Patents by Inventor Chris Welman
Chris Welman 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: 10817132Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: GrantFiled: October 31, 2019Date of Patent: October 27, 2020Assignee: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan
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Patent number: 10599284Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: GrantFiled: September 22, 2017Date of Patent: March 24, 2020Assignee: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan
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Publication number: 20200064980Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: ApplicationFiled: October 31, 2019Publication date: February 27, 2020Applicant: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan
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Patent number: 10496239Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: GrantFiled: September 22, 2017Date of Patent: December 3, 2019Assignee: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan
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Publication number: 20180314405Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: ApplicationFiled: September 22, 2017Publication date: November 1, 2018Applicant: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan
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Publication number: 20180315238Abstract: A three-dimensional model can be presented in a two-dimensional digital canvas on a computer display. User input directed at the three-dimensional model in the two-dimensional canvas can be received. The three-dimensional model can be manipulated in response to the user input. A two-dimensional view of the three-dimensional model can be displayed. Corresponding data structures for the model, the canvas, and the two-dimensional objects in the data structure can be maintained and updated. One or more additional techniques can also be utilized in a computer system, such as continuous user-controlled model rotation in a two-dimensional canvas; viewport autofit and non-autofit modes; rotating the model around a camera look-at point; ghosting outside the viewport; normalizing modeling units and values; preset buttons with on-button previews; user-defined view presets; and/or two-dimensional image substitution.Type: ApplicationFiled: September 22, 2017Publication date: November 1, 2018Applicant: Microsoft Technology Licensing, LLCInventors: Adam Ross Le Doux, Alexandre Gueniot, Bharat Kumar Ahuja, Jie Li, Jordan Krissi, Matthew William Kernek, Michael Alexander Fuller, Onur Onder, Ramya Tridandapani, Constance Worsfold Gervais, Garrett William Brown, Michael Jay Gilmore, Tyler Robert Adams, Thomas R. Mignone, Stephanie Lorraine Horn, Eric Minghai Gao, Heather Joanne Alekson, Chris Welman, Thomas Nhan