Patents Assigned to Aerendir Mobile Inc.
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Publication number: 20220197986Abstract: In one embodiment, a method for authenticating a user with an electronic device is disclosed. The method incudes receiving digital sensor data from a motion sensor over a signal acquisition time period; deleting a beginning portion of the digital sensor data prior to the signal acquisition time period; suppressing signal components in the data associated with voluntary movement of the user; signal processing the suppressed digital sensor data to extract signal features representing neuro muscular tone of the user; tabulating the extracted signal features over periods of time into a feature vector table; executing a predictive model with the feature vector table; generating a numerical degree of matching level based on the feature vector table and the user parameter set; and making a determination to either authorize the user or not based on the numerical degree of matching level. The predictive model is trained by a user parameter set.Type: ApplicationFiled: December 23, 2021Publication date: June 23, 2022Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Nick Sullivan, Luke Stork, Doron Drusinsky, Kitae Lee
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Publication number: 20200312071Abstract: In accordance with one embodiment, an access control system is disclosed. The access control system comprises an access control panel including a touchable surface, a multi-dimensional touch sensor under the touchable surface, and a processor coupled to the multi-dimensional touch sensor. The multi-dimensional touch sensor captures a multi-dimensional motion signal including a micro-motion signal component representing neuro-mechanical micro-motions of a user touching the multi-dimensional touch sensor. The processor performs signal processing of the multi-dimensional motion signal to obtain the micro-motion signal component; and extracts unique values of predetermined features from the micro-motion signal component to form a neuro-fingerprint (NFP) that uniquely identifies the user. The NFP can be used as a gatekeeper to control entry into homes, offices, buildings, or other real properly typically protected by access control.Type: ApplicationFiled: June 16, 2020Publication date: October 1, 2020Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20200100732Abstract: In accordance with one embodiment, a method for determining changes in health of a user is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a first multi-dimensional motion signal at a first time and date; in response to the first multi-dimensional motion signal, generating a first neuro-mechanical fingerprint; generating a first health measure in response to the first NFP and user calibration parameters; sensing multi-dimensional motion of the body part of the user to generate another multi-dimensional motion signal at another time and date; in response to the another multi-dimensional motion signal, generating another neuro-mechanical fingerprint; generating another health measure in response to the another NFP and the user calibration parameters; and comparing the first health measure with the another health measure to determine a difference representing the health degradation of the user.Type: ApplicationFiled: June 10, 2019Publication date: April 2, 2020Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20200028846Abstract: In accordance with one embodiment, a method for securing data is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a multi-dimensional signal; in response to the multi-dimensional signal and user calibration parameters, generating a neuro-mechanical fingerprint; and encrypting data with an encryption algorithm using the neuro-mechanical fingerprint as a key.Type: ApplicationFiled: June 24, 2019Publication date: January 23, 2020Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20180232507Abstract: A method for user authentication is disclosed including capturing involuntary eye movement of an eyeball of a user; generating a unique pattern to identify the user in response to the involuntary eye movement; storing the unique pattern into a secured non-volatile memory device; and authenticating the user with an electronic device in response to the stored unique pattern.Type: ApplicationFiled: November 7, 2017Publication date: August 16, 2018Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Brian Ebert, Hugh Sharkey
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Publication number: 20180198785Abstract: In accordance with one embodiment, a method for securing data is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a multi-dimensional signal; in response to the multi-dimensional signal and user calibration parameters, generating a neuro-mechanical fingerprint; and encrypting data with an encryption algorithm using the neuro-mechanical fingerprint as a key.Type: ApplicationFiled: December 26, 2017Publication date: July 12, 2018Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20180158266Abstract: In accordance with one embodiment, an access control system is disclosed. The access control system comprises an access control panel including a touchable surface, a multi-dimensional touch sensor under the touchable surface, and a processor coupled to the multi-dimensional touch sensor. The multi-dimensional touch sensor captures a multi-dimensional motion signal including a micro-motion signal component representing neuro-mechanical micro-motions of a user touching the multi-dimensional touch sensor. The processor performs signal processing of the multi-dimensional motion signal to obtain the micro-motion signal component; and extracts unique values of predetermined features from the micro-motion signal component to form a neuro-fingerprint (NFP) that uniquely identifies the user. The NFP can be used as a gatekeeper to control entry into homes, offices, buildings, or other real properly typically protected by access control.Type: ApplicationFiled: November 21, 2017Publication date: June 7, 2018Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20170147803Abstract: In accordance with one embodiment, a method for locally verifying the identification of a user with an electronic device is disclosed. The method includes regenerating a neuro-mechanical fingerprint (NFP) in response to a micro-motion signal sensed at a body part. In response to a plurality of authorized user calibration parameters, a match percentage of the neuro-mechanical fingerprint is determined. The match percentage is determined without the use of a calibration NFP that was previously used to generate the user calibration parameters. Access to the electronic device and its software applications is then controlled by the match percentage. If the match percentage is greater than or equal to an access match level, access to the electronic device is granted. If the match percentage is less than the access match level, access is denied. Subsequent access requires further regeneration of the NFP and a determination of its match percentage in response.Type: ApplicationFiled: February 2, 2017Publication date: May 25, 2017Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20170111359Abstract: In accordance with one embodiment, a method for securing data is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a multi-dimensional signal; in response to the multi-dimensional signal and user calibration parameters, generating a neuro-mechanical fingerprint; and encrypting data with an encryption algorithm using the neuro-mechanical fingerprint as a key.Type: ApplicationFiled: December 29, 2016Publication date: April 20, 2017Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Patent number: 9590986Abstract: In accordance with one embodiment, a method for locally verifying the identification of a user with an electronic device is disclosed. The method includes regenerating a neuro-mechanical fingerprint (NFP) in response to a micro-motion signal sensed at a body part. In response to a plurality of authorized user calibration parameters, a match percentage of the neuro-mechanical fingerprint is determined. The match percentage is determined without the use of a calibration NFP that was previously used to generate the user calibration parameters. Access to the electronic device and its software applications is then controlled by the match percentage. If the match percentage is greater than or equal to an access match level, access to the electronic device is granted. If the match percentage is less than the access match level, access is denied. Subsequent access requires further regeneration of the NFP and a determination of its match percentage in response.Type: GrantFiled: February 2, 2016Date of Patent: March 7, 2017Assignees: Aerendir Mobile Inc., Proprius Technolgies S.A.R.LInventors: Martin Zizi, Hugh Sharkey
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Patent number: 9577992Abstract: In accordance with one embodiment, a method for securing data is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a multi-dimensional signal; in response to the multi-dimensional signal and user calibration parameters, generating a neuro-mechanical fingerprint; and encrypting data with an encryption algorithm using the neuro-mechanical fingerprint as a key.Type: GrantFiled: February 2, 2016Date of Patent: February 21, 2017Assignee: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20160241554Abstract: In accordance with one embodiment, a method for locally verifying the identification of a user with an electronic device is disclosed. The method includes regenerating a neuro-mechanical fingerprint (NFP) in response to a micro-motion signal sensed at a body part. In response to a plurality of authorized user calibration parameters, a match percentage of the neuro-mechanical fingerprint is determined. The match percentage is determined without the use of a calibration NFP that was previously used to generate the user calibration parameters. Access to the electronic device and its software applications is then controlled by the match percentage. If the match percentage is greater than or equal to an access match level, access to the electronic device is granted. If the match percentage is less than the access match level, access is denied. Subsequent access requires further regeneration of the NFP and a determination of its match percentage in response.Type: ApplicationFiled: February 2, 2016Publication date: August 18, 2016Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20160232726Abstract: In accordance with one embodiment, an access control system is disclosed. The access control system comprises an access control panel including a touchable surface, a multi-dimensional touch sensor under the touchable surface, and a processor coupled to the multi-dimensional touch sensor. The multi-dimensional touch sensor captures a multi-dimensional motion signal including a micro-motion signal component representing neuro-mechanical micro-motions of a user touching the multi-dimensional touch sensor. The processor performs signal processing of the multi-dimensional motion signal to obtain the micro-motion signal component; and extracts unique values of predetermined features from the micro-motion signal component to form a neuro-fingerprint (NFP) that uniquely identifies the user. The NFP can be used as a gatekeeper to control entry into homes, offices, buildings, or other real properly typically protected by access control.Type: ApplicationFiled: February 2, 2016Publication date: August 11, 2016Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20160234174Abstract: In accordance with one embodiment, a method for securing data is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a multi-dimensional signal; in response to the multi-dimensional signal and user calibration parameters, generating a neuro-mechanical fingerprint; and encrypting data with an encryption algorithm using the neuro-mechanical fingerprint as a key.Type: ApplicationFiled: February 2, 2016Publication date: August 11, 2016Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey
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Publication number: 20160220151Abstract: In accordance with one embodiment, a method for determining changes in health of a user is disclosed. The method includes sensing multi-dimensional motion of a body part of a user to generate a first multi-dimensional motion signal at a first time and date; in response to the first multi-dimensional motion signal, generating a first neuro-mechanical fingerprint; generating a first health measure in response to the first NFP and user calibration parameters; sensing multi-dimensional motion of the body part of the user to generate another multi-dimensional motion signal at another time and date; in response to the another multi-dimensional motion signal, generating another neuro-mechanical fingerprint; generating another health measure in response to the another NFP and the user calibration parameters; and comparing the first health measure with the another health measure to determine a difference representing the health degradation of the user.Type: ApplicationFiled: February 2, 2016Publication date: August 4, 2016Applicant: Aerendir Mobile Inc.Inventors: Martin Zizi, Hugh Sharkey