Patents by Inventor Eric L. Borrowman
Eric L. Borrowman 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).
-
Publication number: 20240365777Abstract: The present disclosure provides novel systems and methods for rapidly thawing cryopreserved pollen samples. The methods provided herein include methods of rapidly thawing cryopreserved pollen or bulk pollen samples having a desired moisture content, and methods of applying the rapidly thawed pollen to at least a recipient plant, thereby pollinating the recipient plant with the rapidly thawed pollen from the donor plant.Type: ApplicationFiled: April 29, 2024Publication date: November 7, 2024Inventors: Eric L. Borrowman, Zachary Boyer
-
Patent number: 12128448Abstract: A seed sorting system for sorting seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes a first camera mounted above the seed transfer station and configured to acquire images of the seeds as the seeds move through the system and a second camera mounted below the seed transfer station and configured to acquire images of the seeds as the seeds move through the system. A sorting assembly is configured to sort the seeds into separate bins based on the acquired images of the seeds.Type: GrantFiled: July 31, 2018Date of Patent: October 29, 2024Assignee: MONSANTO TECHNOLOGY LLCInventors: Eric L. Borrowman, Jarrett R. Ceglinski, Govind Chaudhary, Xiaofei Fan, Jeffrey L. Kohne, Brad D. White, Chi Zhang
-
Patent number: 12108698Abstract: Provided herein are systems and methods for the automation of seed planting and analysis comprising automated planting of the seeds, germination, and analysis. The methods generally comprise conveying containers containing seeds to an automated seed planting station, wherein each container includes a machine-readable tag, planting at least some of the seeds in the container onto respective planting trays, wherein each planting tray includes a machine-readable tag, allowing the seeds to germinate, and analyzing the germinated seeds. The systems generally comprise a seed planting system and a planting verification and correction system. Also provided herein are backlit templates comprising a light source and a power interface configured to connect to a power source to power the light source.Type: GrantFiled: July 1, 2019Date of Patent: October 8, 2024Assignee: MONSANTO TECHNOLOGY LLCInventors: Adam M. Barrick, Eric L. Borrowman, Jarrett R. Ceglinski, Jerry Christopher, Joshua Allen Crews, Daniel Dillard, Timothy P. Garvin, Charles K. Johnson, Jeffrey L. Kohne, Jason T. Mitchell, Jeffrey S. Morris, Ralph E. Nothdurft, Payman Rassoolkhani, Christian A. Saia
-
Patent number: 11846624Abstract: In an embodiment, an integrated sensor system with modular sensors and wireless connectivity components for monitoring properties of field soil is described. In an embodiment, an integrated sensor system comprises one or more sensors that are configured to determine one or more measures of at least one property of soil. The integrated sensor system also includes one or more processing units that are configured to receive, from the sensors, the measures of at least one property of soil and calculate soil property data based on the measures. The system further includes a transmitter that is configured to receive the soil property data from the processing units, establish a communications connection with at least one computer device, and automatically transmit the soil property data to the at least one computer device via the communications connection. In an embodiment, the communications connection is a wireless connection established between the transmitter and a smart hub or a LoRA-enabled device.Type: GrantFiled: May 20, 2022Date of Patent: December 19, 2023Assignee: CLIMATE LLCInventors: Justin Koch, Michael H. Malone, Phil David Baurer, Nalini Gupta, Calden Nathaniel Carroll Stimpson, Andreas Markus Wenzel, Jordan Kusiek, Michael Gall, Jeffrey Lawrence Kohne, Eric L. Borrowman
-
Patent number: 11724287Abstract: A seed sorting system for sorting seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes an x-ray camera configured to acquire x-ray images of the seeds as the seeds move through the system. The x-ray camera is configured to produce high quality images at high line scan rates to accommodate a speed and width at which the seeds are moved by the seed transfer station through the system. A sorting assembly is configured to sort the seeds into separate bins based on the acquired x-ray images of the seeds.Type: GrantFiled: June 10, 2019Date of Patent: August 15, 2023Assignee: Monsanto Technology LLCInventors: Louis M. Pompe Van Meerdervoort, Eric L. Borrowman, Jarrett R. Ceglinski, Govind Chaudhary, Leendert De Bruin, Johnny J. Kotyk, Brad D. White
-
Patent number: 11673166Abstract: A seed imaging system for imaging seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes a first camera mounted relative to the seed transfer station and configured to acquire images of the seeds as the seeds move through the system. A second camera is mounted relative to the seed transfer station and is configured to acquire images of the seeds as the seeds move through the system. The second camera has an imaging modality different from an imaging modality of the first camera. First and second cameras may be disposed above and below the seed transfer stations, such as a transparent belt.Type: GrantFiled: March 13, 2019Date of Patent: June 13, 2023Assignee: Monsanto Technology LLCInventors: Eric L. Borrowman, Govind Chaudhary, Hsin-Chen Chen, Jeffrey L. Kohne, Johnny J. Kotyk, Louis M. Pompe van Meerdevoort, Randall K. Rader, Brad D. White, Chi Zhang
-
Patent number: 11641817Abstract: A pollinating device for pollinating crop plants includes a base mountable on a carriage. At least one pollination unit is mounted on the base and includes a pollen-releasing apparatus configured to release pollen from male flowers of the plants and at least one nozzle for directing fluid along a flow path for delivering at least some of the released pollen to the pollen-receiving rows of crop plants. Certain pollinating devices include multiple pollination units spaced apart along a width of the base. Some pollination units include at least two opposing nozzles. Plants are pollinated by driving the carriage along a field and directing air from the nozzles over the pollen born by some plants to deliver the pollen to female flowers of other plants in the field.Type: GrantFiled: January 5, 2018Date of Patent: May 9, 2023Assignee: Monsanto Technology LLCInventors: Diego Almeida Aguiar, Eric L. Borrowman, Diego Campos, Amanuel G. Ghebretinsae, Jeffrey L. Kohne, Aldo Barbosa Lima, Jason T. Mitchell, Antonio Carlos Santos, Isaías Segovia, Gretchen E. Spiess
-
Publication number: 20220400637Abstract: The invention provides novel systems and methods for liquid-mediated delivery of pollen to a female reproductive part of a recipient plant. The systems provided herein include a container configured to receive a liquid pollen suspension solution, and an applicator attached to the container configured to spray the liquid pollen suspension solution onto the recipient plant. The methods provided herein include spraying a liquid pollen suspension solution onto at least a first female reproductive part of a recipient plant using the system provided herein, thereby pollinating the recipient plant.Type: ApplicationFiled: February 25, 2022Publication date: December 22, 2022Inventors: Eric L. Borrowman, David A. Morgenstern
-
Publication number: 20220283137Abstract: In an embodiment, an integrated sensor system with modular sensors and wireless connectivity components for monitoring properties of field soil is described. In an embodiment, an integrated sensor system comprises one or more sensors that are configured to determine one or more measures of at least one property of soil. The integrated sensor system also includes one or more processing units that are configured to receive, from the sensors, the measures of at least one property of soil and calculate soil property data based on the measures. The system further includes a transmitter that is configured to receive the soil property data from the processing units, establish a communications connection with at least one computer device, and automatically transmit the soil property data to the at least one computer device via the communications connection. In an embodiment, the communications connection is a wireless connection established between the transmitter and a smart hub or a LoRA-enabled device.Type: ApplicationFiled: May 20, 2022Publication date: September 8, 2022Applicant: Climate LLCInventors: Justin KOCH, Michael H. MALONE, Phil David BAURER, Nalini GUPTA, Calden Nathaniel Carroll STIMPSON, Andreas Markus WENZEL, Jordan KUSIEK, Michael GALL, Jeffrey Lawrence KOHNE, Eric L. BORROWMAN
-
Patent number: 11346832Abstract: In an embodiment, an integrated sensor system with modular sensors and wireless connectivity components for monitoring properties of field soil is described. In an embodiment, an integrated sensor system comprises one or more sensors that are configured to determine one or more measures of at least one property of soil. The integrated sensor system also includes one or more processing units that are configured to receive, from the sensors, the measures of at least one property of soil and calculate soil property data based on the measures. The system further includes a transmitter that is configured to receive the soil property data from the processing units, establish a communications connection with at least one computer device, and automatically transmit the soil property data to the at least one computer device via the communications connection. In an embodiment, the communications connection is a wireless connection established between the transmitter and a smart hub or a LoRA-enabled device.Type: GrantFiled: October 22, 2019Date of Patent: May 31, 2022Assignee: Climate LLCInventors: Justin Koch, Michael H. Malone, Phil David Baurer, Nalini Gupta, Calden Nathaniel Carroll Stimpson, Andreas Markus Wenzel, Jordan Kusiek, Michael Gall, Jeffrey Lawrence Kohne, Eric L. Borrowman
-
Publication number: 20210146404Abstract: A seed sorting system for sorting seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes an x-ray camera configured to acquire x-ray images of the seeds as the seeds move through the system. The x-ray camera is configured to produce high quality images at high line scan rates to accommodate a speed and width at which the seeds are moved by the seed transfer station through the system. A sorting assembly is configured to sort the seeds into separate bins based on the acquired x-ray images of the seeds.Type: ApplicationFiled: June 10, 2019Publication date: May 20, 2021Applicant: Monsanto Technology LLCInventors: Eric L. Borrowman, Jarrett R. Ceglinski, Govind Chaudhary, Leendert De Bruin, Johnny J. Kotyk, Louis M. Pompe Van Meerdervoort, Brad D. White
-
Publication number: 20210129188Abstract: A seed sorting system for sorting seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes a first camera mounted above the seed transfer station and configured to acquire images of the seeds as the seeds move through the system and a second camera mounted below the seed transfer station and configured to acquire images of the seeds as the seeds move through the system. A sorting assembly is configured to sort the seeds into separate bins based on the acquired images of the seeds.Type: ApplicationFiled: July 31, 2018Publication date: May 6, 2021Applicant: Monsanto Technology LLCInventors: Eric L. Borrowman, Jarrett R. Ceglinski, Govind Chaudhary, Xiaofei Fan, Jeffrey L. Kohne, Brad D. White, Chi Zhang
-
Publication number: 20200132658Abstract: In an embodiment, an integrated sensor system with modular sensors and wireless connectivity components for monitoring properties of field soil is described. In an embodiment, an integrated sensor system comprises one or more sensors that are configured to determine one or more measures of at least one property of soil. The integrated sensor system also includes one or more processing units that are configured to receive, from the sensors, the measures of at least one property of soil and calculate soil property data based on the measures. The system further includes a transmitter that is configured to receive the soil property data from the processing units, establish a communications connection with at least one computer device, and automatically transmit the soil property data to the at least one computer device via the communications connection. In an embodiment, the communications connection is a wireless connection established between the transmitter and a smart hub or a LoRA-enabled device.Type: ApplicationFiled: October 22, 2019Publication date: April 30, 2020Inventors: Justin Koch, Michael H. Malone, Phil David Baurer, Nalini Gupta, Calden Nathaniel Carroll Stimpson, Andreas Markus Wenzel, Jordan Kusiek, Michael Gall, Jeffrey Lawrence Kohne, Eric L. Borrowman
-
Publication number: 20200000007Abstract: Provided herein are systems and methods for the automation of seed planting and analysis comprising automated planting of the seeds, germination, and analysis. The methods generally comprise conveying containers containing seeds to an automated seed planting station, wherein each container includes a machine-readable tag, planting at least some of the seeds in the container onto respective planting trays, wherein each planting tray includes a machine-readable tag, allowing the seeds to germinate, and analyzing the germinated seeds. The systems generally comprise a seed planting system and a planting verification and correction system. Also provided herein are backlit templates comprising a light source and a power interface configured to connect to a power source to power the light source.Type: ApplicationFiled: July 1, 2019Publication date: January 2, 2020Applicant: Monsanto Technology LLCInventors: Adam M. Barrick, Eric L. Borrowman, Jarrett R. Ceglinski, Jerry Christopher, Joshua Allen Crews, Daniel Dillard, Timothy P. Garvin, Charles K. Johnson, Jeffrey L. Kohne, Jason T. Mitchell, Jeff S. Morris, Ralph E. Nothdurft, Payman Rassoolkhani, Christian A. Saia
-
Publication number: 20190364753Abstract: A pollinating device for pollinating crop plants includes a base mountable on a carriage. At least one pollination unit is mounted on the base and includes a pollen-releasing apparatus configured to release pollen from male flowers of the plants and at least one nozzle for directing fluid along a flow path for delivering at least some of the released pollen to the pollen-receiving rows of crop plants. Certain pollinating devices include multiple pollination units spaced apart along a width of the base. Some pollination units include at least two opposing nozzles. Plants are pollinated by driving the carriage along a field and directing air from the nozzles over the pollen born by some plants to deliver the pollen to female flowers of other plants in the field.Type: ApplicationFiled: January 5, 2018Publication date: December 5, 2019Inventors: Diego Almeida Aguiar, Eric L. Borrowman, Diego Campos, Amanuel G. Ghebretinsae, Jeffrey L. Kohne, Aldo Barbosa Lima, Jason T. Mitchell, Antonio Carlos Santos, Isaías Segovia, Gretchen E. Spiess
-
Publication number: 20190281781Abstract: A seed imaging system for imaging seeds includes a seed transfer station configured to move seeds through the system. An imaging assembly includes a first camera mounted relative to the seed transfer station and configured to acquire images of the seeds as the seeds move through the system. A second camera is mounted relative to the seed transfer station and is configured to acquire images of the seeds as the seeds move through the system. The second camera has an imaging modality different from an imaging modality of the first camera. First and second cameras may be disposed above and below the seed transfer stations, such as a transparent belt.Type: ApplicationFiled: March 13, 2019Publication date: September 19, 2019Inventors: Eric L. Borrowman, Govind Chaudhary, HSIN-CHEN CHEN, Jeffrey L. Kohne, Johnny J. Kotyk, Louis M. Pompe van Meerdevoort, Randall K. Rader, Brad D. White, Chi Zhang
-
Patent number: 10159176Abstract: A seed meter comprising a seed handler comprising a cylinder comprising a plurality of seed chambers. The seed handler rotates the cylinder to sequentially position each seed chamber in a ‘loading’ position wherein each seed chamber receives a sets of seeds, a ‘planting’ position wherein seeds from each seed set are parsed, and an ‘evacuation’ position wherein any seeds remaining in each chamber are evacuated from each chamber. The seed meter additionally comprises a seed separator comprising a seed disc. The seed disc rotates, parses seed from each seed chamber, and transports the seeds to the exit chute. Importantly, the seed meter is structured and operable to substantially simultaneously, receive the sets of seed in the respective chamber positioned in the ‘loading’ position, parse the seeds from the respective chamber positioned in the ‘planting’ position, and evacuate the remaining seed from the respective chamber positioned in the ‘evacuation’ position.Type: GrantFiled: December 21, 2015Date of Patent: December 25, 2018Assignee: Monsanto Technology LLCInventors: David J. Baitinger, Eric L. Borrowman, Chad A. Heathcote, Andrew D. Thielen
-
Publication number: 20180000009Abstract: A seed meter comprising a seed handler comprising a cylinder comprising a plurality of seed chambers. The seed handler rotates the cylinder to sequentially position each seed chamber in a ‘loading’ position wherein each seed chamber receives a sets of seeds, a ‘planting’ position wherein seeds from each seed set are parsed, and an ‘evacuation’ position wherein any seeds remaining in each chamber are evacuated from each chamber. The seed meter additionally comprises a seed separator comprising a seed disc. The seed disc rotates, parses seed from each seed chamber, and transports the seeds to the exit chute. Importantly, the seed meter is structured and operable to substantially simultaneously, receive the sets of seed in the respective chamber positioned in the ‘loading’ position, parse the seeds from the respective chamber positioned in the ‘planting’ position, and evacuate the remaining seed from the respective chamber positioned in the ‘evacuation’ position.Type: ApplicationFiled: December 21, 2015Publication date: January 4, 2018Inventors: David J. Baitinger, Eric L. Borrowman, Chad A. Heathcote, Andrew D. Thielen
-
Patent number: 8491018Abstract: Systems and methods are provided for tying material into a bow around an object. The system includes a tying assembly for tying the material around the object into the bow and a jig assembly moveable relative to the tying assembly for positioning the material relative to the tying assembly. The tying assembly includes a first loop gripper and a second loop gripper configured to grip respective first and second portions of the material. The first loop gripper is configured to pull the first portion of the material through the second portion of the material. The second loop gripper is configured to pull the second portion of the material through the first portion of the material. A first tail gripper and a second tail gripper are provided to grip respective first and second ends of the material. The jig assembly includes a first jig half and a second jig half that are each rotatable about a longitudinal axis of the first jig half and the second jig half.Type: GrantFiled: March 23, 2011Date of Patent: July 23, 2013Assignee: Innoventor, IncorporatedInventors: Eric L. Borrowman, J. Edgar Biggs, III
-
Publication number: 20110233930Abstract: Systems and methods are provided for tying material into a bow around an object. The system includes a tying assembly for tying the material around the object into the bow and a jig assembly moveable relative to the tying assembly for positioning the material relative to the tying assembly. The tying assembly includes a first loop gripper and a second loop gripper configured to grip respective first and second portions of the material. The first loop gripper is configured to pull the first portion of the material through the second portion of the material. The second loop gripper is configured to pull the second portion of the material through the first portion of the material. A first tail gripper and a second tail gripper are provided to grip respective first and second ends of the material. The jig assembly includes a first jig half and a second jig half that are each rotatable about a longitudinal axis of the first jig half and the second jig half.Type: ApplicationFiled: March 23, 2011Publication date: September 29, 2011Applicant: INNOVENTOR, INCORPORATEDInventors: Eric L. Borrowman, J. Edgar Biggs, III