Patents by Inventor Jeff Crockett
Jeff Crockett 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: 11854426Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: June 17, 2022Date of Patent: December 26, 2023Assignee: Truinject Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20230009855Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: June 17, 2022Publication date: January 12, 2023Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 11403964Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: December 15, 2020Date of Patent: August 2, 2022Assignee: Truinject Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20210264815Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: December 15, 2020Publication date: August 26, 2021Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 10902746Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: April 20, 2020Date of Patent: January 26, 2021Assignee: Truinject Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20200251017Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: April 20, 2020Publication date: August 6, 2020Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 10643497Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: May 11, 2018Date of Patent: May 5, 2020Assignee: Truinject Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20180261125Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: May 11, 2018Publication date: September 13, 2018Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, Milan Trcka, David J. Mishelevich, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20170186339Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: September 7, 2016Publication date: June 29, 2017Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 9443446Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: January 13, 2015Date of Patent: September 13, 2016Assignee: Trulnject Medical Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20150348443Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: January 13, 2015Publication date: December 3, 2015Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 8961189Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: June 27, 2014Date of Patent: February 24, 2015Assignee: TruInject Medical Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20140315165Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: June 27, 2014Publication date: October 23, 2014Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Patent number: 8764449Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: GrantFiled: October 30, 2013Date of Patent: July 1, 2014Assignee: Trulnject Medical Corp.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20140120505Abstract: Systems and methods are disclosed for an apparatus and method for practicing injection techniques through an injectable apparatus. The injectable apparatus may contain a camera that is configured to detect the intensity and color of light attenuated from a testing tool after it is injected into a simulated human or animal body parts. A training tool may be connected to a user display device to generate a display of the injection apparatus as well as the performance parameters of a trainee.Type: ApplicationFiled: October 30, 2013Publication date: May 1, 2014Applicant: TRUINJECT MEDICAL CORP.Inventors: Gabrielle A. Rios, Jeff Crockett, Clark B. Foster, David J. Mishelevich, Milan Trcka, Aaron J. Gifford, Chris C. Ludolph
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Publication number: 20050062552Abstract: In an apparatus using optically excited atomic media, such as an atomic frequency standard, a source providing a controlled emission of light for exciting the D1 and/or D2 resonance lines of an alkali gas, such as rubidium or cesium, is controlled by an output generated by digital electronics from the light intensity signal of a light sensor for light transmitted by the alkali gas, an output for representing ambient temperature, and a light intensity-ambient temperature algorithm to substantially eliminate changes in light intensity due to light source aging for the purpose of reducing changes in temperature sensitivity of the apparatus as a function of time and the light-shift contribution to the frequency aging of the standard.Type: ApplicationFiled: September 3, 2003Publication date: March 24, 2005Inventors: Jinquan Deng, Jeff Crockett, Thomas English