Patents by Inventor Michael Jastrzebski
Michael Jastrzebski 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: 11273081Abstract: Various examples of a wearable sensor enclosure are described. In an example, a wearable sensor enclosure is generally oval-shaped with rigid interior that protects one or more sensors or other electronic devices. The enclosure includes a proximal component and a distal component. The proximal component of the enclosure optionally includes one or more openings for light to pass through for detection by sensing electronic devices. The distal component includes a protrusion positioned in an interior of the distal component and a lip positioned in along the perimeter of the distal component such that the lip surrounds the protrusion.Type: GrantFiled: October 23, 2020Date of Patent: March 15, 2022Assignee: VERILY LIFE SCIENCES LLCInventors: Michael Jastrzebski, Kristin Size, David He, Harry Xiao, Linden Evans
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Publication number: 20210038442Abstract: Various examples of a wearable sensor enclosure are described. In an example, a wearable sensor enclosure is generally oval-shaped with rigid interior that protects one or more sensors or other electronic devices. The enclosure includes a proximal component and a distal component. The proximal component of the enclosure optionally includes one or more openings for light to pass through for detection by sensing electronic devices. The distal component includes a protrusion positioned in an interior of the distal component and a lip positioned in along the perimeter of the distal component such that the lip surrounds the protrusion.Type: ApplicationFiled: October 23, 2020Publication date: February 11, 2021Applicant: Verily Life Sciences LLCInventors: Michael Jastrzebski, Kristin Size, David He, Harry Xiao, Linden Evans
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Patent number: 10905601Abstract: Various examples of a wearable sensor enclosure are described. In an example, a wearable sensor enclosure is generally oval-shaped with rigid interior that protects one or more sensors or other electronic devices. The enclosure includes a proximal component and a distal component. The proximal component of the enclosure optionally includes one or more openings for light to pass through for detection by sensing electronic devices. The distal component includes a protrusion positioned in an interior of the distal component and a lip positioned in along the perimeter of the distal component such that the lip surrounds the protrusion.Type: GrantFiled: April 12, 2019Date of Patent: February 2, 2021Assignee: VERILY LIFE SCIENCES LLCInventors: Michael Jastrzebski, Kristin Size, David He, Harry Xiao, Linden Evans
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Publication number: 20200323701Abstract: Various examples of a wearable sensor enclosure are described. In an example, a wearable sensor enclosure is generally oval-shaped with rigid interior that protects one or more sensors or other electronic devices. The enclosure includes a proximal component and a distal component. The proximal component of the enclosure optionally includes one or more openings for light to pass through for detection by sensing electronic devices. The distal component includes a protrusion positioned in an interior of the distal component and a lip positioned in along the perimeter of the distal component such that the lip surrounds the protrusion.Type: ApplicationFiled: April 12, 2019Publication date: October 15, 2020Applicant: Verily Life Sciences LLCInventors: Michael Jastrzebski, Kristin Size, David He, Harry Xiao, Linden Evans
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Patent number: 10063369Abstract: The present disclosure is directed to waveform synchronization in multi-modal sensor networks. An example method includes providing a reference signal to a translation circuit. The method also includes generating, by the translation circuit, (i) a first synchronization signal capable of exciting a first emitter to produce a first wave in a first modality and (ii) a second synchronization signal capable of exciting a second emitter to produce a second wave in a second modality, wherein a modality is a domain within a form of energy. The method further includes producing, by the first emitter, first wave in the first modality and, by the second emitter, the second wave in the second modality, wherein the first wave is substantially directed toward a first sensor capable of interacting with the first wave, and wherein the second wave substantially directed toward a second sensor capable of interacting with the second wave.Type: GrantFiled: December 16, 2016Date of Patent: August 28, 2018Assignee: Verily Life Sciences LLCInventors: Mark Murphy, Russell Norman Mirov, Michael Jastrzebski
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Patent number: 9588683Abstract: One variation of a dynamic tactile interface includes: a substrate defining a fluid channel and a fluid conduit fluidly coupled to the fluid channel; a tactile layer comprising a peripheral region and a deformable region, the peripheral region coupled to the substrate, and the deformable region arranged over the fluid conduit, disconnected from the substrate, and operable between a retracted setting and an expanded setting, the deformable region elevated above the peripheral region in the expanded setting; a tube comprising a first end fluidly coupled to the fluid channel and constrained relative to the substrate; a volume of fluid within the tube; and a rotary actuator coupled to the tube remote from the first end and configured to transition the deformable region from the retracted setting to the expanded setting by winding the tube to displace a portion of the volume of fluid within the tube into the fluid channel.Type: GrantFiled: July 23, 2015Date of Patent: March 7, 2017Assignee: Tactus Technology, Inc.Inventors: Micah B. Yairi, Craig Ciesla, Curtis Ray, Michael Jastrzebski, Amy Lai Wong, Simona Wong, Jonathon Jenkins, Nathan Knapp
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Publication number: 20150331525Abstract: One variation of a dynamic tactile interface includes: a substrate defining a fluid channel and a fluid conduit fluidly coupled to the fluid channel; a tactile layer comprising a peripheral region and a deformable region, the peripheral region coupled to the substrate, and the deformable region arranged over the fluid conduit, disconnected from the substrate, and operable between a retracted setting and an expanded setting, the deformable region elevated above the peripheral region in the expanded setting; a tube comprising a first end fluidly coupled to the fluid channel and constrained relative to the substrate; a volume of fluid within the tube; and a rotary actuator coupled to the tube remote from the first end and configured to transition the deformable region from the retracted setting to the expanded setting by winding the tube to displace a portion of the volume of fluid within the tube into the fluid channel.Type: ApplicationFiled: July 23, 2015Publication date: November 19, 2015Inventors: Micah B. Yairi, Craig Ciesla, Curtis Ray, Michael Jastrzebski, Amy Lai Wong, Simona Wong, Jonathon Jenkins, Nathan Knapp
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Patent number: 9128525Abstract: One variation of a dynamic tactile interface includes: a substrate defining a fluid channel and a fluid conduit fluidly coupled to the fluid channel; a tactile layer comprising a peripheral region and a deformable region, the peripheral region coupled to the substrate, and the deformable region arranged over the fluid conduit, disconnected from the substrate, and operable between a retracted setting and an expanded setting, the deformable region elevated above the peripheral region in the expanded setting; a tube comprising a first end fluidly coupled to the fluid channel and constrained relative to the substrate; a volume of fluid within the tube; and a rotary actuator coupled to the tube remote from the first end and configured to transition the deformable region from the retracted setting to the expanded setting by winding the tube to displace a portion of the volume of fluid within the tube into the fluid channel.Type: GrantFiled: November 15, 2013Date of Patent: September 8, 2015Assignee: Tactus Technology, Inc.Inventors: Micah B. Yairi, Craig Ciesla, Curtis Ray, Michael Jastrzebski, Amy Lai Wong, Simona Wong, Jonathon Jenkins, Nathan Knapp
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Publication number: 20140160044Abstract: One variation of a dynamic tactile interface includes: a substrate defining a fluid channel and a fluid conduit fluidly coupled to the fluid channel; a tactile layer comprising a peripheral region and a deformable region, the peripheral region coupled to the substrate, and the deformable region arranged over the fluid conduit, disconnected from the substrate, and operable between a retracted setting and an expanded setting, the deformable region elevated above the peripheral region in the expanded setting; a tube comprising a first end fluidly coupled to the fluid channel and constrained relative to the substrate; a volume of fluid within the tube; and a rotary actuator coupled to the tube remote from the first end and configured to transition the deformable region from the retracted setting to the expanded setting by winding the tube to displace a portion of the volume of fluid within the tube into the fluid channel.Type: ApplicationFiled: November 15, 2013Publication date: June 12, 2014Applicant: Tactus Technology, Inc.Inventors: Micah B. Yairi, Craig Ciesla, Curtis Ray, Michael Jastrzebski, Amy Lai Wong, Simona Wong, Jonathon Jenkins
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Patent number: D776058Type: GrantFiled: June 10, 2015Date of Patent: January 10, 2017Assignee: Google Inc.Inventors: Jeremy Evan Blum, Michael Jastrzebski, Haley Toelle, Maj Isabelle Olsson
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Patent number: D776059Type: GrantFiled: June 15, 2015Date of Patent: January 10, 2017Assignee: Google Inc.Inventors: Eliot Kim, Maj Isabelle Olsson, Haley Toelle, Brian Fitzpatrick Cutter, Michael Jastrzebski, Yien Liu, Jeremy Evan Blum
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Patent number: D827831Type: GrantFiled: April 4, 2017Date of Patent: September 4, 2018Assignee: Verily Life Sciences LLCInventors: Shannon C. Fong, John Lapetina, Michael Jastrzebski
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Patent number: D909894Type: GrantFiled: April 12, 2019Date of Patent: February 9, 2021Assignee: VERILY LIFE SCIENCES LLCInventors: Michael Jastrzebski, Kristin Size, David He, Harry Xiao, Linden Evans