Patents by Inventor Jason Mecham
Jason Mecham 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: 11906724Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: GrantFiled: May 6, 2022Date of Patent: February 20, 2024Assignee: Life Technologies CorporationInventors: Marc Berretta, Jason Mecham, Frank Metting, Jonathan Paullin, Paul Boeschoten, Erik Persmark, Eric Altendorf
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Patent number: 11561385Abstract: Embodiments relate to systems and methods for sample image capture using integrated control. A digital microscope or other imaging device can be associated with a sample chamber containing cell, tissue, or other sample material. The chamber can be configured to operate using a variety of environmental variables, including gas concentration, temperature, humidity, and others. The imaging device can be configured to operate using a variety of imaging variables, including magnification, focal length, illumination, and others. A central system control module can be used to configure the settings of those hardware elements, as well as others, to set up and carry out an image capture event. The system control module can be operated to control the physical, optical, chemical, and/or other parameters of the overall imaging environment from one central control point. The variables used to produce the image capture can be configured to dynamically variable during the media capture event.Type: GrantFiled: October 30, 2018Date of Patent: January 24, 2023Inventors: Terence Tak-Shing Tam, Christopher Martin, Frank Metting, Jason Mecham, Robert Dain, Larry Rystrom, Paul Adrian Boeschoten, Steven W. Lytle
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Publication number: 20220334372Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: ApplicationFiled: May 6, 2022Publication date: October 20, 2022Inventors: Marc BERRETTA, Jason MECHAM, Frank METTING, Jonathan PAULLIN, Paul BOESCHOTEN, Erik PERSMARK, Eric ALTENDORF
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Patent number: 11340442Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: GrantFiled: September 30, 2020Date of Patent: May 24, 2022Assignee: LIFE TECHNOLOGIES CORPORATIONInventors: Marc Berretta, Jason Mecham, Frank Metting, Jonathan Paullin, Paul Boeschoten, Erik Persmark, Eric Altendorf
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Publication number: 20210011273Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: ApplicationFiled: September 30, 2020Publication date: January 14, 2021Inventors: Marc BERRETTA, Jason MECHAM, Frank METTING, Jonathan PAULLIN, Paul BOESCHOTEN, Erik PERSMARK, Eric ALTENDORF
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Patent number: 10831015Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: GrantFiled: April 11, 2019Date of Patent: November 10, 2020Assignee: Life Technologies CorporationInventors: Marc Berretta, Jason Mecham, Frank Metting, Jonathan Paullin, Paul Boeschoten, Erik Persmark, Eric Altendorf
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Publication number: 20190361216Abstract: Apparatuses, systems and methods for generating color video with a monochrome sensor include the acts of (i) selectively energizing each of a plurality of light sources in a sequence, (ii) capturing a monochrome image of the illuminated sample at a monochrome sensor at each stage of the sequence, and (iii) generating a color video from the monochrome images. The sequence can have a series of stages with each stage of the sequence corresponding to activation of a different wavelength of light from the light sources to illuminate a sample. Generating the monochrome video can include the acts of compiling a plurality of monochrome images captured at the monochrome sensor with a single light source into a series of monochrome video frames comprising the monochrome video.Type: ApplicationFiled: April 11, 2019Publication date: November 28, 2019Inventors: Marc BERRETTA, Jason MECHAM, Frank METTING, Jonathan PAULLIN, Paul BOESCHOTEN, Erik PERSMARK, Eric ALTENDORF
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Publication number: 20190170996Abstract: Embodiments relate to systems and methods for sample image capture using integrated control. A digital microscope or other imaging device can be associated with a sample chamber containing cell, tissue, or other sample material. The chamber can be configured to operate using a variety of environmental variables, including gas concentration, temperature, humidity, and others. The imaging device can be configured to operate using a variety of imaging variables, including magnification, focal length, illumination, and others. A central system control module can be used to configure the settings of those hardware elements, as well as others, to set up and carry out an image capture event. The system control module can be operated to control the physical, optical, chemical, and/or other parameters of the overall imaging environment from one central control point. The variables used to produce the image capture can be configured to dynamically variable during the media capture event.Type: ApplicationFiled: October 30, 2018Publication date: June 6, 2019Inventors: Terence Tak-Shing TAM, Christopher MARTIN, Frank METTING, Jason MECHAM, Robert DAIN, Larry RYSTROM, Paul Adrian BOESCHOTEN, Steven W. LYTLE
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Publication number: 20140340499Abstract: Embodiments relate to systems and methods for sample image capture using integrated control. A digital microscope or other imaging device can be associated with a sample chamber containing cell, tissue, or other sample material. The chamber can be configured to operate using a variety of environmental variables, including gas concentration, temperature, humidity, and others. The imaging device can be configured to operate using a variety of imaging variables, including magnification, focal length, illumination, and others. A central system control module can be used to configure the settings of those hardware elements, as well as others, to set up and carry out an image capture event. The system control module can be operated to control the physical, optical, chemical, and/or other parameters of the overall imaging environment from one central control point. The variables used to produce the image capture can be configured to dynamically variable during the media capture event.Type: ApplicationFiled: May 14, 2013Publication date: November 20, 2014Inventors: TERENCE TAM, Frank Metting, Jason Mecham, Robert Dain, Larry Rystrom, Christopher Martin, Paul Boeschoten, Steven Lytle
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Patent number: 6507433Abstract: A method and apparatus for preventing excessive closure between a retractable tip objective and the stage of a microscope which includes positioning a sensor in the turret of a microscope, which sensor is capable of detecting excessive retracting of the retractable tip into the body of the objective, and providing a controller for monitoring the sensor for such excessive retracting and issuing an alert in response to the detection of an event of such excessive retracting. The alert may be made by way of an audio output, or by a visual cue or both. Extinguishing the lamp of the microscope is a preferred visual cue, as the excessive retracting of the retractable tip is generally caused by a focusing error, and the extinguishing of the light source reduces or eliminates the ability of the user of the microscope to focus the microscope, thus attracting his or her attention.Type: GrantFiled: April 11, 2001Date of Patent: January 14, 2003Assignee: Westover Scientific, Inc.Inventors: Jason Mecham, Steve Lytle
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Publication number: 20020015223Abstract: A method and apparatus for preventing excessive closure between a retractable tip objective and the stage of a microscope which includes positioning a sensor in the turret of a microscope, which sensor is capable of detecting excessive retracting of the retractable tip into the body of the objective, and providing a controller for monitoring the sensor for such excessive retracting and issuing an alert in response to the detection of an event of such excessive retracting. The alert may be made by way of an audio output, or by a visual cue or both. Extinguishing the lamp of the microscope is a preferred visual cue, as the excessive retracting of the retractable tip is generally caused by a focusing error, and the extinguishing of the light source reduces or eliminates the ability of the user of the microscope to focus the microscope, thus attracting his or her attention.Type: ApplicationFiled: April 11, 2001Publication date: February 7, 2002Inventors: Jason Mecham, Steve Lytle