Patents by Inventor Gabor Braun
Gabor Braun 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: 20240099644Abstract: One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a unique set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.Type: ApplicationFiled: December 6, 2023Publication date: March 28, 2024Inventors: Peter Kele, Janos Kokavecz, Gabor Braun, Aswin Gunasekar
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Publication number: 20230346295Abstract: One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a uniqe set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.Type: ApplicationFiled: July 11, 2023Publication date: November 2, 2023Inventors: Peter Kele, Janos Kokavecz, Gabor Braun, Aswin Gunasekar
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Publication number: 20230346313Abstract: One variation of a method for testing contact quality of electrical-biosignal electrodes includes: outputting a drive signal through a driven electrode, the drive signal comprising an alternating-current component oscillating at a reference frequency and a direct-current component; reading a set of sense signals from a set of sense electrodes at a first time; calculating a first combination of the set of sense signals; calculating a first direct-current value comprising a combination of the first combination and the direct-current component of the drive signal at approximately the first time; and at a second time succeeding the first time, shifting the direct-current component of the drive signal output by the driven electrode to the first direct-current value.Type: ApplicationFiled: July 10, 2023Publication date: November 2, 2023Inventors: Aswin Gunasekar, Ferenc Benedek, János Kakavecz, Gabor Braun
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Patent number: 11744504Abstract: One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a unique set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.Type: GrantFiled: August 5, 2022Date of Patent: September 5, 2023Assignee: Zeto, Inc.Inventors: Peter Kele, Janos Kokavecz, Gabor Braun, Aswin Gunasekar
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Patent number: 11701053Abstract: One variation of a method for hosting mobile access to dense electroencephalography data includes: receiving a set of signals, in a raw resolution, recorded by a set of channels in an electroencephalography headset during an electroencephalography test; receiving, from a client computing device, a view parameters for viewing the set of signals on a display; calculating a quantity of raw signal points per pixel column of the display based on the view parameters and a length of a segment of the electroencephalography test; for each signal in the set of signals, for each discrete contiguous sequence of the quantity of raw signal points within the segment of the signal, calculating a value set characterizing the discrete contiguous sequence of the quantity of raw signal points in the signal; and generating a static image representing value sets for each channel, in the set of channels, across the segment of the electroencephalography test.Type: GrantFiled: July 27, 2022Date of Patent: July 18, 2023Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Zoltan Nadasdy
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Publication number: 20230043938Abstract: One variation of a system for locating electrodes on a head of a user includes a headset defining a set of electrode bodies elastically interconnected by a unique set of spring elements configured to locate the set of electrode bodies at electrode positions of the international 10-20 standard, irrespective of the size of the head of the user. The spring elements are configured to carry electrical signals between interconnected electrode bodies and ultimately to a controller. An electrode tip is mechanically and electrically coupled to each electrode body. The electrode tip comprises a thin conductive probe mounted at the distal end of an elastic beam and is configured to extend from a base of the electrode tip, bypass hair, and electrically couple to the head of the user, and an insulative boss, configured to rest on and transfer the weight of the headset to the head of the user.Type: ApplicationFiled: August 5, 2022Publication date: February 9, 2023Inventors: Peter Kele, Janos Kokavecz, Gabor Braun, Aswin Gunasekar
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Publication number: 20230037428Abstract: One variation of a method for testing contact quality of electrical-biosignal electrodes includes: outputting a drive signal through a driven electrode, the drive signal comprising an alternating-current component oscillating at a reference frequency and a direct-current component; reading a set of sense signals from a set of sense electrodes at a first time; calculating a first combination of the set of sense signals; calculating a first direct-current value comprising a combination of the first combination and the direct-current component of the drive signal at approximately the first time; and at a second time succeeding the first time, shifting the direct-current component of the drive signal output by the driven electrode to the first direct-current value.Type: ApplicationFiled: July 27, 2022Publication date: February 9, 2023Inventors: Aswin Gunasekar, Ferenc Benedek, János Kokavecz, Gabor Braun
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Publication number: 20230029127Abstract: One variation of a method for hosting mobile access to dense electroencephalography data includes: receiving a set of signals, in a raw resolution, recorded by a set of channels in an electroencephalography headset during an electroencephalography test; receiving, from a client computing device, a view parameters for viewing the set of signals on a display; calculating a quantity of raw signal points per pixel column of the display based on the view parameters and a length of a segment of the electroencephalography test; for each signal in the set of signals, for each discrete contiguous sequence of the quantity of raw signal points within the segment of the signal, calculating a value set characterizing the discrete contiguous sequence of the quantity of raw signal points in the signal; and generating a static image representing value sets for each channel, in the set of channels, across the segment of the electroencephalography test.Type: ApplicationFiled: July 27, 2022Publication date: January 26, 2023Inventors: Aswin Gunasekar, Gabor Braun, Zoltan Nadasdy
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Publication number: 20230000434Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: ApplicationFiled: September 12, 2022Publication date: January 5, 2023Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana
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Patent number: 11471104Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: GrantFiled: September 29, 2021Date of Patent: October 18, 2022Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Patent number: 11457867Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: GrantFiled: September 29, 2021Date of Patent: October 4, 2022Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Patent number: 11432757Abstract: One variation of a method for hosting mobile access to dense electroencephalography data includes: receiving a set of signals, in a raw resolution, recorded by a set of channels in an electroencephalography headset during an electroencephalography test; receiving, from a client computing device, a view parameters for viewing the set of signals on a display; calculating a quantity of raw signal points per pixel column of the display based on the view parameters and a length of a segment of the electroencephalography test; for each signal in the set of signals, for each discrete contiguous sequence of the quantity of raw signal points within the segment of the signal, calculating a value set characterizing the discrete contiguous sequence of the quantity of raw signal points in the signal; and generating a static image representing value sets for each channel, in the set of channels, across the segment of the electroencephalography test.Type: GrantFiled: August 31, 2018Date of Patent: September 6, 2022Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Zoltan Nadasdy
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Patent number: 11432770Abstract: One variation of a method for testing contact quality of electrical-biosignal electrodes includes: outputting a drive signal through a driven electrode, the drive signal comprising an alternating-current component oscillating at a reference frequency and a direct-current component; reading a set of sense signals from a set of sense electrodes at a first time; calculating a first combination of the set of sense signals; calculating a first direct-current value comprising a combination of the first combination and the direct-current component of the drive signal at approximately the first time; and at a second time succeeding the first time, shifting the direct-current component of the drive signal output by the driven electrode to the first direct-current value.Type: GrantFiled: April 21, 2020Date of Patent: September 6, 2022Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Ferenc Benedek, János Kokavecz, Gabor Braun
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Publication number: 20220022813Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: ApplicationFiled: September 29, 2021Publication date: January 27, 2022Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Publication number: 20220015701Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: ApplicationFiled: September 29, 2021Publication date: January 20, 2022Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Patent number: 11166673Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: GrantFiled: May 21, 2020Date of Patent: November 9, 2021Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Patent number: 11160502Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: GrantFiled: December 4, 2017Date of Patent: November 2, 2021Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Patent number: 11160505Abstract: One variation of a method for testing contact quality of electrical-biosignal electrodes includes: outputting a drive signal through a driven electrode, the drive signal comprising an alternating-current component oscillating at a reference frequency and a direct-current component; reading a set of sense signals from a set of sense electrodes at a first time; calculating a first combination of the set of sense signals; calculating a first direct-current value comprising a combination of the first combination and the direct-current component of the drive signal at approximately the first time; and at a second time succeeding the first time, shifting the direct-current component of the drive signal output by the driven electrode to the first direct-current value.Type: GrantFiled: April 21, 2020Date of Patent: November 2, 2021Assignee: Zeto, Inc.Inventors: Aswin Gunasekar, Ferenc Benedek, János Kokavecz, Gabor Braun
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Publication number: 20200281527Abstract: One variation of a system for collecting biosignal data includes: a left junction; a right junction; a first band spanning the left and right junctions; a first band adjuster configured to adjust a length of the first band between the left and right junctions; a second band spanning the left and right junctions and radially offset from the first band about a lateral axis spanning the left and right junctions; a second band adjuster configured to adjust a length of the second band between the left and right junctions; a first electrode fixedly mounted to the first band and centered between the left and right junctions; a second electrode mounted to the first band offset from the first electrode and laterally-adjustable along the length of the first band; and a third electrode mounted to the second band and laterally-adjustable along the length of the second band.Type: ApplicationFiled: May 21, 2020Publication date: September 10, 2020Inventors: Aswin Gunasekar, Gabor Braun, Ferenc Benedek, János Kokavecz, Joshua Morenstein, Christopher HibmaCronan, Drew Putterman, Chris Fruhauf, Brian Tachibana, Max Guangqun Chen, Lauren Margolin
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Publication number: 20200245943Abstract: One variation of a method for testing contact quality of electrical-biosignal electrodes includes: outputting a drive signal through a driven electrode, the drive signal comprising an alternating-current component oscillating at a reference frequency and a direct-current component; reading a set of sense signals from a set of sense electrodes at a first time; calculating a first combination of the set of sense signals; calculating a first direct-current value comprising a combination of the first combination and the direct-current component of the drive signal at approximately the first time; and at a second time succeeding the first time, shifting the direct-current component of the drive signal output by the driven electrode to the first direct-current value.Type: ApplicationFiled: April 21, 2020Publication date: August 6, 2020Inventors: Aswin Gunasekar, Ferenc Benedek, János Kokavecz, Gabor Braun