Patents by Inventor Jayashree Kumar
Jayashree Kumar 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: 20260139267Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: ApplicationFiled: December 23, 2025Publication date: May 21, 2026Inventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, Jayashree Kumar, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh, James Michael Kremer, Fu Chyun Chu, Kevin Klicki, Chien-Yuan Lin, Shankar Raj Pant, Derek Thomas Rothenheber
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Patent number: 12529067Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: GrantFiled: May 13, 2025Date of Patent: January 20, 2026Assignee: FLAGSHIP PIONEERING INNOVATIONS VII, LLCInventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, Jayashree Kumar, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh, James Michael Kremer, Fu Chyun Chu, Kevin Klicki, Chien-Yuan Lin, Shankar Raj Pant, Derek Thomas Rothenheber
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Publication number: 20250270582Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: ApplicationFiled: May 13, 2025Publication date: August 28, 2025Inventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, Jayashree Kumar, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh, James Michael Kremer, Fu Chyun Chu, Kevin Klicki, Chien-Yuan LIN, Shankar Raj Pant, Derek Thomas Rothenheber
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Publication number: 20250230452Abstract: Synthetic partitiviral satellite RNA molecules and satellite particles containing the same are disclosed. Also disclosed are methods of using the partitiviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: ApplicationFiled: January 20, 2023Publication date: July 17, 2025Inventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, James Michael Kremer, Jayashree Kumar, Chien-Yuan LIN, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh, Phu Tri Tran
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Patent number: 12351811Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: GrantFiled: November 14, 2024Date of Patent: July 8, 2025Assignee: FLAGSHIP PIONEERING INNOVATIONS VII, LLCInventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Fu Chyun Chu, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, James Michael Kremer, Jayashree Kumar, Shankar Raj Pant, Aditya Sushil Kumar Singh
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Publication number: 20250075227Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: ApplicationFiled: November 14, 2024Publication date: March 6, 2025Inventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, Jayashree Kumar, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh, James Michael Kremer, Fu Chyun Chu, Kevin Klicki, Chien-Yuan LIN, Shankar Raj Pant, Derek Thomas Rothenheber
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Publication number: 20240417749Abstract: Synthetic endornaviral satellite RNA molecules and satellite particles containing the same are disclosed. The synthetic endornaviral satellite RNA molecules can include coding and/or non-coding cargo sequences, and are heritable through generations of plants. Also disclosed are methods of using the endornaviral satellite RNA molecules and satellite particles containing the same to change plant phenotypes, improve plant stress resistance, and improve plant pest and pathogen resistance.Type: ApplicationFiled: October 31, 2022Publication date: December 19, 2024Inventors: Arjun Devang Khakhar, Barry Andrew Martin, Yajie Niu, Daniel Alexander Sprague, Fu Chyun Chu, Elizabeth Jane Antonelli Dennis, Mehmet Ali Halac, Yumeng Hao, Kevin Klicki, James Michael Kremer, Jayashree Kumar, Chien-Yuan LIN, Shankar Raj Pant, Derek Thomas Rothenheber, Michka Gabrielle Sharpe, Aditya Sushil Kumar Singh
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Patent number: 10741076Abstract: Approaches presented herein enable recipient-actualized internal vehicle-to-vehicle honking. More specifically, an action of a first vehicle is monitored and a communication is obtained from a second vehicle. In response to the obtainment of the communication, it is determined whether the action of the first vehicle violates a rule. In the case that the action of the first vehicle violates a rule, responsive to the communication, a honk indication, perceptible to an occupant of the first vehicle, is actualized inside the first vehicle. In the case that the action of the first vehicle does not violate a rule, the communication from the second vehicle is rejected, and the honk indication is not actualized inside the first vehicle. A response can be transmitted to the second vehicle indicating if the honk indication was actualized inside the first vehicle.Type: GrantFiled: April 26, 2019Date of Patent: August 11, 2020Assignee: International Business Machines CorporationInventors: Jayashree Kumar, Yethish Venkataramanachari, Dhandapani Shanmugam
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Publication number: 20190325752Abstract: Approaches presented herein enable recipient-actualized internal vehicle-to-vehicle honking. More specifically, an action of a first vehicle is monitored and a communication is obtained from a second vehicle. In response to the obtainment of the communication, it is determined whether the action of the first vehicle violates a rule. In the case that the action of the first vehicle violates a rule, responsive to the communication, a honk indication, perceptible to an occupant of the first vehicle, is actualized inside the first vehicle. In the case that the action of the first vehicle does not violate a rule, the communication from the second vehicle is rejected, and the honk indication is not actualized inside the first vehicle. A response can be transmitted to the second vehicle indicating if the honk indication was actualized inside the first vehicle.Type: ApplicationFiled: April 26, 2019Publication date: October 24, 2019Inventors: Jayashree Kumar, Yethish Venkataramanachari, Dhandapani Shanmugam
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Publication number: 20190304002Abstract: A computer system monitors a user to assess product preferences. A video from an image capture device monitoring a user is analyzed. An image is selected from the video of the user for image processing, wherein the user is visible in the frame. The selected image is processed to determine one or more products used by the user. One or more product recommendations are determined based on the one or more products used by the user. Embodiments of the present invention further include a method and program product for assessing product preferences for a user in substantially the same manner described above.Type: ApplicationFiled: June 20, 2019Publication date: October 3, 2019Inventors: Siddique M. Adoni, Dhandapani Shanmugam, Jayashree Kumar, Yethish Venkataramanachari
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Publication number: 20190287152Abstract: A computer system monitors a user to assess product preferences. A video from an image capture device monitoring a user is analyzed. An image is selected from the video of the user for image processing, wherein the user is visible in the frame. The selected image is processed to determine one or more products used by the user. One or more product recommendations are determined based on the one or more products used by the user. Embodiments of the present invention further include a method and program product for assessing product preferences for a user in substantially the same manner described above.Type: ApplicationFiled: March 16, 2018Publication date: September 19, 2019Inventors: Siddique M. Adoni, Dhandapani Shanmugam, Jayashree Kumar, Yethish Venkataramanachari
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Patent number: 10373499Abstract: Approaches presented herein enable recipient-actualized internal vehicle-to-vehicle honking. More specifically, an action of a first vehicle is monitored and a communication is obtained from a second vehicle. In response to the obtainment of the communication, it is determined whether the action of the first vehicle violates a rule. In the case that the action of the first vehicle violates a rule, responsive to the communication, a honk indication, perceptible to an occupant of the first vehicle, is actualized inside the first vehicle. In the case that the action of the first vehicle does not violate a rule, the communication from the second vehicle is rejected, and the honk indication is not actualized inside the first vehicle. A response can be transmitted to the second vehicle indicating if the honk indication was actualized inside the first vehicle.Type: GrantFiled: April 20, 2018Date of Patent: August 6, 2019Assignee: International Business Machines CorporationInventors: Jayashree Kumar, Yethish Venkataramanachari, Dhandapani Shanmugam