Patents by Inventor David Marceau
David Marceau 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: 20130331648Abstract: A method and apparatus to generate a planar representation of a longitudinally extending 360 degree continuous view within a body cavity of a patient is disclosed comprising advancing a portion of an imaging device into the body cavity of the patient, the imaging device having an image capture mechanism disposed on a distal end thereof configured to capture at least a 360 degree view of the inside of the body cavity. Further comprising withdrawing the imaging device at a controlled rate from the patient while simultaneously coordinating and generating 360 degree view image data from the imaging device and transmitting the image data from the imaging device to an image processor. The method further comprising processing the image data to produce a planar longitudinally continuous 360 degree view of the body cavity.Type: ApplicationFiled: August 13, 2013Publication date: December 12, 2013Inventors: Stephen C. Jacobsen, Fraser M. Smith, David Marceau, David Markus
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Patent number: 8358462Abstract: A mini-scope for multi-directional imaging is disclosed. The mini-scope includes an elongated mini-scoped body. An emissions aperture is disposed on the distal end of the elongated mini-scope body, which can be configured to emit a beam of optical energy propagating through a flexible optical conductor. A selective mirror is also positioned at the distal end of the elongated mini-scope body and is configured to selectively pass or reflect the beam of optical energy based on the optical characteristics of the beam. A solid state imaging device is further disposed on the distal end of the elongated mini-scope body for imaging illumination reflected by an external object in response to the beam of optical energy. This illumination is directed to pass through or reflect from the selective mirror to the camera based on optical characteristics of the beam.Type: GrantFiled: November 15, 2010Date of Patent: January 22, 2013Inventors: Stephen C. Jacobsen, David Marceau, Fraser Smith
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Publication number: 20110286089Abstract: A mini-scope for multi-directional imaging is disclosed. The mini-scope includes an elongated mini-scoped body. An emissions aperture is disposed on the distal end of the elongated mini-scope body, which can be configured to emit a beam of optical energy propagating through a flexible optical conductor. A selective mirror is also positioned at the distal end of the elongated mini-scope body and is configured to selectively pass or reflect the beam of optical energy based on the optical characteristics of the beam. A solid state imaging device is further disposed on the distal end of the elongated mini-scope body for imaging illumination reflected by an external object in response to the beam of optical energy. This illumination is directed to pass through or reflect from the selective mirror to the camera based on optical characteristics of the beam.Type: ApplicationFiled: November 15, 2010Publication date: November 24, 2011Inventors: Stephen C. Jacobsen, David Marceau, Fraser Smith
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Patent number: 7835074Abstract: A mini-scope for multi-directional imaging is disclosed. The mini-scope includes an elongated mini-scoped body. An emissions aperture is disposed on the distal end of the elongated mini-scope body, which can be configured to emit a beam of optical energy propagating through a flexible optical conductor. A selective mirror is also positioned at the distal end of the elongated mini-scope body and is configured to selectively pass or reflect the beam of optical energy based on the optical characteristics of the beam. A SSID is further disposed on the distal end of the elongated mini-scope body for imaging illumination reflected by an external object in response to the beam of optical energy. This illumination is directed to pass through or reflect from the selective mirror to the camera based on optical characteristics of the beam.Type: GrantFiled: June 5, 2007Date of Patent: November 16, 2010Assignee: Sterling LCInventors: Stephen C. Jacobsen, David Marceau, Fraser Smith
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Publication number: 20080304143Abstract: A mini-scope for multi-directional imaging is disclosed. The mini-scope includes an elongated mini-scoped body. An emissions aperture is disposed on the distal end of the elongated mini-scope body, which can be configured to emit a beam of optical energy propagating through a flexible optical conductor. A selective mirror is also positioned at the distal end of the elongated mini-scope body and is configured to selectively pass or reflect the beam of optical energy based on the optical characteristics of the beam. A SSID is further disposed on the distal end of the elongated mini-scope body for imaging illumination reflected by an external object in response to the beam of optical energy. This illumination is directed to pass through or reflect from the selective mirror to the camera based on optical characteristics of the beam.Type: ApplicationFiled: June 5, 2007Publication date: December 11, 2008Inventors: Stephen C. Jacobsen, David Marceau, Fraser Smith
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Publication number: 20080305278Abstract: A method for modifying a plastic surface is disclosed. The method can include chemically reacting a polysilicone compound placed in contact with the plastic surface to form a silicon dioxide glass layer on the surface portion. The glass layer can be modified in a second process to create a desired surface property.Type: ApplicationFiled: June 5, 2007Publication date: December 11, 2008Inventors: Stephen C. Jacobsen, David Marceau
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Patent number: 7327909Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: GrantFiled: March 23, 2006Date of Patent: February 5, 2008Assignee: Evans & Sutherland Computer CorporationInventors: David Marceau, Dennis F. Elkins, Forrest L. Williams, Allen H. Tanner
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Publication number: 20070167815Abstract: A multi-element probe array suitable for sensing or stimulating is disclosed. In one embodiment, the multi-element probe array includes a plurality of microfibers extending longitudinally and oriented substantially parallel to form a bundle. Probe elements are defined by a first subset of the microfibers displaced in a forward direction alone the longitudinal axis relative to spacer elements defined by a second subset of the microfibers. Interface elements and communication elements are disposed on the probe elements.Type: ApplicationFiled: December 11, 2006Publication date: July 19, 2007Inventors: Stephen Jacobsen, David Marceau, Shayne Zurn
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Publication number: 20070134954Abstract: Techniques for ultra-high density connection are disclosed. In one embodiment, an ultra-high density connector includes a bundle of substantially parallel elongate cylindrical elements, where each cylindrical element is substantially in contact with at least one adjacent cylindrical element. Ends of the elongate cylindrical elements are disposed differentially with respect to each other to define a three-dimensional interdigitating mating surface. At least one of the elongate cylindrical elements has an electrically conductive contact positioned to tangentially engage a corresponding electrical contact of a mating connector.Type: ApplicationFiled: December 11, 2006Publication date: June 14, 2007Inventors: Stephen Jacobsen, David Marceau, Shayne Zurn
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Publication number: 20070132109Abstract: Devices and methods for electrical interconnection for microelectronic circuits are disclosed. One method of electrical interconnection includes forming a bundle of microfilaments, wherein at least two of the microfilaments include electrically conductive portions extending along their lengths. The method can also include bonding the microfilaments to corresponding bond pads of a microelectronic circuit substrate to form electrical connections between the electrically conductive portions and the corresponding bond pads. A microelectronic circuit can include a bundle of microfilaments bonded to corresponding bond pads to make electrical connection between corresponding bonds pads and electrically-conductive portions of the microfilaments.Type: ApplicationFiled: December 11, 2006Publication date: June 14, 2007Inventors: Stephen Jacobsen, David Marceau, Shayne Zurn
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Patent number: 7215840Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: GrantFiled: March 23, 2006Date of Patent: May 8, 2007Assignee: Evans & Sutherland Computer CorporationInventors: David Marceau, Dennis F. Elkins, Forrest L. Williams, Allen H. Tanner
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Patent number: 7197200Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: GrantFiled: March 23, 2006Date of Patent: March 27, 2007Assignee: Evans & Sutherland Computer CorporationInventors: David Marceau, Dennis F. Elkins, Forrest L. Williams, Allen H. Tanner
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Patent number: 7133583Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: GrantFiled: March 23, 2006Date of Patent: November 7, 2006Assignee: Evans & Sutherland Computer CorporationInventors: David Marceau, Dennis F. Elkins, Forrest L. Williams, Allen H. Tanner
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Patent number: 7110624Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: GrantFiled: March 23, 2004Date of Patent: September 19, 2006Assignee: Evans & Sutherland Computer CorporationInventors: Forrest L. Williams, Allen H. Tanner, David Marceau, Dennis F. Elkins
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Publication number: 20060177171Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: ApplicationFiled: March 23, 2006Publication date: August 10, 2006Inventors: David Marceau, Dennis Elkins, Forrest Williams, Allen Tanner
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Publication number: 20060177170Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: ApplicationFiled: March 23, 2006Publication date: August 10, 2006Inventors: David Marceau, Dennis Elkins, Forrest Williams, Allen Tanner
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Publication number: 20060165338Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: ApplicationFiled: March 23, 2006Publication date: July 27, 2006Inventors: David Marceau, Dennis Elkins, Forrest Williams, Allen Tanner
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Publication number: 20060165339Abstract: A tunable fiber optic component providing environmental isolation, thermal tuning, and mechanical tuning and a method of tuning a fiber optic component using application of substantially simultaneous varying of temperature and mechanical strain is disclosed. A method of using a tunable fiber optic component, for example, a distributed feedback fiber laser, to compensate variations in an optical system, and a method of making a tunable fiber optic component are also disclosed.Type: ApplicationFiled: March 23, 2006Publication date: July 27, 2006Inventors: David Marceau, Dennis Elkins, Forrest Williams, Allen Tanner
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Publication number: 20060156851Abstract: A serpentine device having a proximal end and a distal end comprising a series of discs arrayed in succession and on center along a common, neutral axis, wherein the discs comprise a first and second surface; and at least one flexible interconnect extending between and connecting each disc to any succeeding disc according to a pre-determined connection configuration, wherein the interconnects are indirectly connected to one another through the discs and configured to provide torsional and bending support to each of the discs connected thereto under an applied load, thus achieving a continuum of flexibility along an entire length of the serpentine device, as well as to facilitate the torquability of the serpentine device. The serpentine device may further comprise a bendable member and at least one transfer element configured to perform one or more transfer functions, namely the transfer of energy, work, fluid, electricity, light energy, sound energy, matter, etc.Type: ApplicationFiled: December 1, 2005Publication date: July 20, 2006Inventors: Stephen Jacobsen, David Markus, David Marceau, Shayne Zurn
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Publication number: 20060146172Abstract: A miniaturized utility device having integrated optical capabilities for use on a high aspect ratio system, wherein the miniaturized utility device comprises: (a) a micro camera comprising a solid state micro imaging device including, as an integral structure, an imaging array electrically coupled to a conductive pad, wherein the solid state imaging device further includes at least one utility aperture passing therethrough, and a lens optically coupled to the imaging array; and (b) a micro utility instrument configured for coordinated operation with the imaging device at a common local site, wherein the micro utility instrument is configured to perform a designated function viewable, preferably in real-time, via a camera image generated by the micro camera.Type: ApplicationFiled: December 1, 2005Publication date: July 6, 2006Inventors: Stephen Jacobsen, David Markus, David Marceau, Ralph Pensel, Shayne Zurn