Patents Assigned to BioPause LLC
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Publication number: 20220133227Abstract: A method for detecting stress in organisms with a cardiac organ is provided. A cardiac waveform is input to an analysis system which decomposes the incoming signal to detect patterns within the decomposed segments. The patterns are comprised of one or more of the following: the overall waveform of a series of beats, a single beat or segments contained within a beat. The decomposed parts of the cardiac waveform are classified according to types of stress patterns both known in the art and dynamically learned through feedback. When the system detects that a sufficient threshold of stress has been exceeded, a notification can be generated and the details of the stress, such as the severity and type can be communicated to an external module, system, user or host. Patterns indicating a future or rapidly increasing stress level, signaled by evolving patterns in the cardiac waveform can be detected and an alert generated before a major or difficult to control stressful event is externalized by the organism.Type: ApplicationFiled: November 4, 2020Publication date: May 5, 2022Applicant: BioPause LLCInventors: Jason Felix, Leslie Chertok, Vandana Verma
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Patent number: 11051707Abstract: This disclosure provides cascaded reference circuits and low amplitude signal sensing circuits used to perform a Subsurface Spectrogram (SSG). The Subsurface Spectrogram can detect the conductive properties of skin and the underlying tissues. The conductive properties inform what electrolytes and moisture levels are present, which in turn can provide information about the physiological state of the mammal. The Subsurface Spectrogram uses an arbitrary waveform generator to provide a reference signal, the return signals are captured and compared to their original characteristics for changes in amplitude, phase and frequency. From these calculations insight into the amount of skin moisture and electrolyte configuration can be gained. Embodiments of such systems may be especially useful in health and fitness wearable devices where feedback on health and exercise can help mammals achieve an optimal workout, or help them to know when they are experiencing unhealthy stress levels.Type: GrantFiled: June 17, 2019Date of Patent: July 6, 2021Assignee: BIOPAUSE LLCInventors: Jason Felix, Leslie A Chertok, Vandana Verma
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Patent number: 11045102Abstract: This disclosure provides cascaded reference circuits and low amplitude signal sensing circuits that are useful in applications where high sensitivity, low noise measurements are needed. Such embodiments may be especially useful in health and fitness wearable devices. Systems incorporating the circuits, as well as methods for using these circuits to determine quantities and qualities of a person's moods, such as how much and what kinds of stress they experience. The provided devices are useful on limbs and appendages, such as in a smart watch that is worn on the wrist. Methods are provided for using the devices of this disclosure to privately alert wearers to an increase in bad stress in the moment when they can take actions to reduce their stress and physiological stress responses. These devices are useful for measuring and increasing the effectiveness of relaxation techniques.Type: GrantFiled: June 17, 2019Date of Patent: June 29, 2021Assignee: BioPause LLCInventors: Jason Felix, Leslie A Chertok, Vandana Verma
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Patent number: 10368756Abstract: This disclosure provides cascaded reference circuits and low amplitude signal sensing circuits that are useful in wearable devices. Circuits for measuring electrovesselgram (EVG) and subdermal spectrogram (SSG) are provided, as well as methods for using these circuits to determine quantities and qualities of a person's moods, such as how much and what kinds of stress they experience. The provided devices are useful on limbs and appendages, such as in a smart watch that is worn on the wrist. Methods are provided for using the devices of this disclosure to privately alert wearers to an increase in bad stress in the moment when they can take actions to reduce their stress and physiological stress responses. These devices are useful for measuring and increasing the effectiveness of relaxation techniques. As a result of using methods and devices of this disclosure, people are healthier, they make more response-able decisions, and relationships improve.Type: GrantFiled: December 30, 2016Date of Patent: August 6, 2019Assignee: BioPause LLCInventors: Jason Felix, Leslie Ann Chertok, Laureli Shimayo, Vandana Verma
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Publication number: 20170215745Abstract: This disclosure provides cascaded reference circuits and low amplitude signal sensing circuits that are useful in wearable devices. Circuits for measuring electrovesselgram (EVG) and subdermal spectrogram (SSG) are provided, as well as methods for using these circuits to determine quantities and qualities of a person's moods, such as how much and what kinds of stress they experience. The provided devices are useful on limbs and appendages, such as in a smart watch that is worn on the wrist. Methods are provided for using the devices of this disclosure to privately alert wearers to an increase in bad stress in the moment when they can take actions to reduce their stress and physiological stress responses. These devices are useful for measuring and increasing the effectiveness of relaxation techniques. As a result of using methods and devices of this disclosure, people are healthier, they make more response-able decisions, and relationships improve.Type: ApplicationFiled: December 30, 2016Publication date: August 3, 2017Applicant: BioPause LLCInventors: Jason Felix, Leslie Ann Chertok, Laureli Shimayo, Vandana Verma