Patents by Inventor Seth Weisberg
Seth Weisberg 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: 11928632Abstract: A method of deception detection based upon ocular information of a subject provides a video camera configured to record a close-up view of a subject's eye. A cognitive state model is configured to determine a high to a low cognitive load experienced by the subject. An emotional state model is configured to determine a high to a low state of arousal experienced by the subject. After asking a question, the ocular information is processed to identify changes in ocular signals of the subject. The cognitive state and emotional state models are evaluated based solely on the changes in ocular signals where a probability of the subject being either truthful or deceptive is estimated for a binary output.Type: GrantFiled: December 18, 2020Date of Patent: March 12, 2024Assignee: Senseye, Inc.Inventors: David Zakariaie, Jared Bowden, Patricia Herrmann, Seth Weisberg, Andrew R. Sommerlot, Taumer Anabtawi, Joseph Brown, Alexander Rowe
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Publication number: 20230306341Abstract: A method to measure a cognitive load based upon ocular information of a subject includes the steps of: providing a video camera configured to record a close-up view of at least one eye of the subject; providing a computing device electronically connected to the video camera and the electronic display; recording, via the video camera, the ocular information of the at least one eye of the subject; processing, via the computing device, the ocular information to identify changes in ocular signals of the subject through the use of convolutional neural networks; evaluating, via the computing device, the changes in ocular signals from the convolutional neural networks by a machine learning algorithm; determining, via the machine learning algorithm, the cognitive load for the subject; and displaying, to the subject and/or to a supervisor, the cognitive load for the subject.Type: ApplicationFiled: March 30, 2023Publication date: September 28, 2023Applicant: Senseye, Inc.Inventors: David Zakariaie, Kathryn McNeil, Alexander Rowe, Joseph Brown, Patricia Herrmann, Jared Bowden, Taumer Anabtawi, Andrew R. Sommerlot, Seth Weisberg, Veronica Choi
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Patent number: 11640572Abstract: A method to optimize learning based upon ocular information of a subject includes providing a video camera for recording a close-up view of a subject's eye. A first electronic display shows a plurality of educational subject matter to the subject. A second electronic display shows an output to an instructor. Changes in ocular signals of the subject are processed through the use optimized algorithms. A cognitive state model determines a low to a high cognitive load experienced by the subject. The cognitive state model is evaluated based on the changes in the ocular signals for determining a probability of the low to the high cognitive load experienced by the subject. The probability of the low to the high cognitive load experienced by the subject is displayed to the instructor.Type: GrantFiled: December 18, 2020Date of Patent: May 2, 2023Assignee: Senseye, Inc.Inventors: David Zakariaie, Kathryn McNeil, Alexander Rowe, Joseph Brown, Patricia Herrmann, Jared Bowden, Taumer Anabtawi, Andrew R. Sommerlot, Seth Weisberg, Veronica Choi
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Publication number: 20220313083Abstract: A method of discovering relationships between eye movements and cognitive and/or emotional responses of a user starts by engaging the user in a task having visual stimuli via an electronic display configured to elicit a predicted specific cognitive and/or emotional response from the user. The visual stimuli are varied to elicit the predicted specific cognitive and/or emotional response from the user. A camera films an eye of the user. A first time series of eye movements is recorded by the camera. A computing device compares the eye movements from the first time series and the tasks and identifies at least one relationship between eye movements that correlate to the actual specific cognitive and/or emotional response.Type: ApplicationFiled: June 19, 2022Publication date: October 6, 2022Applicant: Senseye, Inc.Inventors: David Bobbak Zakariaie, Derrik Asher, Steven Thurman, Jacqueline Parzivand, Jared B. Bowden, Andrew R. Sommerlot, Seth Weisberg, Joseph Brown, Lauren Caitlin Limonciello
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Patent number: 11382545Abstract: A method of discovering relationships between eye physiology and cognitive and/or emotional responses of a user starts with engaging the user in a plurality of tasks configured to elicit a predicted specific cognitive and/or emotional response. A first camera films at least one eye of the user recording a time series of events of eye movements of the user, the camera not being in physical contact with the user. The first time series of eye movements are sent to a computing device which compares the eye movements and the plurality of events. The computing device can then identify at least one relationship between eye movements that correlate to an actual specific cognitive and/or emotional response.Type: GrantFiled: February 5, 2020Date of Patent: July 12, 2022Assignee: Senseye, Inc.Inventors: David Bobbak Zakariaie, Derrik Asher, Steven Thurman, Jacqueline Parzivand, Jared B. Bowden, Andrew R. Sommerlot, Seth Weisberg, Joseph Brown
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Publication number: 20210192351Abstract: A method to optimize learning based upon ocular information of a subject includes providing a video camera for recording a close-up view of a subject's eye. A first electronic display shows a plurality of educational subject matter to the subject. A second electronic display shows an output to an instructor. Changes in ocular signals of the subject are processed through the use optimized algorithms. A cognitive state model determines a low to a high cognitive load experienced by the subject. The cognitive state model is evaluated based on the changes in the ocular signals for determining a probability of the low to the high cognitive load experienced by the subject. The probability of the low to the high cognitive load experienced by the subject is displayed to the instructor.Type: ApplicationFiled: December 18, 2020Publication date: June 24, 2021Applicant: Senseye, Inc.Inventors: David Zakariaie, Kathryn McNeil, Alexander Rowe, Joseph Brown, Patricia Herrmann, Jared Bowden, Taumer Anabtawi, Andrew R. Sommerlot, Seth Weisberg, Veronica Choi
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Publication number: 20210186395Abstract: A method of deception detection based upon ocular information of a subject provides a video camera configured to record a close-up view of a subject's eye. A cognitive state model is configured to determine a high to a low cognitive load experienced by the subject. An emotional state model is configured to determine a high to a low state of arousal experienced by the subject. After asking a question, the ocular information is processed to identify changes in ocular signals of the subject. The cognitive state and emotional state models are evaluated based solely on the changes in ocular signals where a probability of the subject being either truthful or deceptive is estimated for a binary output.Type: ApplicationFiled: December 18, 2020Publication date: June 24, 2021Applicant: Senseye, Inc.Inventors: David Zakariaie, Jared Bowden, Patricia Herrmann, Seth Weisberg, Andrew R. Sommerlot, Taumer Anabtawi, Joseph Brown, Alexander Rowe
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Publication number: 20210186397Abstract: A method of discovering relationships between iris physiology and cognitive states and/or emotional states of a subject includes providing a computing device and a video camera to record a close-up view of the subject's eye. A first light is held to the lower eyelid skin and a second light a distance away illuminating the stroma of the eye. The first and second light are electronically synced together and configured to flash alternatively. The user engages in a plurality of tasks while recording ocular information which is processed to identify correlations between the responses in the iris musculature and the distortions in the stroma through the use optimized algorithms. One can then identifying at least one predictive distortion is identified in the stroma capturable solely with a visible-spectrum camera correlating to a predicted responses in the iris musculature.Type: ApplicationFiled: December 18, 2020Publication date: June 24, 2021Applicant: Senseye, Inc.Inventors: Seth Weisberg, Joseph Brown, Jared Bowden, David Zakariaie, Andrew R. Sommerlot, Kyle Grier
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Publication number: 20200170560Abstract: A method of discovering relationships between eye physiology and cognitive and/or emotional responses of a user starts with engaging the user in a plurality of tasks configured to elicit a predicted specific cognitive and/or emotional response. A first camera films at least one eye of the user recording a time series of events of eye movements of the user, the camera not being in physical contact with the user. The first time series of eye movements are sent to a computing device which compares the eye movements and the plurality of events. The computing device can then identify at least one relationship between eye movements that correlate to an actual specific cognitive and/or emotional response.Type: ApplicationFiled: February 5, 2020Publication date: June 4, 2020Inventors: David Bobbak Zakariaie, Derrik Asher, Steven Thurman, Jacqueline Parzivand, Jared B. Bowden, Andrew R. Sommerlot, Seth Weisberg, Joseph Brown
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Patent number: 7299210Abstract: A method and apparatus for generating a Value Bearing Indicium (VBI) for on-line applications. A VBI is generated by hashing user information to create a message digest that is used to create a digital signature. The digital signature is combined with the user information to create a VBI that can be validated by a variety of stand-alone or on-line methods. An on-line postage metering application using the VBI is described.Type: GrantFiled: February 16, 2001Date of Patent: November 20, 2007Assignee: Stamps.comInventors: Seth Weisberg, Craig Leonard Ogg
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Publication number: 20010044783Abstract: A method and apparatus for generating a Value Bearing Indicium (VBI) for on-line applications. A VBI is generated by hashing user information to create a message digest that is used to create a digital signature. The digital signature is combined with the user information to create a VBI that can be validated by a variety of stand-alone or on-line methods. An on-line postage metering application using the VBI is described.Type: ApplicationFiled: February 16, 2001Publication date: November 22, 2001Inventors: Seth Weisberg, Craig Leonard Ogg