Patents Assigned to Orpyx Medical Technologies, Inc.
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Publication number: 20220257144Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: ApplicationFiled: May 3, 2022Publication date: August 18, 2022Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: BREANNE EVERETT, MARCEL GROENLAND
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Publication number: 20210338105Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: ApplicationFiled: July 15, 2021Publication date: November 4, 2021Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: BREANNE EVERETT, MARCEL GROENLAND
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Publication number: 20210251073Abstract: A flexible circuit package. The circuit package includes a termination point on a flexible base substrate. The termination point is connected with an interface by conductive material on the base substrate. The conductive material extends across the surface area of the base substrate in multiple individual connections, which are in communication with each other and separated by voids in the conductive material for mitigating communication failure between the termination point and the interface during or following flexion, stretching, compression or other deformation of the base substrate and the circuit package. The termination point may include an input module such as a sensor, switch or other input. The termination point may include an output module such as a light, vibrator or other output. The interface may include an output interface for receiving data or an input interface for sending a command or other signal.Type: ApplicationFiled: April 27, 2021Publication date: August 12, 2021Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: David Allan Viberg, Travis Michael Stevens, Kraig Elbert Nielsen, Michael Todd Purdy
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Patent number: 11064909Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: GrantFiled: December 22, 2017Date of Patent: July 20, 2021Assignee: ORPYX MEDICAL TECHNOLOGIES, INC.Inventors: Breanne Everett, Marcel Groenland
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Patent number: 11026325Abstract: A flexible circuit package. The circuit package includes a termination point on a flexible base substrate. The termination point is connected with an interface by conductive material on the base substrate. The conductive material extends across the surface area of the base substrate in multiple individual connections, which are in communication with each other and separated by voids in the conductive material for mitigating communication failure between the termination point and the interface during or following flexion, stretching, compression or other deformation of the base substrate and the circuit package. The termination point may include an input module such as a sensor, switch or other input. The termination point may include an output module such as a light, vibrator or other output. The interface may include an output interface for receiving data or an input interface for sending a command or other signal.Type: GrantFiled: May 25, 2018Date of Patent: June 1, 2021Assignee: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: David Allan Viberg, Travis Michael Stevens, Kraig Elbert Nielsen, Michael Todd Purdy
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Publication number: 20210140835Abstract: A high-resistance sensor. The sensor includes a first low-resistance material and a second low-resistance material, each connected with a base material. The first low-resistance material and the second low-resistance material are separated by a gap. A stimulus causes the first low-resistance material and the second low-resistance to move toward each other. A high-resistance material is positioned within the gap intermediate the first low-resistance material and the second low-resistance material. The high-resistance material increases the resistance of a circuit formed by contact between the first low-resistance material and the second low-resistance material when the sensor is subject to the stimulus.Type: ApplicationFiled: April 15, 2019Publication date: May 13, 2021Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: David Allan VIBERG, Travis Michael STEVENS, Michael Todd PURDY
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Publication number: 20210010888Abstract: A system and method for measuring resistance over an array. The array includes at least three electrodes. Nodes at each intersection between input electrodes and output electrodes have variable resistance. A driving voltage is applied to a selected input electrode and an output current is received at a selected output electrode. A selected node is at the intersection of the two selected electrodes and includes an electrical component with a resistive property. Remaining electrodes are connected with a ground for isolating the selected node from the effects of changes in impedance of the remaining nodes. The driving voltage is converted to an output current by resistance at the selected node. The output current is converted to an output voltage with a current-to-voltage converter circuit for measuring the resistance of the electrical component. The nodes may be measured as the selected node in sequential or non-sequential patterns.Type: ApplicationFiled: February 26, 2019Publication date: January 14, 2021Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: David Allan VIBERG, Michael Todd PURDY, Travis Michael STEVENS
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Publication number: 20200178849Abstract: A method and system for heterogeneous event detection. Sensor data is obtained and divided into discrete data windows. Each data window is defined by and corresponds to a time period of the sensor data. A time-frequency representation over the time period is calculated for each data window. A filter mask is calculated based on the data window corresponding to the time-frequency representation. The filter mask is applied for reverting the time-frequency representation to a time representation, resulting in filtered data. Features, such as extrema or other inflection points, are identified in the filtered data. The features define events, and transforming the time-frequency representation back into the time domain emphasizes differences between more and less prominent frequencies, facilitating identification of heterogeneous events. The method and system may be applied to body movements of people or animals, automaton movement, audio signals, light intensity, or any suitable time-dependent variable.Type: ApplicationFiled: June 28, 2018Publication date: June 11, 2020Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: CHUN HING CHENG, MICHAEL TODD PURDY, TRAVIS MICHAEL STEVENS
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Publication number: 20200100703Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: ApplicationFiled: November 25, 2019Publication date: April 2, 2020Applicant: ORPYX MEDICAL TECHNOLOGIES, INC.Inventors: BREANNE EVERETT, MARCEL GROENLAND
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Publication number: 20200092991Abstract: A flexible circuit package. The circuit package includes a termination point on a flexible base substrate. The termination point is connected with an interface by conductive material on the base substrate. The conductive material extends across the surface area of the base substrate in multiple individual connections, which are in communication with each other and separated by voids in the conductive material for mitigating communication failure between the termination point and the interface during or following flexion, stretching, compression or other deformation of the base substrate and the circuit package. The termination point may include an input module such as a sensor, switch or other input. The termination point may include an output module such as a light, vibrator or other output. The interface may include an output interface for receiving data or an input interface for sending a command or other signal.Type: ApplicationFiled: May 25, 2018Publication date: March 19, 2020Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: DAVID ALLAN VIBERG, TRAVIS MICHAEL STEVENS, KRAIG ELBERT NIELSEN, MICHAEL TODD PURDY
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Publication number: 20190290167Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: ApplicationFiled: June 7, 2019Publication date: September 26, 2019Applicant: ORPYX MEDICAL TECHNOLOGIES, INC.Inventors: BREANNE EVERETT, MARCEL GROENLAND
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Patent number: 10004428Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: GrantFiled: October 28, 2011Date of Patent: June 26, 2018Assignee: Orpyx Medical Technologies, Inc.Inventors: Breanne Everett, Marcel Groenland
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Patent number: 9872636Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: GrantFiled: October 28, 2011Date of Patent: January 23, 2018Assignee: Orpyx Medical Technologies, Inc.Inventors: Breanne Everett, Marcel Groenland
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Publication number: 20170336870Abstract: A hands-free, heads up and discrete system and method for controlling a peripheral device using foot gestures is provided. The system includes a foot-based sensory device that includes one or more sensors, such as pressure sensors, gyroscopes, and accelerometers, that receive sensory information from a user's foot, interpret the information as being linked to specific commands, and transmit the commands to at least one display device for controlling the display device. The system also includes a feedback system for providing tactile, visual and/or auditory feedback to the user based on the actions performed, information provided by the display device and/or information provided from another user.Type: ApplicationFiled: October 23, 2015Publication date: November 23, 2017Applicant: Orpyx Medical Technologies Inc.Inventors: Julia Breanne Everett, Llewellyn Lloyd Turnquist, Travis Michael Stevens, Daryl David Coutts, Marcel Groenland
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Patent number: 9778131Abstract: A method and assembly for acquiring pressure data. A pressure sensor is applied to a target surface on an individual. A calibrator and a processing element are in communication with the pressure sensor. Processing element receives pressure data and provides an integrated pressure value over a measurement time period. The integrated pressure value is compared to an alert value and to a change condition value. Where an alert value is exceeded, an alert is transmitted to an output device for display. Where a change condition value is exceeded, a measurement parameter of the pressure sensor is changed, or the calibrator is applied to the pressure sensor to recalibrate the pressure sensor to a recalibrated pressure range.Type: GrantFiled: May 21, 2014Date of Patent: October 3, 2017Assignee: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: Julia Breanne Everett, Marcel Groenland, Amanda Rae Hehr, Daryl David Coutts, Llewellyn Lloyd Turnquist, Travis Michael Stevens
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Publication number: 20140350882Abstract: A method and assembly for acquiring pressure data. A pressure sensor is applied to a target surface on an individual. A calibrator and a processing element are in communication with the pressure sensor. Processing element receives pressure data and provides an integrated pressure value over a measurement time period. The integrated pressure value is compared to an alert value and to a change condition value. Where an alert value is exceeded, an alert is transmitted to an output device for display. Where a change condition value is exceeded, a measurement parameter of the pressure sensor is changed, or the calibrator is applied to the pressure sensor to recalibrate the pressure sensor to a recalibrated pressure range.Type: ApplicationFiled: May 21, 2014Publication date: November 27, 2014Applicant: ORPYX MEDICAL TECHNOLOGIES INC.Inventors: Julia Breanne EVERETT, Marcel GROENLAND, Amanda Rae HEHR, Daryl David COUTTS, Llewellyn Lloyd TURNQUIST, Travis Michael STEVENS
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Publication number: 20120109013Abstract: A sensor-based quantification and analysis system includes an input device including a plurality of sensors that generate an input based on a force. The input device also includes a transmission device that transmits force information based on the input. The system also includes an output device that receives the force information. A processing unit selects, for each of the plurality of sensors, one of a plurality of levels of a likelihood of tissue damage based on the force and a predetermined time period. Further, the output device includes a display that presents or logs the one of the plurality of levels of the likelihood of tissue damage for each of the plurality of sensors.Type: ApplicationFiled: October 28, 2011Publication date: May 3, 2012Applicant: Orpyx Medical Technologies, Inc.Inventors: Breanne Everett, Marcel Groenland
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Patent number: D740950Type: GrantFiled: January 10, 2014Date of Patent: October 13, 2015Assignee: Orpyx Medical Technologies Inc.Inventors: Brett Osness, Jonny Hehr