireless device. The embodiment may also include an apparatus operable to receive the transmitted log, analyze the received log and transmit a control command to the wireless device. The apparatus may further generate a data access report and make the report available to an authorized user.Type: ApplicationFiled: May 19, 2006Publication date: December 28, 2006Inventors: Sanjay Jha, Behrooz Abdi, Clifton Scott, Kenny Fok, Eric Chung Yip, Tia Cassett
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Publication number: 20060278694Abstract: Detection and management methods and apparatus for wireless devices may include an executable instruction authorization module operable to scan executable instructions on a wireless device, generate a log indicative of a virus or otherwise unauthorized executable instructions based on a received authorization configuration, and forward the log to a user manager. The user manager may be operable to analyze the log and generate an authorization report which may be viewable by an operator to determine the disposition of unauthorized executable instructions. At least one of the executable instruction authorization module, the user manager, and the operator may be operable to generate a control command operable to delete, or otherwise disable, unauthorized executable instructions on the wireless device, or to restore the executable instructions on the wireless device.Type: ApplicationFiled: May 15, 2006Publication date: December 14, 2006Inventors: Sanjay Jha, Behrooz Abdi, Clifton Scott, Kenny Fok, Tia Cassett, Jihyun Hwang
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Publication number: 20060280150Abstract: Apparatus, methods, processors and machine readable media for verifying the integrity of firmware on a wireless device. Aspects include generating a verification scheme for testing the integrity of firmware on a wireless device and transmitting the verification scheme to the wireless device. The wireless device applies the verification scheme to the firmware and obtains a verification test result, which is forwarded for analysis. An analyzer compares the generated verification test result with a predetermined test result to obtain an integrity determination that indicates the integrity of the firmware. In some aspects, control commands to change an operational characteristic of the wireless device may be generated based on the integrity determination.Type: ApplicationFiled: December 15, 2005Publication date: December 14, 2006Inventors: Sanjay Jha, Behrooz Abdi, Clifton Scott, Kenny Fok, Tia Cassett, Jihyun Hwang
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Patent number: 5734276Abstract: Prior art differential track and hold amplifiers produce an error voltage when transitioning from a track mode to a hold mode. An error voltage limits the resolution of a track and hold amplifier. A first circuit (44) and a second circuit (45) couple a differential voltage to the storage capacitor. Control signals applied to the first and second circuits (44, 45) generate parasitic currents through parasitic capacitances which couple to a storage capacitor of a track and hold amplifier (41). The control signals applied to the first and second circuits (44, 45) are forced to transition an equal voltage magnitude to produce identical parasitic currents through the parasitic capacitance. Identical parasitic currents affect common mode voltage but do not change the differential voltage stored on the storage capacitor. A clamping circuit (50) clamps the voltage transition of the control signals to produce identical voltage transitions.Type: GrantFiled: February 20, 1996Date of Patent: March 31, 1998Assignee: Motorola, Inc.Inventors: Behrooz Abdi, Byron Bynum
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Patent number: 5517141Abstract: A differential track and hold amplifier circuit (200) is provided. The track and hold amplifier includes an input transconductance amplifier (212), an output amplifier (111), and a second transconductance amplifier (214). The track and hold circuit further includes a switching circuit (108) for coupling the output of the input transconductance amplifier to a capacitor (110) in the output stage of the track and hold circuit during track mode, and for decoupling the capacitor from the input amplifier during hold mode. The track and hold circuit further includes a subtractor circuit (103) for reducing a common mode voltage of the output of the input transconductance amplifier, thereby maintaining a stable voltage across the capacitor during hold mode. Further, during hold mode, the second transconductance amplifier acts in a negative feedback configuration to reduce the gain of the input amplifier to attenuate its output signal.Type: GrantFiled: March 8, 1995Date of Patent: May 14, 1996Assignee: Motorola, Inc.Inventors: Behrooz Abdi, Gary Stuhlmiller
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Patent number: 5467051Abstract: A current switch circuit for operating with low supply voltages while not compromising dynamic range has been provided. The current switch circuit includes a differential pair of transistors having first (12) and second (20) transistors. The base of the first transistor is coupled to a bias voltage (V.sub.B) while its collector is coupled to an output (14) of the current switch circuit. The collector of the second transistor is coupled to a first supply voltage terminal while the base of the second transistor is coupled to a variable bias circuit (22) for alternately swinging the voltage applied to the base of the second transistor above or below the bias voltage applied to the base of the first transistor. When the voltage applied to the base of the second transistor is greater than the bias voltage applied to the base of the first transistor, a predetermined current is sunk from the output of the current switch. Otherwise, substantially zero current flows at the output of the current switch.Type: GrantFiled: September 1, 1993Date of Patent: November 14, 1995Assignee: Motorola, Inc.Inventor: Behrooz Abdi
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Patent number: 5182476Abstract: An offset cancellation circuit corrects DC offset appearing at the input of a comparator circuit. The first input of a summing junction receives an input signal containing DC offset. The output of the summing junction drives the input of the comparator and a feedback amplifier, the latter of which returns to the second input of the summing junction. Any DC offset is processed through the feedback amplifier where it subtracts from the input signal for providing zero DC offset at the input of the comparator.Type: GrantFiled: July 29, 1991Date of Patent: January 26, 1993Assignee: Motorola, Inc.Inventors: John E. Hanna, Behrooz Abdi
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Patent number: 5180935Abstract: A frequency discriminator circuit is provided having increased resolution for detecting the frequency of a data input signal above and below a predetermined frequency threshold by monitoring a count value. The output signal of the frequency discriminator circuit remains at a first logic state provided the count value is reset by the data input signal before reaching a predetermined count value signifying that the frequency of data input signal is above the predetermined frequency threshold. The output signal of the frequency discriminator circuit switches to a second logic state if the count value reaches the predetermined count value before receiving a reset signal thereby indicating that the frequency of data input signal is below the predetermined frequency threshold.Type: GrantFiled: January 10, 1992Date of Patent: January 19, 1993Assignee: Motorola, Inc.Inventors: Behrooz Abdi, Gary Stuhlmiller
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Patent number: 5155386Abstract: A comparator having programmable hysteresis is provided. The signal supplied to an inverting input of the comparator (18) is determined by the logic state of the output of comparator and is a programmable factor of one of two predetermined signals (V.sub.REF1 or V.sub.REF2). The programmable factor is determined by the logic states of a plurality of control signals and can be adjusted by varying the logic states of the plurality of control signals.Type: GrantFiled: June 3, 1991Date of Patent: October 13, 1992Assignee: Motorola, Inc.Inventor: Behrooz Abdi
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Patent number: 5120995Abstract: A peak detector circuit includes a switch for charging and discharging a capacitor at predetermined rates. In a first mode of operation, the switch is open and the peak detector functions to provide an output voltage that is indicative of the peak voltage level occurring at its input by charging a capacitor at a first predetermined rate. In a second mode of operation, the switch is closed and the peak detector functions to discharge the capacitor at a second predetermined rate and to a predetermined voltage. Subsequently in the second mode of operation, the peak detector then functions to provide an output voltage that follows its input voltage.Type: GrantFiled: May 29, 1991Date of Patent: June 9, 1992Assignee: Motorola, Inc.Inventor: Behrooz Abdi