Abstract: A display system includes a display screen, a plurality of subsystems, and a control system. The plurality of subsystems each generate an excitation beam that carries image information and a servo beam. For each subsystem, a servo feedback detector receives feedback light of the servo beam, detects the servo feedback mark, and produces a monitor signal. For each subsystem, a control unit is operable to adjust optical energies carried by the excitation beam using a scaling factor. Two adjacent subsystems of the plurality of subsystems are configured such that in operation the areas scanned by the excitation beams of the two subsystems overlap in an overlap region. The control system is configured to determine a range of the overlap region based on the monitor signals from the servo feedback detectors of the adjacent subsystems, and to determine the scaling factors for the excitation beams for the overlap region.
Abstract: A broadcasting signal receiving apparatus includes an input receiver configured to receive a user's input selecting a channel among a plurality of channels; a first tuner configured to tune to the channel selected by the user's input and receive a broadcast signal of the tuned channel; and a controller configured to control the first tuner to tune to a first channel and receive a broadcast signal of the first channel when a user makes the first input, and to control the first tuner to tune to a second channel and receive a broadcast signal of the second channel when a user makes a second input within a predetermined period of time after receiving the first input, wherein the first channel corresponds to the first input, and the second channel corresponds to a combination of the first input and the second input.
Abstract: The present technology relates to a solid-state imaging device and an electronic device that enable a reduction in the voltage of an AD conversion circuit. A solid-state imaging device includes: a plurality of pixels; a vertical signal line configured to output a pixel signal of the pixel; and a clipping circuit configured to limit a voltage of the vertical signal line to a predetermined voltage. The clipping circuit includes a transistor configured to generate the predetermined voltage in accordance with a voltage of a gate, and a sample holding circuit configured to hold a reset level of the pixel that is output to the vertical signal line, and input the reset level to the gate of the transistor. The present technology can be applied to a CMOS image sensor, for example.
Abstract: Navigation and tissue capture systems and methods for navigation to and/or capture of selected tissue using the innate electrical activity of the selected tissue and/or other tissue are described. In the context of left atrial appendage closure, the systems and methods can be used to navigate to the left atrial appendage and capture/control the appendage while a closure instrument (suture, clip, ring) is placed over the appendage and tightened down or a closure method (ablation, cryogenic procedures, stapling, etc.) is performed to close the left atrial appendage. The use of innate electrical activity for navigating devices may be used in connection with other tissues and/or areas of the body.
Type:
Grant
Filed:
January 26, 2017
Date of Patent:
December 18, 2018
Assignees:
MAYO FOUNDATION FOR MEDICAL EDUCATION AND RESEARCH, AEGIS MEDICAL INNOVATIONS INC.
Inventors:
Paul A. Friedman, Charles J. Bruce, Samuel J. Asirvatham, Trevor A. McCaw, Elliot Y. K. Hong
Abstract: Preferred or preferential logo activation, where a particular logo may become active or activated, in response to a command to do so, so that the status of a particular logo may change from a visually imperceptible or unseen state to visually perceptible or seen state.
Abstract: A camera for a vision system of a vehicle includes a front housing portion, a circuit board and a rear housing portion. The front housing portion includes a lens and the rear housing portion includes first and second connectors for electrically connecting to a vehicle wire harness when the camera is disposed at a vehicle. The circuit board includes circuitry established thereat, with the circuitry being associated with an imager of the camera. The first connector includes a multi-pin connector portion having at least one terminal for electrically connecting to at least one first circuit element at the circuit board. The second connector includes a coaxial cable connector portion that receives a connecting end of a coaxial cable for electrical connection to at least one second circuit element at the circuit board. The first and second connectors are at least in part molded at the rear housing portion.
Type:
Grant
Filed:
March 7, 2016
Date of Patent:
November 13, 2018
Assignee:
MAGNA ELECTRONICS INC.
Inventors:
Jonathan D. Conger, Steven V. Byrne, Nazar F. Bally, Achim Newiger, Christian Mai
Abstract: The embodiments described herein provide scanning laser devices that include an output optic configured to reduce image distortion. Specifically, the output optic is configured to reduce the distortions that could otherwise occur at relatively short projection distances, while also providing good image quality at relatively long projection distances. In general, the output optic includes a prism having a first surface, a second surface, and a third surface. The prism is configured such that the laser light interacts with each of these three surfaces while being transmitted through the prism and outputted to the display surface. The first, second, and third surfaces are each formed to have a freeform rotationally asymmetric shape, and these freeform rotationally asymmetric shapes are configured to work together to correct distortion in projected images.
Type:
Grant
Filed:
June 23, 2017
Date of Patent:
October 23, 2018
Assignee:
Microvision, Inc.
Inventors:
Matthieu Saracco, Roeland Collet, Alga Lloyd Nothern, III, Nenad Nestorovic, Jack H. Schmidt
Abstract: An extended-reach tool system may include a gimbal positioned adjacent a surface opening; an extended-reach arm having a tool and engaging the gimbal; a sensor system for measuring a position of the arm relative to the gimbal and a position and spatial orientation of the tool relative to the opening; a computer control that converts one or both of the rotational and linear measurements from the sensor system into spatial location representations for virtual representations of 3-D models of the workpiece and tool, determines a position and orientation of the tool relative to the opening and workpiece, and adjusts the virtual representations of the 3-D models of the workpiece and tool as the arm and tool move relative to the workpiece, representing a real-time orientation of the tool relative to the workpiece; and a display for displaying the virtual representations of the 3-D models of the workpiece and tool.
Type:
Grant
Filed:
November 22, 2016
Date of Patent:
October 23, 2018
Assignee:
The Boeing Company
Inventors:
James J. Troy, Gary E. Georgeson, Paul S. Rutherford, Nathan R. Smith
Abstract: This disclosure is generally directed to a system and method for diagnosing display capabilities, such as resolution, frame rate, and content protection, of display devices and improving the performance of the display devices by optimizing the display settings based on the results of the diagnosing. Display diagnostics receives information from display devices in response to tests performed on the display devices. The display diagnostics analyzes the information and provides recommended display settings related to the display device for optimizing the display of video content on the display device.
Type:
Grant
Filed:
March 21, 2017
Date of Patent:
October 23, 2018
Assignee:
ROKU, INC.
Inventors:
David Mendenhall, Jason Silver, Wade Brown, Lloyd Klarke, Sukh Gosal, Ali Vassigh
Abstract: A scanning projector includes one or more scanning mirrors that reflect a light beam to create an image. The beam is created by multiple laser light sources, at least two of which create light at substantially the same color. The multiple laser light sources are used alternately to illuminate successive pixels, lines, and/or frames. Speckle reduction is achieved because of spatial overlap of the light beams produced by the multiple laser light sources.
Type:
Grant
Filed:
November 30, 2016
Date of Patent:
October 23, 2018
Assignee:
Microvision, Inc.
Inventors:
Dale Eugene Zimmerman, Matthieu Saracco, Jonathan A. Morarity
Abstract: The present invention relates to a system and method for regenerating image contents in a theater, and more specifically, to an image management system and method for regenerating image contents in a theater, which can decode high-resolution image contents and store the decoded image contents in a shared storage unit so that a plurality of slave devices may read image data from the shared storage unit and perform data processing or image processing on needed portions.
Abstract: Various arrangements are described for ignoring inadvertent remote control key presses. A remote control may detect a first key press, the first key press being linked with a first command. The remote control may measure an orientation of the remote control with respect to a direction of gravity. The remote control may compare the measured orientation of the remote control with threshold orientation angles. The first command may be ignored based on comparing the measured orientation of the remote control with the threshold orientation angles.
Abstract: Various embodiments facilitate minimization of multimedia content currently being shown on a display in response to a mute command. In a first embodiment, a receiver is configured to provide multimedia content to an entertainment system and obtain commands from a control device. A user presses the control device's mute button and a mute command is transmitted from the control device to the receiver and the entertainment system. In response to the mute command, the entertainment system turns off its own audio and the receiver minimizes multimedia content currently being provided by the receiver to the entertainment system. In a second embodiment, the mute command is transmitted from the control device to the receiver. In response to the mute command, the receiver mutes and minimizes multimedia content currently being provided by the receiver to the entertainment system.
Abstract: A device applied to a display includes a receiving circuit, a detecting circuit, an image processing circuit and a response time enhancing circuit. The receiving circuit receives an input image signal. The detecting circuit detects a frame rate of image data of a frame in the input image signal. The image processing circuit performs image processing on the image data of the frame to generate a target pixel value of multiple pixels in the frame. The response time enhancing circuit determines multiple adjusted pixel values of the multiple pixels according to the frame rate, and outputs the adjusted pixel values to a display panel. For a pixel, the adjusted pixel values generated for the pixel under different frame rates are different.
Abstract: A micro-electro-mechanical device, wherein a platform is formed in a top substrate and is configured to turn through a rotation angle. The platform has a slit and faces a cavity. A plurality of integrated photodetectors is formed in a bottom substrate so as to detect the light through the slit and generate signals correlated to the light through the slit. The area of the slit varies with the rotation angle of the platform and causes diffraction, more or less marked as a function of the angle. The difference between the signals of two photodetectors arranged at different positions with respect to the slit yields the angle.
Abstract: An audio/video (A/V) hub includes a state-detection circuit coupled to at least one pin in a high-definition multimedia-interface input connector, which can electrically couple to an entertainment device. When electrically coupled to the entertainment device, the state-detection circuit establishes a ground loop between the electronic device and the entertainment device. A control circuit in the A/V hub detects whether there is electrical coupling with the entertainment device using the state-detection circuit. When the electrical coupling is detected, the control circuit provides a set of first control commands associated with different types of entertainment devices until, in response, content activity is detected via the input connector.
Abstract: An audio/video (A/V) hub includes a state-detection circuit coupled to at least one pin in a high-definition multimedia-interface input connector, which can electrically couple to an entertainment device. When electrically coupled to the entertainment device, the state-detection circuit establishes a ground loop between the electronic device and the entertainment device. A control circuit in the A/V hub detects whether there is electrical coupling with the entertainment device using the state-detection circuit. When the electrical coupling is detected, the control circuit provides a set of first control commands associated with different types of entertainment devices until, in response, content activity is detected via the input connector.
Abstract: The present invention relates to automatic correction of an area on which contents are projected by a projector, i.e., a so-called projection area, in a theater, and specifically, to a method and system for automatically correcting a projection area by photographing a projection area in the theater using a photographing device such as a camera or the like, and matching the image photographed like this, coordinates of a projection area projected by the projector and finally a contents image projected on a projection surface such as a screen, a wall or the like so that eventually the contents image may be properly output in an effective projection area of a projection surface in the theater.
Abstract: Various patient monitoring systems can include a sensor configured to collect three dimensional information. The systems can identify a location of a patient support surface based on the three dimensional information. The systems can set a two dimensional planar threshold based on the patient support surface. The systems can identify a patient location above the patient support surface based on the three dimensional information and compare the patient location to the two dimensional planar threshold. Exceeding the threshold can be indicative of a high risk of a patient fall. An alert can be generated based on the threshold being exceeded. The systems can repeat the identification of the patient support surface location and the setting of the threshold to account for changes in the patient area.
Type:
Grant
Filed:
January 18, 2017
Date of Patent:
August 14, 2018
Assignee:
CareView Communications, Inc.
Inventors:
Matt Clark, Derek del Carpio, Kenneth Chapman
Abstract: An image processing device includes a luminance signal expansion unit which expands a luminance signal, and a chroma signal correction unit which corrects a chroma signal in a manner adjusted to the expansion of the luminance signal.