Patents by Inventor Hui-Chuan Cheng
Hui-Chuan Cheng 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).
-
Patent number: 10338391Abstract: A display subsystem for a virtual image generation system comprises a planar waveguide apparatus, an optical fiber, at least one light source configured for emitting light from a distal end of the optical fiber, and a mechanical drive assembly to which the optical fiber is mounted as a fixed-free flexible cantilever. The drive assembly is configured for displacing a distal end of the optical fiber about a fulcrum in accordance with a scan pattern, such that the emitted light diverges from a longitudinal axis coincident with the fulcrum. The display subsystem further comprises an optical modulation apparatus configured for converging the light from the optical fiber towards the longitudinal axis, and an optical waveguide input apparatus configured for directing the light from the optical modulation apparatus down the planar waveguide apparatus, such that the planar waveguide apparatus displays one or more image frames to an end user.Type: GrantFiled: October 6, 2016Date of Patent: July 2, 2019Assignee: Magic Leap, Inc.Inventors: Ivan Yeoh, Hui-Chuan Cheng, Lionel Ernest Edwin, David Tinch, William Hudson Welch
-
Publication number: 20190179149Abstract: An optical system for an augmented reality head mounted display eyepiece that is configured to deliver images to the eye wherein the optical system includes optics. The optics are disposed so as to receive light output from the light source. The optics further arranged with respect to a spatial light modulator such that the light received from the light source passes through the optics and illuminates the spatial light modulator. The light illuminating the spatial light modulator is redirected back through the optics and is coupled into at least one waveguide through at least one in-coupling optical element. At least a portion of the coupled light is ejected from at least one waveguide by at least one out-coupling optical element and directed to the eye of the user.Type: ApplicationFiled: December 10, 2018Publication date: June 13, 2019Inventors: Kevin Richard Curtis, Bradley Jay Sissom, Hui-Chuan Cheng, Miller Harry Schuck, III, Samarth Bhargava, Erik Heath Arend
-
Patent number: 10317690Abstract: Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise a scanning device for scanning one or more frames of image data. The scanning device may be communicatively coupled to an image source to receive the image data. The system may further comprise a variable focus element (VFE) operatively coupled to the scanning device for focusing the one or more frames of image data on an intermediate image plane, wherein the intermediate image plane is aligned to one of a plurality of switchable screens. The plurality of switchable screens may spread light associated with the intermediate image plane to specific viewing distances. The system may also comprise viewing optics operatively coupled to the plurality of switchable screens to relay the one or more frames of image data.Type: GrantFiled: January 30, 2015Date of Patent: June 11, 2019Assignee: MAGIC LEAP, INC.Inventor: Hui-Chuan Cheng
-
Publication number: 20190162970Abstract: Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise a spatial light modulator operatively coupled to an image source for projecting light associated with one or more frames of image data, and a variable focus element (VFE) for varying a focus of the projected light such that a first frame of image data is focused at a first depth plane, and a second frame of image data is focused at a second depth plane, and wherein a distance between the first depth plane and the second depth plane is fixed.Type: ApplicationFiled: January 29, 2019Publication date: May 30, 2019Applicant: MAGIC LEAP, INC.Inventors: William Hudson WELCH, Robert D. TEKOLSTE, Hyunsun Chung, Hui-Chuan Cheng
-
Patent number: 10234687Abstract: Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise a spatial light modulator operatively coupled to an image source for projecting light associated with one or more frames of image data, and a variable focus element (VFE) for varying a focus of the projected light such that a first frame of image data is focused at a first depth plane, and a second frame of image data is focused at a second depth plane, and wherein a distance between the first depth plane and the second depth plane is fixed.Type: GrantFiled: November 21, 2017Date of Patent: March 19, 2019Assignee: Magic Leap, Inc.Inventors: William Hudson Welch, Robert D. Tekolste, Hyunsun Chung, Hui-Chuan Cheng
-
Publication number: 20190018245Abstract: An optical device comprising may include a light turning element. The optical device can include a first surface that is parallel to a horizontal axis and a second surface opposite to the first surface. The optical device may include a light module that includes a plurality of light emitters. The light module can be configured to combine light for the plurality of emitters. The optical device can further include a light input surface that is between the first and the second surfaces and is disposed with respect to the light module to receive light emitted from the plurality of emitters. The optical device may include an end reflector that is disposed on a side opposite the light input surface. The light coupled into the light turning element may be reflected by the end reflector and/or reflected from the second surface towards the first surface.Type: ApplicationFiled: March 21, 2018Publication date: January 17, 2019Inventors: Hui-Chuan Cheng, Hyunsun Chung, Jahja I. Trisnadi, Clinton Carlisle, Chulwoo Oh, Kevin Richard Curtis
-
Publication number: 20180356639Abstract: In some embodiments, an augmented reality system includes at least one waveguide that is configured to receive and redirect light toward a user, and is further configured to allow ambient light from an environment of the user to pass therethrough toward the user. The augmented reality system also includes a first adaptive lens assembly positioned between the at least one waveguide and the environment, a second adaptive lens assembly positioned between the at least one waveguide and the user, and at least one processor operatively coupled to the first and second adaptive lens assemblies. Each lens assembly of the augmented reality system is selectively switchable between at least two different states in which the respective lens assembly is configured to impart at least two different optical powers to light passing therethrough, respectively.Type: ApplicationFiled: June 12, 2018Publication date: December 13, 2018Inventors: Jason Schaefer, Hui-Chuan Cheng, David Manly, Jahja I. Trisnadi, Clinton Carlisle, Michael Anthony Klug
-
Publication number: 20180335629Abstract: An optical device comprising may include a wedge-shaped light turning element. The optical device can include a first surface that is parallel to a horizontal axis and a second surface opposite to the first surface that is inclined with respect to the horizontal axis by a wedge angle. The optical device may include a light module that includes a plurality of light emitters. The light module can be configured to combine light for the plurality of emitters. The optical device can further include a light input surface that is between the first and the second surfaces and is disposed with respect to the light module to receive light emitted from the plurality of emitters. The optical device may include an end reflector that is disposed on a side opposite the light input surface. The second surface may be inclined such that a height of the light input surface is less than a height of the side opposite the light input surface.Type: ApplicationFiled: March 21, 2018Publication date: November 22, 2018Inventors: Hui-Chuan Cheng, Wei Chen Lin, Hyunsun Chung, Jahja I. Trisnadi, Clinton Carlisle, Kevin Richard Curtis, Chulwoo Oh
-
Publication number: 20180284585Abstract: Examples of light projector systems for directing input light from a light source to a spatial light modulator are provided. For example, an optical device is disclosed which includes a first surface having a diffractive optical element, a second surface normal to the first surface, and a third surface arranged at an angle to the second surface. The third surface may be a beam splitting surface that is reflective to light of a first state and transmissive to light of a second state. The diffractive optical element may receive an input beam made up of light having the first state, and convert the input beam into at least a first diffracted beam at a first diffraction angle such that the first diffracted beam is directed toward the third surface and is reflected by the third surface in a direction substantially parallel to the first surface.Type: ApplicationFiled: March 21, 2018Publication date: October 4, 2018Inventors: Jahja Trisnadi, Pierre St. Hilaire, Hui-Chuan Cheng, Clinton Carlisle, Michael Anthony Klug, Kevin Richard Curtis
-
Publication number: 20180284460Abstract: Illuminations systems that separate different colors into laterally displaced beams may be used to direct different color image content into an eyepiece for displaying images in the eye. Such an eyepiece may be used, for example, for an augmented reality head mounted display. Illumination systems may be provided that utilize one or more waveguides to direct light from a light source towards a spatial light modulator. Light from the spatial light modulator may be directed towards an eyepiece. Some aspects of the invention provide for light of different colors to be outcoupled at different angles from the one or more waveguides and directed along different beam paths.Type: ApplicationFiled: March 21, 2018Publication date: October 4, 2018Inventors: Hui-Chuan Cheng, Chulwoo Oh, Clinton Carlisle, Michael Anthony Klug, William Molteni
-
Publication number: 20180275410Abstract: Methods and systems for depth-based foveated rendering in the display system are disclosed. The display system may be an augmented reality display system configured to provide virtual content on a plurality of depth planes using different wavefront divergence. Some embodiments include monitoring eye orientations of a user of a display system based on detected sensor information. A fixation point is determined based on the eye orientations, the fixation point representing a three-dimensional location with respect to a field of view. Location information of virtual objects to present is obtained, with the location information indicating three-dimensional positions of the virtual objects. Resolutions of at least one virtual object is adjusted based on a proximity of the at least one virtual object to the fixation point. The virtual objects are presented to a user by display system with the at least one virtual object being rendered according to the adjusted resolution.Type: ApplicationFiled: March 21, 2018Publication date: September 27, 2018Inventors: Ivan Li Chuen Yeoh, Lionel Ernest Edwin, Nicole Elizabeth Samec, Nastasja U. Robaina, Vaibhav Mathur, Tim Dalrymple, Jason Schaefer, Clinton Carlisle, Hui-Chuan Cheng, Chulwoo Oh, Philip Premysler, Xiaoyang Zhang, Adam Carlson
-
Publication number: 20180234675Abstract: An eyepiece unit for projecting an image to an eye of a viewer includes an eyepiece having a world side and a viewer side opposite the world side. The eyepiece unit also includes a polarizer disposed adjacent the world side of the eyepiece. In an example, the polarizer comprises a wire grid polarizer. In some embodiments, the wire grid polarizer is operable to transmit p-polarized light and reflect s-polarized light. In some embodiments, the polarizer can include an absorptive polarizer.Type: ApplicationFiled: February 14, 2018Publication date: August 16, 2018Applicant: Magic Leap, Inc.Inventors: Hui-Chuan CHENG, Ivan Li Chuen YEOH, Lionel Ernest EDWIN
-
Publication number: 20180231771Abstract: An eyepiece unit with optical filters includes a set of waveguide layers including a first waveguide layer and a second waveguide layer. The first waveguide layer is disposed in a first lateral plane and includes a first incoupling diffractive element disposed at a first lateral position, a first waveguide, and a first outcoupling diffractive element. The second waveguide layer is disposed in a second lateral plane adjacent to the first lateral plane and includes a second incoupling diffractive element disposed at a second lateral position, a second waveguide, and a second outcoupling diffractive element. The eyepiece unit also includes a set of optical filters including a first optical filter positioned at the first lateral position and operable to attenuate light outside a first spectral band and a second optical filter positioned at the second lateral position and operable to attenuate light outside a second spectral band.Type: ApplicationFiled: February 15, 2018Publication date: August 16, 2018Applicant: Magic Leap, Inc.Inventors: Miller Harry SCHUCK, III, Kevin Richard CURTIS, Hui-Chuan CHENG, Bradley Jay SISSOM, Paul M. GRECO, William Hudson WELCH, Eric C. BROWY
-
Publication number: 20180180817Abstract: An eyepiece for projecting an image to an eye of a viewer includes a first planar waveguide positioned in a first lateral plane, a second planar waveguide positioned in a second lateral plane adjacent the first lateral plane, and a third planar waveguide positioned in a third lateral plane adjacent the second lateral plane. The first waveguide includes a first diffractive optical element (DOE) coupled thereto and disposed at a lateral position. The second waveguide includes a second DOE coupled thereto and disposed at the lateral position. The third waveguide includes a third DOE coupled thereto and disposed at the lateral position. The eyepiece further includes a first optical filter disposed between the first waveguide and the second waveguide at the lateral position, and a second optical filter positioned between the second waveguide and the third waveguide at the lateral position.Type: ApplicationFiled: December 20, 2017Publication date: June 28, 2018Applicant: Magic Leap, Inc.Inventors: Ivan Li Chuen YEOH, Lionel Ernest EDWIN, Hui-Chuan CHENG
-
Publication number: 20180149873Abstract: A method and system for increasing dynamic digitized wavefront resolution, i.e., the density of output beamlets, can include receiving a single collimated source light beam and producing multiple output beamlets spatially offset when out-coupled from a waveguide. The multiple output beamlets can be obtained by offsetting and replicating a collimated source light beam. Alternatively, the multiple output beamlets can be obtained by using a collimated incoming source light beam having multiple input beams with different wavelengths in the vicinity of the nominal wavelength of a particular color. The collimated incoming source light beam can be in-coupled into the eyepiece designed for the nominal wavelength. The input beams with multiple wavelengths take different paths when they undergo total internal reflection in the waveguide, which produces multiple output beamlets.Type: ApplicationFiled: November 29, 2017Publication date: May 31, 2018Applicant: Magic Leap, Inc.Inventors: Lionel Ernest EDWIN, Ivan Li Chuen YEOH, Brian T. SCHOWENGERDT, Kevin Richard CURTIS, William Hudson WELCH, Pierre ST. HILAIRE, Hui-Chuan CHENG
-
Publication number: 20180095284Abstract: Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise a spatial light modulator operatively coupled to an image source for projecting light associated with one or more frames of image data, and a variable focus element (VFE) for varying a focus of the projected light such that a first frame of image data is focused at a first depth plane, and a second frame of image data is focused at a second depth plane, and wherein a distance between the first depth plane and the second depth plane is fixed.Type: ApplicationFiled: November 21, 2017Publication date: April 5, 2018Applicant: MAGIC LEAP, INC.Inventors: William Hudson Welch, Robert D. Tekolste, Hyunsun Chung, Hui-Chuan Cheng
-
Publication number: 20180052320Abstract: An artifact mitigation system includes a projector assembly, a set of imaging optics optically coupled to the projector assembly, and an eyepiece optically coupled to the set of imaging optics. The eyepiece includes an incoupling interface. The artifact mitigation system also includes an artifact prevention element disposed between the set of imaging optics and the eyepiece. The artifact prevention element includes a linear polarizer, a first quarter waveplate disposed adjacent the linear polarizer, and a color select component disposed adjacent the first quarter waveplate.Type: ApplicationFiled: August 22, 2017Publication date: February 22, 2018Applicant: Magic Leap, Inc.Inventors: Kevin Curtis, Hui-Chuan Cheng, Paul M. Greco, William Hudson Welch, Eric C. Browy, Miller Schuck, Bradley Jay Sissom
-
Patent number: 9857591Abstract: Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise a spatial light modulator operatively coupled to an image source for projecting light associated with one or more frames of image data, and a variable focus element (VFE) for varying a focus of the projected light such that a first frame of image data is focused at a first depth plane, and a second frame of image data is focused at a second depth plane, and wherein a distance between the first depth plane and the second depth plane is fixed.Type: GrantFiled: May 29, 2015Date of Patent: January 2, 2018Assignee: Magic Leap, Inc.Inventors: William Hudson Welch, Robert D. Tekolste, Hyunsun Chung, Hui-Chuan Cheng
-
Publication number: 20170248790Abstract: An imaging system includes a light source configured to generate a light beam. The system also includes first and second light guiding optical elements having respective first and second entry portions, and configured to propagate at least respective first and second portions of the light beam by total internal reflection. The system further includes a light distributor having a light distributor entry portion, a first exit portion, and a second exit portion. The light distributor is configured to direct the first and second portions of the light beam toward the first and second entry portions, respectively. The light distributor entry portion and the first exit portion are aligned along a first axis. The light distributor entry portion and the second exit portion are aligned along a second axis different from the first axis.Type: ApplicationFiled: February 27, 2017Publication date: August 31, 2017Applicant: MAGIC LEAP, INC.Inventor: Hui-Chuan Cheng
-
Publication number: 20170212351Abstract: Images perceived to be substantially full color or multi-colored may be formed using component color images that are distributed in unequal numbers across a plurality of depth planes. The distribution of component color images across the depth planes may vary based on color. In some embodiments, a display system includes a stack of waveguides that each output light of a particular color, with some colors having fewer numbers of associated waveguides than other colors. The stack of waveguides may include by multiple pluralities (e.g., first and second pluralities) of waveguides, each configured to produce an image by outputting light corresponding to a particular color. The total number of waveguides in the second plurality of waveguides is less than the total number of waveguides in the first plurality of waveguides, and may be more than the total number of waveguides in a third plurality of waveguides, in embodiments where three component colors are utilized.Type: ApplicationFiled: January 5, 2017Publication date: July 27, 2017Inventors: Brian T. Schowengerdt, Hong Hua, Hui-Chuan Cheng, Christophe Peroz