Patents by Inventor Margaux MARTIN-FILIPPI
Margaux MARTIN-FILIPPI 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: 11980172Abstract: Systems and methods for cultivating or accumulating climate-focused marine target products are described herein. The target product may be microalgae, macroalgae, plankton, marine bacteria or archaea, filter feeders (such as oysters or clams), or crustaceans either for the purpose of bioremediation, eventual cultivation or for sequestering carbon dioxide; or the target product may be direct chemical or biological accumulation of carbon or carbon containing organisms. The system is primarily a floating apparatus designed to hold the target product in a region of the water column and in a spatial region of the water where it will best accumulate target product mass. In some embodiments the system is designed to achieve eventual passive sinking (transformation from a floating to sinking apparatus) into the deep ocean. In some embodiments, the system is equipped with purpose-chosen sensors to instrument and quantify the various biological and mechanical processes occurring onboard.Type: GrantFiled: June 7, 2022Date of Patent: May 14, 2024Assignee: Running Tide Technologies, Inc.Inventors: Nathaniel Merrill, Max Chalfin, Andrew Clyde Thompson, Margaux Martin-Filippi, Finnian Cradock Donovan, Matthew Jordan Odlin
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Patent number: 11938446Abstract: A method for calculating carbon credits includes obtaining sensor data associated with at least a portion of a deployment for cultivating a target product in a body of water, executing at least one model based at least in part on the sensor data to generate an output predicting at least one characteristic associated with the target product, the deployment, or a portion of the body of water, and inputting the output into a quantification model. The quantification model is executed to generate an output associated with a predicted capacity of the target product to sequester carbon dioxide. An accuracy of the predicted capacity resulting from the output of the quantification model is greater than an accuracy of a predicted or inferred capacity resulting from the output of each model individually. Carbon dioxide offset credits are determined based on the predicted capacity resulting from the output of the quantification model.Type: GrantFiled: October 11, 2023Date of Patent: March 26, 2024Assignee: Running Tide Technologies, Inc.Inventors: Max Chalfin, Margaux Martin-Filippi, Andrew Thompson, Justin Baker Ries
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Publication number: 20240033683Abstract: A method for calculating carbon credits includes obtaining sensor data associated with at least a portion of a deployment for cultivating a target product in a body of water, executing at least one model based at least in part on the sensor data to generate an output predicting at least one characteristic associated with the target product, the deployment, or a portion of the body of water, and inputting the output into a quantification model. The quantification model is executed to generate an output associated with a predicted capacity of the target product to sequester carbon dioxide. An accuracy of the predicted capacity resulting from the output of the quantification model is greater than an accuracy of a predicted or inferred capacity resulting from the output of each model individually. Carbon dioxide offset credits are determined based on the predicted capacity resulting from the output of the quantification model.Type: ApplicationFiled: October 11, 2023Publication date: February 1, 2024Inventors: Max CHALFIN, Margaux MARTIN-FILIPPI, Andrew THOMPSON, Justin Baker RIES
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Patent number: 11819803Abstract: A method for calculating carbon credits includes obtaining sensor data associated with at least a portion of a deployment for cultivating a target product in a body of water, executing at least one model based at least in part on the sensor data to generate an output predicting at least one characteristic associated with the target product, the deployment, or a portion of the body of water, and inputting the output into a quantification model. The quantification model is executed to generate an output associated with a predicted capacity of the target product to sequester carbon dioxide. An accuracy of the predicted capacity resulting from the output of the quantification model is greater than an accuracy of a predicted or inferred capacity resulting from the output of each model individually. Carbon dioxide offset credits are determined based on the predicted capacity resulting from the output of the quantification model.Type: GrantFiled: September 30, 2022Date of Patent: November 21, 2023Assignee: Running Tide Technologies, Inc.Inventors: Max Chalfin, Margaux Martin-Filippi, Andrew Thompson, Justin Baker Ries
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Publication number: 20230363360Abstract: Embodiments described herein relate generally to systems that can include an optical sensor configured to generate image data associated with a set of aquatic animals, a memory, and a processor operatively coupled to the memory and the optical sensor. The processor can be configured to receive the image data associated with the set of aquatic animals, determine a set of characteristics associated with the set of aquatic animals based on the image data using a machine learning model, and classify each aquatic animal in the set of aquatic animals based on the set of characteristics using the machine learning model. The processor further configured to count at least a subset of the aquatic animals based on the classification.Type: ApplicationFiled: July 26, 2023Publication date: November 16, 2023Inventors: Matthew Jordan ODLIN, Stephen ZADESKY, Nathaniel MERRILL, Samuel WOOLF, Phillip CONNAUGHTON, Nicholas HAGLER, Margaux MARTIN-FILIPPI
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Patent number: 11674799Abstract: Surface elements, such as protrusions, are provided for use on the surface of flow-following apparatuses, such as surface drifters or subsurface drogues, to enhance the hydrodynamic properties of the apparatus and enhance their capabilities to follow fluid motion. The protrusions may comprise helical strakes or splitter plates for optimizing the drag-to-inertia ratio of the flow-following apparatus, with the goal to enhance their flow-following capabilities. In some embodiments, the flow-following apparatus has a generally axisymmetric body shape, such as having a cylindrical, spherical or oblong shape. The flow-following apparatus may further comprise a position tracking device to track flow motion such as ocean currents.Type: GrantFiled: July 8, 2020Date of Patent: June 13, 2023Inventor: Margaux Martin-Filippi
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Publication number: 20230106744Abstract: A method for calculating carbon credits includes obtaining sensor data associated with at least a portion of a deployment for cultivating a target product in a body of water, executing at least one model based at least in part on the sensor data to generate an output predicting at least one characteristic associated with the target product, the deployment, or a portion of the body of water, and inputting the output into a quantification model. The quantification model is executed to generate an output associated with a predicted capacity of the target product to sequester carbon dioxide. An accuracy of the predicted capacity resulting from the output of the quantification model is greater than an accuracy of a predicted or inferred capacity resulting from the output of each model individually. Carbon dioxide offset credits are determined based on the predicted capacity resulting from the output of the quantification model.Type: ApplicationFiled: September 30, 2022Publication date: April 6, 2023Applicant: Running Tide Technologies, Inc.Inventors: Max CHALFIN, Margaux MARTIN-FILIPPI, Andrew THOMPSON
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Publication number: 20220295761Abstract: Systems and methods for cultivating or accumulating climate-focused marine target products are described herein. The target product may be microalgae, macroalgae, plankton, marine bacteria or archaea, filter feeders (such as oysters or clams), or crustaceans either for the purpose of bioremediation, eventual cultivation or for sequestering carbon dioxide; or the target product may be direct chemical or biological accumulation of carbon or carbon containing organisms. The system is primarily a floating apparatus designed to hold the target product in a region of the water column and in a spatial region of the water where it will best accumulate target product mass. In some embodiments the system is designed to achieve eventual passive sinking (transformation from a floating to sinking apparatus) into the deep ocean. In some embodiments, the system is equipped with purpose-chosen sensors to instrument and quantify the various biological and mechanical processes occurring onboard.Type: ApplicationFiled: June 7, 2022Publication date: September 22, 2022Applicant: Running Tide Technologies, Inc.Inventors: Nathaniel MERRILL, Max CHALFIN, Andrew Clyde THOMPSON, Margaux MARTIN-FILIPPI, Finnian Cradock DONOVAN, Matthew Jordan ODLIN
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Patent number: 11382315Abstract: Systems and methods for cultivating or accumulating climate-focused marine target products are described herein. The target product may be microalgae, macroalgae, plankton, marine bacteria or archaea, filter feeders (such as oysters or clams), or crustaceans either for the purpose of bioremediation, eventual cultivation or for sequestering carbon dioxide; or the target product may be direct chemical or biological accumulation of carbon or carbon containing organisms. The system is primarily a floating apparatus designed to hold the target product in a region of the water column and in a spatial region of the water where it will best accumulate target product mass. In some embodiments the system is designed to achieve eventual passive sinking (transformation from a floating to sinking apparatus) into the deep ocean. In some embodiments, the system is equipped with purpose-chosen sensors to instrument and quantify the various biological and mechanical processes occurring onboard.Type: GrantFiled: June 8, 2021Date of Patent: July 12, 2022Assignee: Running Tide Technologies, Inc.Inventors: Nathaniel Merrill, Max Chalfin, Andrew Clyde Thompson, Margaux Martin-Filippi, Finnian Cradock Donovan, Matthew Jordan Odlin
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Publication number: 20210345589Abstract: Systems and methods for cultivating or accumulating climate-focused marine target products are described herein. The target product may be microalgae, macroalgae, plankton, marine bacteria or archaea, filter feeders (such as oysters or clams), or crustaceans either for the purpose of bioremediation, eventual cultivation or for sequestering carbon dioxide; or the target product may be direct chemical or biological accumulation of carbon or carbon containing organisms. The system is primarily a floating apparatus designed to hold the target product in a region of the water column and in a spatial region of the water where it will best accumulate target product mass. In some embodiments the system is designed to achieve eventual passive sinking (transformation from a floating to sinking apparatus) into the deep ocean. In some embodiments, the system is equipped with purpose-chosen sensors to instrument and quantify the various biological and mechanical processes occurring onboard.Type: ApplicationFiled: June 8, 2021Publication date: November 11, 2021Inventors: Nathaniel MERRILL, Max CHALFIN, Andrew Clyde THOMPSON, Margaux MARTIN-FILIPPI, Finnian Cradock DONOVAN, Matthew Jordan ODLIN