Patents by Inventor Richard Besserman
Richard Besserman 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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Publication number: 20230389840Abstract: Systems and methods for detecting deceptive intent of a subject include observing eye movements of the subject and correlating the observed movements to known baseline neurophysiological indicators of deception. A detection system may record eye movement data from the subject, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not the subject is lying. The detection system may create an alert if deception is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device, such as a non-invasive, non-contact device attached to the subject's computing device and configured to non-obtrusively record the eye movement data.Type: ApplicationFiled: August 22, 2023Publication date: December 7, 2023Inventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Patent number: 11759134Abstract: Systems and methods for detecting deceptive intent of a subject include observing eye movements of the subject and correlating the observed movements to known baseline neurophysiological indicators of deception. A detection system may record eye movement data from the subject, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not the subject is lying. The detection system may create an alert if deception is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device, such as a non-invasive, non-contact device attached to the subject's computing device and configured to non-obtrusively record the eye movement data.Type: GrantFiled: August 14, 2020Date of Patent: September 19, 2023Assignee: ARIZONA BOARD OF REGENTS ON BEHALF OF ARIZONA STATE UNIVERSITY DIGNITY HEALTHInventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Publication number: 20230009372Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: ApplicationFiled: May 31, 2022Publication date: January 12, 2023Inventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Patent number: 11344226Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: GrantFiled: May 31, 2019Date of Patent: May 31, 2022Assignees: ARIZONA BOARD OF REGENTS ON BEHALF OF ARIZONA STATE UNIVERSITY, DIGNITY HEALTHInventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Publication number: 20210059589Abstract: Systems and methods for detecting deceptive intent of a subject include observing eye movements of the subject and correlating the observed movements to known baseline neurophysiological indicators of deception. A detection system may record eye movement data from the subject, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not the subject is lying. The detection system may create an alert if deception is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device, such as a non-invasive, non-contact device attached to the subject's computing device and configured to non-obtrusively record the eye movement data.Type: ApplicationFiled: August 14, 2020Publication date: March 4, 2021Inventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Patent number: 10743806Abstract: Systems and methods for detecting deceptive intent of a subject include observing eye movements of the subject and correlating the observed movements to known baseline neurophysiological indicators of deception. A detection system may record eye movement data from the subject, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not the subject is lying. The detection system may create an alert if deception is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device, such as a non-invasive, non-contact device attached to the subject's computing device and configured to non-obtrusively record the eye movement data.Type: GrantFiled: June 11, 2015Date of Patent: August 18, 2020Assignees: Dignity Health, Arizona Board of Regents on behalf of Arizona State UniversityInventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Publication number: 20200022622Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: ApplicationFiled: May 31, 2019Publication date: January 23, 2020Inventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Patent number: 10376183Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: GrantFiled: April 27, 2015Date of Patent: August 13, 2019Assignees: Dignity Health, Arizona Board of Regents on Behalf of Arizona State UniversityInventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Tropy McDaniel
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Publication number: 20170258368Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: ApplicationFiled: April 27, 2015Publication date: September 14, 2017Inventors: Stephen L. MACKNIK, Susana MARTINEZ-CONDE, Richard E. DALE, Richard BESSERMAN, Tropy MCDANIEL
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Publication number: 20170119296Abstract: Systems and methods for detecting deceptive intent of a subject include observing eye movements of the subject and correlating the observed movements to known baseline neurophysiological indicators of deception. A detection system may record eye movement data from the subject, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not the subject is lying. The detection system may create an alert if deception is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device, such as a non-invasive, non-contact device attached to the subject's computing device and configured to non-obtrusively record the eye movement data.Type: ApplicationFiled: June 11, 2015Publication date: May 4, 2017Applicant: Dignity HealthInventors: Stephen L. Macknik, Susana Martinez-Conde, Richard E. Dale, Richard Besserman, Troy Lee McDaniel
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Publication number: 20170049362Abstract: Systems and methods for detecting onset, presence, and progression of particular states, including intoxication, include observing eye movements of a subject and correlating the observed movements to known baseline neurophysiological indicators of intoxication. A detection system may record eye movement data from a user, compare the eye movement data to a data model comprising threshold eye movement data samples, and from the comparison make a determination whether or not intoxication or impairment is present. The detection system may alert the user to take corrective action if onset or presence of a dangerous condition is detected. The eye movements detected include saccadic and intersaccadic parameters such as intersaccadic drift velocity. Measurements may be collected in situ with a field testing device. An interactive application may be provided on a user device to provoke the desired eye movements during recording.Type: ApplicationFiled: April 27, 2015Publication date: February 23, 2017Inventors: Stephen L. MACKNIK, Susana MARTINEZ-CONDE, Richard E. DALE, Richard BESSERMAN, Tropy MCDANIEL
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Publication number: 20060112103Abstract: A system and method for reporting and monitoring driving incidents which includes monitoring for abusive reporting and which enables a driver having an incident report to dispute the report. The system and method can be used to automatically generate driving incident reports to interested subscribers such as parents, employers, and insurance companies.Type: ApplicationFiled: November 19, 2004Publication date: May 25, 2006Inventors: Richard Besserman, Mark Hafkey
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Patent number: 4284847Abstract: An audiometric testing system containing a processor and programmable analog circuitry for controlling frequency and intensity of audiometric test tones communicates with a remote data processing system via a communications link. The remote data processing system stores prior audiometric records for a large number of subjects. Each day, the audiometric records of a number of selected persons are transmitted from the remote data processing system to a memory of the audiometric testing system in response to identification numbers entered by an operator. The audiometric responses of each person to patterns of sounds of varying frequencies and intensities are determined. The varying frequencies and intensities are determined by a bracketing subroutine of an algorithm stored in and executed by a processor of the audiometric testing system. A person's responses to such test tones are utilized by the bracketing subroutine to determine his threshold levels at the respective frequencies for each ear.Type: GrantFiled: February 8, 1980Date of Patent: August 18, 1981Inventor: Richard Besserman