Patents by Inventor Mary D. Evenson
Mary D. Evenson 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: 20230337651Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: ApplicationFiled: May 26, 2023Publication date: October 26, 2023Inventors: Mark W. Beach, Andrey N. Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Mary D. Evenson, Thomas G. Patterson, Natalie C. Giampietro
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Patent number: 11716983Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: GrantFiled: April 9, 2021Date of Patent: August 8, 2023Assignee: CORTEVA AGRISCIENCE LLCInventors: Mark W. Beach, Andrey N Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Mary D. Evenson, Thomas G. Patterson, Natalie C. Giampietro
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Publication number: 20210227818Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: ApplicationFiled: April 9, 2021Publication date: July 29, 2021Inventors: Mark W. Beach, Andrey N. Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Mary D. Evenson, Thomas G. Patterson, Natalie C. Giampietro
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Patent number: 11000024Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: GrantFiled: March 7, 2019Date of Patent: May 11, 2021Assignee: Dow AgroSciences LLCInventors: Mark W. Beach, Andrey N. Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Jr., Mary D. Evenson, Thomas G. Patterson, Natalie C. Giampietro
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Publication number: 20190200595Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: ApplicationFiled: March 7, 2019Publication date: July 4, 2019Inventors: Mark W. BEACH, Audrey N. SOUKHOJAK, Neil A. SPOMER, Shane L. MANGOLD, Ravi B. SHANKAR, Sukrit MUKHOPADHYAY, Jeremy Chris P. REYES, Bruce A. JACOBS, William L. WINNIFORD, Ronda L. HAMM, Phillip J. HOWARD, Andrew J. PASZTOR, Jr., Mary D. EVENSON, Thomas G. PATTERSON, Natalie C. GIAMPIETRO
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Patent number: 10271534Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: GrantFiled: May 21, 2018Date of Patent: April 30, 2019Assignee: Dow AgroSciences LLCInventors: Mark W. Beach, Andrey N. Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Jr., Mary D. Evenson, Thomas G. Patterson, Natalie C. Giampietro
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Publication number: 20180332839Abstract: A device, system, and method of controlling pests are disclosed. A pest control device includes a sensor having a sensor cell and a controller. A surface of the sensor cell is coated with an agent that reacts with a targeted biochemical analyte secreted by pests. The controller is coupled to the sensor and is configured to receive sensor data from the sensor cell indicative of a rate of change in sensor mass detected on the surface of the sensor cell, determine whether the rate of change in the sensor mass based on the received sensor data exceeds a predefined threshold rate, and transmit a pest detection alert notification to a server in response to a determination that the rate of change exceeds the predetermined threshold rate.Type: ApplicationFiled: May 21, 2018Publication date: November 22, 2018Inventors: Mark W. Beach, Andrey N. Soukhojak, Neil A. Spomer, Shane L. Mangold, Ravi B. Shankar, Sukrit Mukhopadhyay, Jeremy Chris P. Reyes, Bruce A. Jacobs, William L. Winniford, Ronda L. Hamm, Phillip J. Howard, Andrew J. Pasztor, Mary D. Evenson, Thomas G. Patterson