Patents by Inventor Mark A. McCord
Mark A. McCord 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: 20210141065Abstract: A method of three-dimensional imaging includes scanning a LiDAR system in a first direction with a first frequency and in a second direction with a second frequency that is different from the first frequency, so that a laser beam emitted by each laser source of the LiDAR system follows a Lissajous pattern. The method further includes emitting, using each laser source, a plurality of laser pulses as the LiDAR system is scanned in the first direction and the second direction; detecting, using each detector of the LiDAR system, a portion of each laser pulse of the plurality of laser pulses reflected off of one or more objects; determining, using a processor, a time of flight for each respective laser pulse from emission to detection; and acquiring a point cloud of the one or more objects based on the times of flight of the plurality of laser pulses.Type: ApplicationFiled: January 6, 2021Publication date: May 13, 2021Applicant: Cepton Technologies, IncInventors: Jun Pei, Mark A. McCord, Roger David Cullumber, Yupeng Cui, Dongyi Liao
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Patent number: 10987546Abstract: One embodiment of improved swim fins consists of a right foot attachment (101) with an outer right blade (111) and an inner right blade (112) which is arranged such that it does not mechanically interfere with an inner left blade (113). The blades may include a pivot mechanism (220) that allows the blades to maintain an optimal angle of attack as the swimmer moves their legs up and down. In another embodiment, a right blade (1011) and a left blade (1013) are attached to the feet of a person who is propelled by the blades above the surface of the water as they pump their feet up and down, forming a human-powered hydrofoil. Other embodiments are described and shown.Type: GrantFiled: October 1, 2019Date of Patent: April 27, 2021Inventor: Mark A. McCord
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Publication number: 20210109205Abstract: A method of calibrating a LiDAR sensor mounted on a vehicle includes storing a reference three-dimensional image acquired by the LiDAR sensor while the LiDAR sensor is in an expected alignment with respect to the vehicle. The reference three-dimensional image includes a first image of a fixed feature on the vehicle. The method further includes, acquiring, using the LiDAR sensor, a three-dimensional image including a second image of the fixed feature, and determining a deviation from the expected alignment of the LiDAR sensor with respect to the vehicle by comparing the second image of the fixed feature in the three-dimensional image to the first image of the fixed feature in the reference three-dimensional image.Type: ApplicationFiled: October 13, 2020Publication date: April 15, 2021Applicant: Cepton Technologies, Inc.Inventors: Dongyi Liao, Zukai Wang, Mark A. McCord, Chao Gu
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Publication number: 20210109204Abstract: A method of calibrating a LiDAR sensor mounted on a vehicle includes positioning the vehicle at a distance from a target including a planar mirror and features surrounding the mirror. The vehicle is positioned and oriented relative to the mirror so that an optical axis of the LiDAR sensor is nominally parallel to the optical axis of the mirror, and the target is nominally centered at a field of view of the LiDAR sensor. The method further includes acquiring, using the LiDAR sensor, a three-dimensional image of the target including images of the features of the target and a mirror image of the vehicle formed by the mirror. The method further includes determining a deviation from an expected alignment of the LiDAR sensor with respect to the vehicle by analyzing the images of the features and the mirror image of the vehicle in the three-dimensional image of the target.Type: ApplicationFiled: October 13, 2020Publication date: April 15, 2021Applicant: Cepton Technologies, Inc.Inventors: Dongyi Liao, Zukai Wang, Mark A. McCord, Chao Gu
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Publication number: 20210103039Abstract: A scanning lidar system includes a first lens having a first lens center and characterized by a first optical axis and a first surface of best focus, a second lens having a second lens center and characterized by a second optical axis, a platform separated from the first lens and the second lens along the first optical axis, and an array of laser sources mounted on the platform. Each laser source of the array of laser sources has an emission surface lying substantially at the first surface of best focus of the first lens and positioned at a respective laser position. The scanning lidar system further includes an array of photodetectors mounted on the platform. Each photodetector of the array of photodetectors is positioned at a respective photodetector position that is optically conjugate with a respective laser position of a corresponding laser source.Type: ApplicationFiled: September 30, 2020Publication date: April 8, 2021Applicant: Cepton Technologies, Inc.Inventors: Jun Pei, Mark McCord, Daryoosh Rejaly
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Patent number: 10955530Abstract: A scanning lidar system includes an external frame, an internal frame attached to the external frame by vibration-isolation mounts, and an electro-optic assembly movably attached to the internal frame and configured to be translated with respect to the internal frame during scanning operation of the scanning lidar system.Type: GrantFiled: December 13, 2017Date of Patent: March 23, 2021Assignee: Cepton Technologies, Inc.Inventors: Jun Pei, Mark Mccord, Jun Ye, Yupeng Cui, Liqun Han
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Patent number: 10935637Abstract: A LiDAR system includes a first lens, a second lens, a first set of light sources and a first set of detectors positioned at a focal plane of the first lens, and a second set of light sources and a second set of detectors positioned at a focal plane of the second lens. Each detector of the second set of detectors is located at a respective detector position on the focal plane of the second lens that is optically conjugate with a position of a corresponding light source of the first set of light sources. Each detector of the first set of detectors is located at a respective detector position on the focal plane of the first lens that is optically conjugate with a position of a corresponding light source of the second set of light sources.Type: GrantFiled: January 28, 2020Date of Patent: March 2, 2021Assignee: Cepton Technologies, Inc.Inventors: Roger David Cullumber, Jun Pei, Mark A. McCord
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Patent number: 10921431Abstract: A scanning lidar system includes a fixed frame, a first platform, and a first electro-optic assembly. The first electro-optic assembly includes a first laser source and a first photodetector mounted on the first platform. The scanning lidar system further includes a first flexure assembly flexibly coupling the first platform to the fixed frame, and a drive mechanism configured to scan the first platform with respect to the fixed frame in two dimensions in a plane substantially perpendicular to an optical axis of the lidar system. The scanning lidar system further includes a controller coupled to the drive mechanism. The controller is configured to cause the drive mechanism to scan the first platform in a first direction with a first frequency and in a second direction with a second frequency. The second frequency is similar but not identical to the first frequency.Type: GrantFiled: May 4, 2018Date of Patent: February 16, 2021Assignee: Cepton Technologies Inc.Inventors: Jun Pei, Mark A. McCord, Roger David Cullumber, Yupeng Cui, Dongyi Liao
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Patent number: 10861671Abstract: A scanning electron microscopy system is disclosed. The system includes a multi-beam scanning electron microscopy (SEM) sub-system. The SEM sub-system includes a multi-beam electron source configured to form a plurality of electron beams, a sample stage configured to secure a sample, an electron-optical assembly to direct the electron beams onto a portion of the sample, and a detector assembly configured to simultaneously acquire multiple images of the surface of the sample. The system includes a controller configured to receive the images from the detector assembly, identify a best focus image of images by analyzing one or more image quality parameters of the images, and direct the multi-lens array to adjust a focus of one or more electron beams based on a focus of an electron beam corresponding with the identified best focus image.Type: GrantFiled: January 21, 2019Date of Patent: December 8, 2020Assignee: KLA CorporationInventors: Doug K. Masnaghetti, Richard R. Simmons, Scott A. Young, Mark A. McCord, Rainer Knippelmeyer
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Patent number: 10845466Abstract: A scanning lidar system includes a first lens having a first lens center and characterized by a first optical axis and a first surface of best focus, a second lens having a second lens center and characterized by a second optical axis, a platform separated from the first lens and the second lens along the first optical axis, and an array of laser sources mounted on the platform. Each laser source of the array of laser sources has an emission surface lying substantially at the first surface of best focus of the first lens and positioned at a respective laser position. The scanning lidar system further includes an array of photodetectors mounted on the platform. Each photodetector of the array of photodetectors is positioned at a respective photodetector position that is optically conjugate with a respective laser position of a corresponding laser source.Type: GrantFiled: December 13, 2017Date of Patent: November 24, 2020Assignee: Cepton Technologies, Inc.Inventors: Jun Pei, Mark McCord, Daryoosh Rejaly
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Patent number: 10754036Abstract: A three-dimensional imaging system includes a first illumination source configured to project a first fan of light toward an object in a field of view, and a second illumination source configured to project a second fan of light substantially parallel to and spaced apart from the first fan of light. The first illumination source and the second illumination source are further configured to scan the first fan of light and the second fan of light synchronously laterally across the field of view. The three-dimensional imaging system further includes a camera configured to capture a plurality of image frames of the field of view as the first fan of light and the second fan of light are scanned over a plurality of regions the object, and a processor coupled to the camera and configured to construct a three-dimensional image of the object based on the plurality of image frames.Type: GrantFiled: December 22, 2016Date of Patent: August 25, 2020Assignee: Cepton Technologies, Inc.Inventors: Jun Pei, Mark McCord, Jun Ye, Yupeng Cui, Liqun Han
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Publication number: 20200241113Abstract: A LiDAR system includes a first lens, a second lens, a first set of light sources and a first set of detectors positioned at a focal plane of the first lens, and a second set of light sources and a second set of detectors positioned at a focal plane of the second lens. Each detector of the second set of detectors is located at a respective detector position on the focal plane of the second lens that is optically conjugate with a position of a corresponding light source of the first set of light sources. Each detector of the first set of detectors is located at a respective detector position on the focal plane of the first lens that is optically conjugate with a position of a corresponding light source of the second set of light sources.Type: ApplicationFiled: January 28, 2020Publication date: July 30, 2020Applicant: Cepton Technologies, Inc.Inventors: Roger David Cullumber, Jun Pei, Mark A. McCord
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Publication number: 20200243577Abstract: An imaging system includes a base, an imaging lens fixedly attached to the base, a board, a first set of flexures flexibly attaching the board to the base, and a detector mounted on the board and positioned at an image plane of the imaging lens. The imaging system further includes a driving mechanism configured to scan the board via the first set of flexures in a plane substantially perpendicular to an optical axis of the imaging lens, thereby scanning the detector to a plurality of image positions in the image plane. The imaging system further includes electronic circuitry configured to read out a respective electrical signal output by the detector as the detector is scanned to each respective image position of the plurality of image positions in the image plane, and generate an image based on the electrical signals read out from the detector at the plurality of image positions.Type: ApplicationFiled: January 24, 2020Publication date: July 30, 2020Applicant: Cepton Technologies, Inc.Inventors: Jun Pei, Dongyi Liao, Mark A. McCord
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Publication number: 20200241399Abstract: A light projection system includes a base, a lens, and a set of flexures flexibly attaching the lens to the base. The light projection system further includes a board fixedly attached to the base, and a light source mounted on the board and spaced apart from the lens along an optical axis of the lens. The light source is configured to emit a light beam to be projected by the lens toward a scene. The light projection system further includes a driving mechanism configured to scan the lens via the set of flexures in a plane substantially perpendicular to the optical axis of the lens, thereby scanning the light beam emitted by the light source over the scene.Type: ApplicationFiled: January 24, 2020Publication date: July 30, 2020Applicant: Cepton Technologies, Inc.Inventors: Wei Wei, Dongyi Liao, Mark A. McCord
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Patent number: 10690754Abstract: A scanning lidar system includes a fixed frame, a first platform flexibly attached to the fixed frame, a lens assembly including a first lens and a second lens mounted on the first platform, a second platform flexible attached to the fixed frame, an electro-optic assembly including a first laser source and a first photodetector mounted on the second platform, a drive mechanism mechanically coupled to the first platform and the second platform and configured to translate the first platform and the second platform with respect to the fixed frame, and a controller coupled to the drive mechanism and configured to translate the first platform to a plurality of first positions through the drive mechanism and translate the second platform to a plurality of second positions through the drive mechanism such that a motion of the second platform is substantially opposite to a motion of the first platform.Type: GrantFiled: December 13, 2017Date of Patent: June 23, 2020Assignee: Cepton Technologies, Inc.Inventors: Jun Pei, Mark McCord, Jun Ye, Yupeng Cui, Liqun Han
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Publication number: 20200108295Abstract: One embodiment of improved swim fins consists of a right foot attachment (101) with an outer right blade (111) and an inner right blade (112) which is arranged such that it does not mechanically interfere with an inner left blade (113). The blades may include a pivot mechanism (220) that allows the blades to maintain an optimal angle of attack as the swimmer moves their legs up and down. In another embodiment, a right blade (1011) and a left blade (1013) are attached to the feet of a person who is propelled by the blades above the surface of the water as they pump their feet up and down, forming a human-powered hydrofoil. Other embodiments are described and shown.Type: ApplicationFiled: October 1, 2019Publication date: April 9, 2020Inventor: Mark A. McCord
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Publication number: 20200096642Abstract: A lidar system includes a laser source, a photodetector, an emission lens, a receiving lens, and a processor. The laser source is configured to be translated through a plurality of emission locations, and to emit a plurality of laser pulses therefrom. The emission lens is configured to collimate and direct the plurality of laser pulses towards an object. The receiving lens is configured to focus the portion of each of the plurality of laser pulses reflected off of the object to a plurality of detection locations. The photodetector is configured to be translated through the plurality of detection locations, and to detect the portion of each of the plurality of laser pulses. The processor is configured to determine a time of flight for each of the plurality of laser pulses from emission to detection, and construct a three-dimensional image of the object based on the determined time of flight.Type: ApplicationFiled: September 18, 2019Publication date: March 26, 2020Applicant: Cepton Technologies, Inc.Inventors: Jun Pei, Mark A. McCord, Jun Ye
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Publication number: 20200018835Abstract: A scanning LiDAR system includes a base frame, an optoelectronic assembly, and a lens assembly. The optoelectronic assembly includes one or more laser sources and one or more photodetectors, and is fixedly attached to the base frame. The lens assembly includes one or more lenses. The one or more lenses have a focal plane. The scanning LiDAR system further includes a first flexure assembly flexibly coupling the lens assembly to the base frame. The first flexure assembly is configured such that the one or more laser sources and the one or more photodetectors are positioned substantially at the focal plane of the one or more lenses. The first flexure assembly is further configured to be flexed so as to scan the lens assembly laterally in a plane substantially perpendicular to an optical axis of the emission lens.Type: ApplicationFiled: July 8, 2019Publication date: January 16, 2020Applicant: Cepton Technologies, Inc.Inventors: Jun Pei, Mark A. McCord, Ying Xu
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Patent number: 10481266Abstract: A three-dimensional imaging system includes a lidar sensor having a first optical axis oriented at a first angle toward a scene and configured to determine a three-dimensional image of one or more first objects in the scene, and an optical three-dimensional sensor having a second optical axis oriented at a second angle toward the scene and configured to construct a three-dimensional image of one or more second objects in the scene. The first three-dimensional sensor is characterized by a first angular field of view. The second three-dimensional sensor is characterized by a second angular field of view different from the first angular field of view.Type: GrantFiled: October 7, 2016Date of Patent: November 19, 2019Assignee: Cepton Technologies, Inc.Inventors: Jun Pei, Mark A. McCord, June Ye
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Patent number: 10460905Abstract: Multi-beam scanning electron microscope inspection systems are disclosed. A multi-beam scanning electron microscope inspection system may include an electron source and a beamlet control mechanism. The beamlet control mechanism may be configured to produce a plurality of beamlets utilizing electrons provided by the electron source and deliver one of the plurality of beamlets toward a target at a time instance. The multi-beam scanning electron microscope inspection system may also include a detector configured to produce an image of the target at least partially based on electrons backscattered out of the target.Type: GrantFiled: August 24, 2016Date of Patent: October 29, 2019Assignee: KLA-Tencor CorporationInventors: Mark A. McCord, Richard R. Simmons, Doug K. Masnaghetti, Rainer Knippelmeyer