Patents by Inventor Yan Azdoud
Yan Azdoud 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: 20240142371Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: ApplicationFiled: December 21, 2023Publication date: May 2, 2024Inventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Patent number: 11890441Abstract: An automatic tattoo apparatus can be used to robotically apply tattoos. A customer can shop on an online tattoo marketplace to select designs created by various artists located anywhere. The online tattoo marketplace can process and manage payments, artist and/or customer profiles, bookings, tattoo design uploads, browsing and design selection, design changes, and/or perform other actions. The automatic tattoo device can apply tattoos precisely, quickly, and may with reduced pain. The tattoo apparatus can apply a wide range of different types of tattoos, including but not limited to micro tattoos, dotwork, blackwork tattoos, realism tattoos, fine-line tattoos, etc.Type: GrantFiled: November 18, 2022Date of Patent: February 6, 2024Assignee: Blackdot, Inc.Inventors: Yan Azdoud, Joel Richard Pennington, Eric Nelson Watts, Deniz Ozturk, Anna Ailene Scott, Christopher Daniel Kelley
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Patent number: 11874170Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: GrantFiled: September 1, 2023Date of Patent: January 16, 2024Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Patent number: 11867619Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: GrantFiled: September 1, 2023Date of Patent: January 9, 2024Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Publication number: 20230417661Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: ApplicationFiled: September 1, 2023Publication date: December 28, 2023Inventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Publication number: 20230408334Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: ApplicationFiled: September 1, 2023Publication date: December 21, 2023Inventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Patent number: 11839734Abstract: An automatic tattoo apparatus can be used to robotically apply tattoos. A customer can shop on an online tattoo marketplace to select designs created by various artists located anywhere. The online tattoo marketplace can process and manage payments, artist and/or customer profiles, bookings, tattoo design uploads, browsing and design selection, design changes, and/or perform other actions. The automatic tattoo device can apply tattoos precisely, quickly, and may with reduced pain. The tattoo apparatus can apply a wide range of different types of tattoos, including but not limited to micro tattoos, dotwork, blackwork tattoos, realism tattoos, fine-line tattoos, etc.Type: GrantFiled: January 25, 2021Date of Patent: December 12, 2023Assignee: Blackdot, Inc.Inventors: Yan Azdoud, Joel Richard Pennington, Eric Nelson Watts, Deniz Ozturk, Anna Ailene Scott, Christopher Daniel Kelley
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Patent number: 11788889Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: GrantFiled: June 9, 2023Date of Patent: October 17, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Publication number: 20230324226Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: ApplicationFiled: June 9, 2023Publication date: October 12, 2023Inventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Patent number: 11781979Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: GrantFiled: June 2, 2023Date of Patent: October 10, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Publication number: 20230314313Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: ApplicationFiled: June 2, 2023Publication date: October 5, 2023Inventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Patent number: 11768110Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: GrantFiled: February 23, 2023Date of Patent: September 26, 2023Assignee: Project Canary, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Patent number: 11754495Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: GrantFiled: January 18, 2023Date of Patent: September 12, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Publication number: 20230256221Abstract: An automatic tattoo apparatus can be used to robotically apply tattoos. A customer can shop on an online tattoo marketplace to select designs created by various artists located anywhere. The online tattoo marketplace can process and manage payments, artist and/or customer profiles, bookings, tattoo design uploads, browsing and design selection, design changes, and/or perform other actions. The automatic tattoo device can apply tattoos precisely, quickly, and may with reduced pain. The tattoo apparatus can apply a wide range of different types of tattoos, including but not limited to micro tattoos, dotwork, blackwork tattoos, realism tattoos, fine-line tattoos, etc.Type: ApplicationFiled: November 18, 2022Publication date: August 17, 2023Inventors: Yan Azdoud, Joel Richard Pennington, Eric Nelson Watts, Deniz Ozturk, Anna Ailene Scott, Christopher Daniel Kelley
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Publication number: 20230213385Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: ApplicationFiled: February 23, 2023Publication date: July 6, 2023Applicant: Project Canary, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Publication number: 20230160815Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: ApplicationFiled: January 18, 2023Publication date: May 25, 2023Inventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Patent number: 11604094Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: GrantFiled: October 7, 2022Date of Patent: March 14, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
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Patent number: 11592390Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: GrantFiled: June 17, 2022Date of Patent: February 28, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Patent number: 11585752Abstract: In one illustrative configuration, an air quality monitoring system may enable wide-scale deployment of multiple air quality monitors with high-confidence and actionable data is provided. Further, the air quality monitoring system may enable identifying a target emission from a plurality of potential sources at a site based on simulating plume models. The simulation of plume models may take into consideration various simulation parameters including wind speed and direction. Further, methods of determining a plume flux of a plume of emissions at a site, and methods of transmitting data from an air quality monitor are disclosed.Type: GrantFiled: June 17, 2022Date of Patent: February 21, 2023Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Nasr E. Alkadi, Yan Azdoud, Nathan C. Eichenlaub, William J. Foiles, Christopher Daniel Kelley, Shyla Kupis
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Publication number: 20230045528Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: ApplicationFiled: October 7, 2022Publication date: February 9, 2023Inventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley