Product
Patsnap Eureka
For R&D, Patsnap Eureka makes reading and utilizing patents & technical documents easy.
Patsnap Eureka AIR
Designed for self-driven R&D workflows. Generate viable solutions, solve complex R&D challenges, empower your innovation with AI.
Patsnap Eureka Materials
Designed for material experts only. Revolutionize your material R&D, from search, analyze, to developing new materials.
Feature
TechResearch
Generate reliable direction feasibility study reports for your R&D in just a few steps.
TechSeek
Discover and master advanced knowledge NOW. Basics, ideas, possibilities, all at once.
TechMind
As an expert in R&D Theories, TechMind can generates customized viable solutions instantly.
TechRisk
Analyze your overall solution with one click, know your potential R&D risks in advance.
TechMonitor
Get weekly tech updates, stay abreast of the latest tech innovations and key insights.
Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
685 results about "Augmented reality systems" patented technology
Efficacy Topic
Property
Owner
Technical Advancement
Application Domain
Technology Topic
Technology Field Word
Patent Country/Region
Patent Type
Patent Status
Application Year
Inventor
Augmented reality systems are similar to virtual reality systems but, instead of immersing someone in a different reality, augmented reality helps users in the real world. Headset- or glasses-based augmented reality systems change the user’s worldview and are usually more immersive than other types.
Anchoring virtual images to real world surfaces in augmented reality systems
ActiveUS20120249741A1Television system detailsColor television detailsSensor arrayAugmented reality systems
A head mounted device provides an immersive virtual or augmented reality experience for viewing data and enabling collaboration among multiple users. Rendering images in a virtual or augmented reality system may include capturing an image and spatial data with a body mounted camera and sensor array, receiving an input indicating a first anchor surface, calculating parameters with respect to the body mounted camera and displaying a virtual object such that the virtual object appears anchored to the selected first anchor surface. Further operations may include receiving a second input indicating a second anchor surface within the captured image that is different from the first anchor surface, calculating parameters with respect to the second anchor surface and displaying the virtual object such that the virtual object appears anchored to the selected second anchor surface and moved from the first anchor surface.
Owner:QUALCOMM INC
Modular mobile connected pico projectors for a local multi-user collaboration
The various embodiments include systems and methods for rendering images in a virtual or augmented reality system that may include capturing scene images of a scene in a vicinity of a first and a second projector, capturing spatial data with a sensor array in the vicinity of the first and second projectors, analyzing captured scene images to recognize body parts, and projecting images from each of the first and the second projectors with a shape and orientation determined based on the recognized body parts. Additional rendering operations may include tracking movements of the recognized body parts, applying a detection algorithm to the tracked movements to detect a predetermined gesture, applying a command corresponding to the detected predetermined gesture, and updating the projected images in response to the applied command.
Owner:QUALCOMM INC
Dynamic vergence and focus control for head-mounted displays
Systems and methods for dynamically controlling vergence and focus for a see-through head-mounted display (ST-HMD) used as part of an augmented reality (AR) system are disclosed. The ST-HMD (40) allows a user (30) to view left and right images (150L, 150R) through corresponding left and right eyepieces (104L, 104R) so that a single virtual object (150V) based on the right and left images as seen at a real object such as a screen (20). When the user moves relative to the real object, however, the vergence changes and the virtual object does not appear in focus at the real object. Changes in the vergence are compensated by tracking the user's head position with a tracking unit (350) and providing the tracking data to a controller (180). Based on the tracking data and the interpupilary distance (IPD) of the user, the controller calculates the offset (H) needed to be imparted to the images formed in the eyepieces to maintain the vergence of the virtual object at the real object even when the user's position changes relative to the real object.
Owner:OPTICS 1
Augmented reality system and method
ActiveUS20040189675A1Programme controlProgramme-controlled manipulatorGraphicsTelecommunications link
An augmented reality system comprising: a camera (19) for capturing an image, the camera being movably locatee at a local site, a registering unit (9), generating graphics and registering the generated graphics to the image from the camera, to provide a composite augmented reality image, a display device (5) located at a remote site, physically separated from the local site, for displaying a view comprising the composite augmented reality image, and a communication link (1), for communication of information between the local and the remote site, and a specifying unit (7), for specification of a position and an orientation in the remote site. The registering unit is adapted for registering the generated graphical representation to the image in dependence of the specified position and orientation, and the camera is arranged such that its position and orientation is dependent on the specified position and orientation.
Owner:ABB (SCHWEIZ) AG
Augmented reality system for position identification
A system, method, and computer program product for automatically combining computer-generated imagery with real-world imagery in a portable electronic device by retrieving, manipulating, and sharing relevant stored videos, preferably in real time. A video is captured with a hand-held device and stored. Metadata including the camera's physical location and orientation is appended to a data stream, along with user input. The server analyzes the data stream and further annotates the metadata, producing a searchable library of videos and metadata. Later, when a camera user generates a new data stream, the linked server analyzes it, identifies relevant material from the library, retrieves the material and tagged information, adjusts it for proper orientation, then renders and superimposes it onto the current camera view so the user views an augmented reality.
Owner:SONY CORP
Augmented reality system for displaying patient data
ActiveUS20180300919A1Small sizeReduce contentMedical simulationImage enhancementAugmented reality systems
System and methods are provided for augmented reality displays for medical and physiological monitoring. Augmented reality user interfaces are virtually pinned to a physical device, a location, or to a patient. An augmented reality position determination process determines the presentation of user interfaces relative to reference positions and reference objects. Detection of gestures causes the augmented reality users interfaces to be updated, such as pinning a user interface to a device, location, or patient. Looking away from an augmented reality user interface causes the user interface to minimize or disappear in an augmented reality display. An augmented reality gesture detection process determines gestures based on captured image data and computer vision techniques performed on the image data.
Owner:MASIMO CORP
Augmented reality system controlled by probe position
InactiveUS7493153B2Easily and quickly to interactReduce the amount requiredSurgical navigation systemsSurgical systems user interfaceDisplay deviceAugmented reality systems
A guide system for use by a user who performs an operation in a defined three-dimensional region is disclosed, the system including a data processing apparatus for generating images of the subject of the operation in co-registration with the subject, a display for displaying the images to the user, a probe having a position which is visible to the user, and a tracking unit for tracking the location of the probe by the system and transmitting that location to the data processing apparatus, the data processing apparatus being arranged, upon the user moving the probe to a selection region outside and surrounding the defined region, to generate one or more virtual buttons, each of the buttons being associated with a corresponding instruction to the system, the data processing apparatus being arranged to register a selection by the user of any of the virtual buttons, the selection including positioning of the probe in relation to the apparent position of that virtual button, and to modify the computer-generated image based on the selection.
Owner:VOLUME INTERACTIONS PTE
Assembling method, monitoring method, communication method, augmented reality system and computer program product
ActiveUS20130278635A1Reduce probabilityLow costProgramme controlCathode-ray tube indicatorsAugmented reality systemsComputer program
An augmented reality system, an assembling method for assembling a first set-up component to a second set-up component under the assistance of an augmented reality system, a method for monitoring a set-up component and a method for transmitting data from or to a set-up component are provided. The augmented realty system may capture a variable marker associated with the respective set-up component. The augmented reality system can recognize the location and / or status of the variable marker and thus decide whether the connection between the first and second set-up component is established correctly or not. Further, data can be transmitted by the variable marker monitored by the augmented reality system.
Owner:SARTORIUS STEDIM BIOTECH GMBH
Accuracy evaluation of video-based augmented reality enhanced surgical navigation systems
Systems and methods for measuring overlay error in a video-based augmented reality enhanced surgical navigation system are presented. In exemplary embodiments of the present invention the system and method include providing a test object, creating a virtual object which is a computer model of the test object, registering the test object, capturing images of control points on the test object at various positions within an augmented reality system's measurement space, and extracting positions of control points on the test object from the captured images, calculating the positions of the control points in virtual image, and calculating the positional difference of positions of corresponding control points between the respective video and virtual images of the test object. The method and system can further assess if the overlay accuracy meets an acceptable standard. In exemplary embodiments of the present invention a method and system are provided to identify the various sources of error in such systems and assess their effects on system accuracy. In exemplary embodiments of the present invention, after the accuracy of an AR system is determined, the AR system may be used as a tool to evaluate the accuracy of other processes in a given application, such as registration error.
Owner:BRACCO IMAGINIG SPA
Method of and system for determining inaccuracy information in an augmented reality system
In a method of and a system for determining inaccuracy information (600) in positioning a data model (1) of virtual information in an augmented reality system, the data model (1) is projected to the image plane of a display device (4) for mixing with visual impressions of a real environment. The inaccuracy information is calculated from parameters (10-0 to 50-2, 40, 50, 60) in a mapping computing process by means of which the data model (1) is projected to the image plane of the display device (4). It is thus possible to indicate relative precise inaccuracy information in positioning the data model in an augmented reality system.
Owner:APPLE INC
Virtual and augmented reality systems and methods
ActiveUS20170010488A1High diffraction efficiencyReduce sensitivityPlanar/plate-like light guidesNon-linear opticsWavefrontBeam steering
Methods of manufacturing a liquid crystal device including depositing a layer of liquid crystal material on a substrate and imprinting a pattern on the layer of liquid crystal material using an imprint template are disclosed. The liquid crystal material can be jet deposited. The imprint template can include surface relief features, Pancharatnam-Berry Phase Effect (PBPE) structures or diffractive structures. The liquid crystal device manufactured by the methods described herein can be used to manipulate light, such as for beam steering, wavefront shaping, separating wavelengths and / or polarizations, and combining different wavelengths and / or polarizations.
Owner:MAGIC LEAP
Augmented reality glasses for medical applications and corresponding augmented reality system
Owner:BADIALI GIOVANNI +3
Augmented Reality Simulator
ActiveUS20150260474A1Lower latencyImprove securityInput/output for user-computer interactionCosmonautic condition simulationsDisplay deviceVideo image
An augmented reality system in which video imagery of a physical environment is combined with video images output by a game engine by the use of a traveling matte which identifies portions of the visible physical environment by techniques such as Computer vision or chroma keying and replaces them with the video images output by the video game engine. The composited imagery of the physical environment and the video game imagery is supplied to a trainee through a headmounted display screen. Additionally, peripheral vision is preserved either by providing complete binocular display to the limits of peripheral vision, or by providing a visual path to the peripheral vision which is matched in luminance to higher resolution augmented reality images provided by the binocular displays. A software / hardware element comprised of a server control station and a controller onboard the trainee performs the modeling, scenario generation, communications, tracking, and metric generation.
Owner:LINEWEIGHT
Method of and system for determining inaccuracy information in an augmented reality system
In a method of and a system for determining inaccuracy information (600) in positioning a data model (1) of virtual information in an augmented reality system, the data model (1) is projected to the image plane of a display device (4) for mixing with visual impressions of a real environment. The inaccuracy information is calculated from parameters (10-0 to 50-2, 40, 50, 60) in a mapping computing process by means of which the data model (1) is projected to the image plane of the display device (4). It is thus possible to indicate relative precise inaccuracy information in positioning the data model in an augmented reality system.
Owner:APPLE INC
See-through computer display systems
ActiveUS20160116738A1Input/output for user-computer interactionLight source combinationsDisplay deviceThrough transmission
Owner:OSTERHOUT GROUP INC
See-through computer display systems
ActiveUS20160109713A1Improve transmittanceInput/output for user-computer interactionLighting elementsDisplay deviceThrough transmission
Aspects of the present invention relate to methods and systems for a head-worn computer with a content display where the head-worn computer can be changed from an augmented reality system where there is relatively high see-through transmission through the display to a virtual reality system where the is no or relatively little see-through transmission through the display.
Owner:OSTERHOUT GROUP INC
Interactive and shared augmented reality system and method having local and remote access
Owner:ABB (SCHWEIZ) AG
System and Method for Providing Augmented Reality
InactiveUS20090244097A1No investmentFault toleranceTelevision system detailsDirection finders using radio wavesPosition sensorAugmented reality systems
A system and method for providing augmented reality. A method comprises retrieving a specification of an environment of the electronic device, capturing optical information of the environment of the electronic device, and computing the starting position / orientation from the captured optical information and the specification. The use of optical information in addition to positional information from a position sensor to compute the starting position may improve a viewer's experience with a mobile augmented reality system.
Owner:TEXAS INSTR INC
System for the rendering of shared digital interfaces relative to each user's point of view
A head mounted device provides an immersive virtual or augmented reality experience for viewing data and enabling collaboration among multiple users. Rendering images in a virtual or augmented reality system may include capturing an image and spatial data with a body mounted camera and sensor array, receiving input indicating a first anchor surface, calculating parameters with respect to the body mounted camera and displaying a virtual object such that the virtual object appears anchored to the selected first anchor surface. Further rendering operations may include receiving a second input indicating a second anchor surface within the captured image that is different from the first anchor surface, calculating parameters with respect to the second anchor surface and displaying the virtual object such that the virtual object appears anchored to the selected second anchor surface and moved from the first anchor surface.
Owner:QUALCOMM INC
Augmented reality traffic control center
InactiveUS20050231419A1More dataCathode-ray tube indicatorsInput/output processes for data processingJet aeroplaneInfrared
In an exemplary embodiment, an augmented reality system for traffic control combines data from a plurality of sensors to display, in real time, information about traffic control objects, such as airplanes. The sensors collect data, such as infrared, ultraviolet, and acoustic data. The collected data is weather-independent due to the combination of different sensors. The traffic control objects and their associated data are then displayed visually to the controller regardless of external viewing conditions. The system also responds to the controller's physical gestures or voice commands to select a particular traffic control object for close-up observation or to open a communication channel with the particular traffic control object.
Owner:LOCKHEED MARTIN CORP +1
Augmented reality-based system and method to show the location of personnel and sensors inside occluded structures and provide increased situation awareness
An augmented reality system provides enhanced situational information to personnel located within an environment. A tracking system obtains viewpoint information corresponding to a real-time view of said environment. A processing system receives information from one or more sensors. Information includes sensor location information and status information about the environment and personnel therein. The processing system generates graphics using the sensor location information and the viewpoint information. Graphics include visual representations of said status information. A display displays the generated graphics on a display at a supervisor station that is outside of said environment such that graphics are superimposed on the real-time view.
Owner:EXCELIS INC
Augmented reality system and method with mobile and interactive function for multiple users
InactiveUS20060284791A1Cathode-ray tube indicatorsInput/output processes for data processingDisplay deviceDigital image data
An augmented reality system with mobile and interactive functions for multiple users includes two major portions: a computer system for handling augmented reality functions, and a user system for each user. The computer system for handling augmented reality functions has very powerful functionality for processing digital image data and transforming the digital image data into a three-dimensional virtual image for each user system. The user system mainly includes a Head-Mounted Display (HMD), a microphone and a PDA. A user can see the virtual image from the HMD and use the microphone or the PDA for communication with other users.
Owner:NAT APPLIED RES LAB
Spatial association between virtual and augmented reality
InactiveUS20110316845A1Enhanced interactionCathode-ray tube indicators3D-image renderingObject basedUser input
One embodiment of the present invention provides a system that facilitates interaction between two entities located away from each other. The system includes a virtual reality system, an augmented reality system, and an object-state-maintaining mechanism. During operation, the virtual reality system displays an object associated with a real-world object. The augmented reality system displays the object based on a change to the state of the object. The object-state-maintaining mechanism determines the state of the object and communicates a state change to the virtual reality system, the augmented reality system, or both. A respective state change of the object can be based on one or more of: a state change of the real-world object; a user input to the virtual reality system or the augmented reality system; and an analysis of an image of the real-world object.
Owner:PALO ALTO RES CENT INC
Selective hand occlusion over virtual projections onto physical surfaces using skeletal tracking
ActiveUS20120249590A1Television system detailsCharacter and pattern recognitionSensor arrayObject based
A head mounted device provides an immersive virtual or augmented reality experience for viewing data and enabling collaboration among multiple users. Rendering images in a virtual or augmented reality system may include performing operations for capturing an image of a scene in which a virtual object is to be displayed, recognizing a body part present in the captured image, and adjusting a display of the virtual object based upon the recognized body part. The rendering operations may also include capturing an image with a body mounted camera, capturing spatial data with a body mounted sensor array, recognizing objects within the captured image, determining distances to the recognized objects within the captured image, and displaying the virtual object on a head mounted display.
Owner:QUALCOMM INC
Real-time interactive augmented reality system and method and recording medium storing program for implementing the method
InactiveUS20110216090A1Improve immersionImmersive realizationCharacter and pattern recognitionCathode-ray tube indicatorsProgram planningDigital content
The present invention relates to a real-time interactive system and method regarding an interactive technology between miniatures in real environment and digital contents in virtual environment, and a recording medium storing a program for performing the method. An exemplary embodiment of the present invention provides a real-time interactive augmented reality system including: an input information acquiring unit acquiring input information for an interaction between real environment and virtual contents in consideration of a planned story; a virtual contents determining unit determining the virtual contents according to the acquired input information; and a matching unit matching the real environment and the virtual contents by using an augmented position of the virtual contents acquired in advance. According to the present invention, an interaction between the real environment and the virtual contents can be implemented without tools, and improved immersive realization can be obtained by augmentation using natural features.
Owner:GWANGJU INST OF SCI & TECH
Augmented reality systems and methods with variable focus lens elements
ActiveUS20170293145A1Input/output for user-computer interactionNon-optical adjunctsRefractive errorOphthalmology
An augmented reality display system includes a pair of variable focus lens elements that sandwich a waveguide stack. One of the lens elements is positioned between the waveguide stack and a user's eye to correct for refractive errors in the focusing of light projected from the waveguide stack to that eye. The lens elements may also be configured to provide appropriate optical power to place displayed virtual content on a desired depth plane. The other lens element is between the ambient environment and the waveguide stack, and is configured to provide optical power to compensate for aberrations in the transmission of ambient light through the waveguide stack and the lens element closest to the eye. In addition, an eye-tracking system monitors the vergence of the user's eyes and automatically and continuously adjusts the optical powers of the pair of lens elements based on the determined vergence of those eyes.
Owner:MAGIC LEAP
Augmented reality system for a dental laboratory
InactiveUS20070211081A1Correcting occlusionMedical simulationImpression capsDental OfficesDental laboratory
An augmented reality system for integrating video imagery of an actual dental restoration into a computer-implemented display of a model (that represents a preparation, mesial / distal neighbors, and opposing occlusion) that has been generated from a 3D scan of a patient. The 3D scan data may be generated at a dental office remote from a location at which the augmented reality system is implemented. In one embodiment, the 3D scan data is provided to the augmented reality system as a digital impression.
Owner:D4D TECH LP
Augmented reality systems and methods for user health analysis
ActiveUS20170323485A1Input/output for user-computer interactionMechanical apparatusData criteriaWavefront
Augmented reality systems and methods for user health analysis. Methods for user health analysis may include collecting data for an initial prediction model and continuing to collect additional data based on one or more data criteria. The methods may further include updating the initial prediction model based on the additional data to produce a revised prediction model or causing an intervention to occur based on the additional data. The data may be collected by a display system including one or more sensors configured to collect user-specific data and a display device configured to present virtual content to a user. The display device may be configured to output light with variable wavefront divergence.
Owner:MAGIC LEAP
Augmented reality system and method for device management and service
InactiveUS20120026530A1Improve accuracyImprove information qualityCathode-ray tube indicatorsElectrographic process apparatusRestoration deviceBarcode
An augmented reality system and method for diagnosing and fixing a fault in a device. A mobile communication device can be operatively connected with a networked rendering device by reading a two-dimensional bar code associated with the rendering device. An image with respect to the rendering device can be captured by an image-capturing unit associated with the mobile communication device. The image can be augmented with additional information and a target area can be highlighted in order to indicate a fault component. An action to be taken with respect to the target area can be displayed on the mobile communication device. Such an approach permits an end user to address the device issue with increased quality of information and accuracy.
Owner:XEROX CORP
Fast object detection for augmented reality systems
InactiveUS20060233423A1Reduce dimensionalityMinimize impactImage analysisCharacter and pattern recognitionVisibilityViewpoints
A detection method is based on a statistical analysis of the appearance of model patches from all possible viewpoints in the scene, and incorporates 3D geometry during both matching and pose estimation processes. By analyzing the computed probability distribution of the visibility of each patch from different viewpoints, a reliability measure for each patch is estimated. That reliability measure is useful for developing industrial augmented reality applications. Using the method, the pose of complex objects can be estimated efficiently given a single test image. In a fast method to detect objects in a given image or video sequence, a series of hierarchical feature descriptors permit balancing between the complexity of feature extraction and cost of combinatorial matching. The feature descriptors are derived from the 3D model of the object of interest along with the available calibrated real-life images or videos. The variability of the real-life images defines the granularity of the feature descriptors.
Owner:SIEMENS CORP
Who we serve
- R&D Engineer
- R&D Manager
- IP Professional
Why Patsnap Eureka
- Industry Leading Data Capabilities
- Powerful AI technology
- Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More Browse by: Latest US Patents, China's latest patents, Technical Efficacy Thesaurus, Application Domain, Technology Topic, Popular Technical Reports.
© 2024 PatSnap. All rights reserved.Legal|Privacy policy|Modern Slavery Act Transparency Statement|Sitemap|About US| Contact US: help@patsnap.com