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1
US10198869B2
Publication/Patent Number: US10198869B2
Publication date: 2019-02-05
Application number: 15/489,525
Filing date: 2017-04-17
Assignee: DAQRI, LLC
Abstract: A remote expert application identifies a manipulation of virtual objects displayed in a first wearable device. The virtual objects are rendered based a physical object viewed with a second wearable device. A manipulation of the virtual objects is received from the first wearable device. A visualization of the manipulation of the virtual objects is generated for a display of the second wearable device. The visualization of the manipulation of the virtual objects is communicated to the second wearable device. A remote expert application identifies a manipulation of virtual objects displayed in a first wearable device. The virtual objects are rendered based a physical object viewed with a second wearable device. A manipulation of the virtual objects is received from the first wearable ...more ...less
2
US10296273B2
Publication/Patent Number: US10296273B2
Publication date: 2019-05-21
Application number: 14/693,125
Filing date: 2015-04-22
Abstract: A computing system and method for delivering actionable elements related to a multi-page printed piece comprises a network interface circuit, a memory and a processing circuit. The memory is configured to store identifying information for a plurality of different multi-page printed pieces and associated actionable elements for each printed piece. The processing circuit is configured to receive via the network interface circuit a request for actionable elements for the multi-page printed piece, the request having input information. The processing circuit is further configured to compare the input information in the request to the identifying information stored in the memory, retrieve the actionable elements for different pages of the multi-page printed piece from the memory based on the comparison, and send the retrieved actionable elements via the network interface circuit. A computing system and method for delivering actionable elements related to a multi-page printed piece comprises a network interface circuit, a memory and a processing circuit. The memory is configured to store identifying information for a plurality of different multi-page ...more ...less
3
US9934754B2
Publication/Patent Number: US9934754B2
Publication date: 2018-04-03
Application number: 14/870,701
Filing date: 2015-09-30
Assignee: DAQRI, LLC
Abstract: A system and method for generating a dynamic sensor array for an augmented reality system is described. A head mounted device includes one or more sensors, an augmented reality (AR) application, and a sensor array module. The sensor array module identifies available sensors from other head mounted devices that are geographically located within a predefined area. A dynamic sensor array is formed based on the available sensors and the one or more sensors. The dynamic sensor array is updated based on an operational status of the available sensors and the one or more sensors. The AR application generates AR content based on data from the dynamic sensor array. A display of the head mounted device displays the AR content. A system and method for generating a dynamic sensor array for an augmented reality system is described. A head mounted device includes one or more sensors, an augmented reality (AR) application, and a sensor array module. The sensor array module identifies available sensors from ...more ...less
4
US10110883B2
Publication/Patent Number: US10110883B2
Publication date: 2018-10-23
Application number: 15/283,163
Filing date: 2016-09-30
Assignee: DAQRI, LLC
Abstract: A device can determine a distance to an object. The device can use the determined distance to vary a focal length of a first adjustable element so that the first adjustable element directs light from the object into a first waveguide and onto a detector, and forms an image of the object at the detector. The device can produce an image, such as augmented content, on a panel. The device can direct light from the panel into a second waveguide. The device can use the determined distance to vary a focal length of a second adjustable element so that the second adjustable element directs light out of the second waveguide and forms a virtual image of the panel in a plane coincident with the object. The device can operate as an augmented reality headset. The adjustable elements can be phase modulators, or acoustically responsive material with surface acoustic wave transducers. A device can determine a distance to an object. The device can use the determined distance to vary a focal length of a first adjustable element so that the first adjustable element directs light from the object into a first waveguide and onto a detector, and forms an image of ...more ...less
5
US9978174B2
Publication/Patent Number: US9978174B2
Publication date: 2018-05-22
Application number: 15/393,257
Filing date: 2016-12-29
Assignee: DAQRI, LLC
Abstract: An application generates instructions to a wearable device to remotely activate a sensor in the wearable device and to receive sensor data from the sensor. A query related to a physical object is received. Instructions to wearable devices are generated to remotely activate at least one sensor of the wearable devices in response to the query. Sensor data is received from at least one of the wearable devices in response to that wearable device being within a range of the physical object. An application generates instructions to a wearable device to remotely activate a sensor in the wearable device and to receive sensor data from the sensor. A query related to a physical object is received. Instructions to wearable devices are generated to remotely activate at ...more ...less
6
US9984508B2
Publication/Patent Number: US9984508B2
Publication date: 2018-05-29
Application number: 15/159,763
Filing date: 2016-05-19
Abstract: A system and method for measuring depth using an optical radar system are described. The system includes an optical radar, a camera, a display, and a processor. The optical radar emits a signal towards an object. The processor identifies an object depicted in an image captured with the camera. The processor generates the signal with a non-repeating pattern of amplitude and frequency, and computes a depth of the object based on a difference in phase angle between the signal emitted from the optical radar and a return signal received at the optical radar. The depth includes a distance between the optical radar and the object. The processor generates AR content based on the identified object and adjusts a characteristic of the AR content in the display based on the computed depth of the object. A system and method for measuring depth using an optical radar system are described. The system includes an optical radar, a camera, a display, and a processor. The optical radar emits a signal towards an object. The processor identifies an object depicted in an image captured ...more ...less
7
US20170094265A1
Publication/Patent Number: US20170094265A1
Publication date: 2017-03-30
Application number: 15/283,163
Filing date: 2016-09-30
Abstract: A device can determine a distance to an object. The device can use the determined distance to vary a focal length of a first adjustable element so that the first adjustable element directs light from the object into a first waveguide and onto a detector, and forms an image of the object at the detector. The device can produce an image, such as augmented content, on a panel. The device can direct light from the panel into a second waveguide. The device can use the determined distance to vary a focal length of a second adjustable element so that the second adjustable element directs light out of the second waveguide and forms a virtual image of the panel in a plane coincident with the object. The device can operate as an augmented reality headset. The adjustable elements can be phase modulators, or acoustically responsive material with surface acoustic wave transducers. A device can determine a distance to an object. The device can use the determined distance to vary a focal length of a first adjustable element so that the first adjustable element directs light from the object into a first waveguide and onto a detector, and forms an image of ...more ...less
8
WO2017059144A1
Publication/Patent Number: WO2017059144A1
Publication date: 2017-04-06
Application number: 2016054555
Filing date: 2016-09-29
Assignee: DAQRI, LLC
Abstract: A system and method for generating a dynamic sensor array for an augmented reality system is described. A head mounted device includes one or more sensors
9
US20170092220A1
Publication/Patent Number: US20170092220A1
Publication date: 2017-03-30
Application number: 14/870,701
Filing date: 2015-09-30
Assignee: DAQRI, LLC
Abstract: A system and method for generating a dynamic sensor array for an augmented reality system is described. A head mounted device includes one or more sensors, an augmented reality (AR) application, and a sensor array module. The sensor array module identifies available sensors from other head mounted devices that are geographically located within a predefined area. A dynamic sensor array is formed based on the available sensors and the one or more sensors. The dynamic sensor array is updated based on an operational status of the available sensors and the one or more sensors. The AR application generates AR content based on data from the dynamic sensor array. A display of the head mounted device displays the AR content. A system and method for generating a dynamic sensor array for an augmented reality system is described. A head mounted device includes one or more sensors, an augmented reality (AR) application, and a sensor array module. The sensor array module identifies available sensors from ...more ...less
10
US20170092232A1
Publication/Patent Number: US20170092232A1
Publication date: 2017-03-30
Application number: 15/283,215
Filing date: 2016-09-30
Abstract: An augmented reality device includes a transparent optical display for displaying one or more depth-encoded images. The transparent optical display leverages an optical true time delay circuit communicatively coupled to a multi-layered optical element for displaying the one or more depth-encoded images. A light source is modified or modulated, which is then directed by the optical true time delay circuit, to create the depth-encoded images. A dynamic depth encoder determines which layers of the multi-layered optical element are to be energized, and the optical true time delay circuit is directed accordingly. In this manner, the optical true time delay circuit uses the inherent delay of transmitting the light as a controlled proxy for complex processing. An augmented reality device includes a transparent optical display for displaying one or more depth-encoded images. The transparent optical display leverages an optical true time delay circuit communicatively coupled to a multi-layered optical element for displaying the one or ...more ...less
11
US9619712B2
Publication/Patent Number: US9619712B2
Publication date: 2017-04-11
Application number: 15/158,498
Filing date: 2016-05-18
Assignee: DAQRI, LLC
Abstract: A head mounted device (HMD) includes a transparent display, sensors to generate sensor data, and a processor. The processor identifies a threat condition based on a threat pattern and the sensor data, and generates a warning notification in response to the identified threat condition. The threat pattern includes preconfigured thresholds for the sensor data. The HMD displays AR content comprising the warning notification in the transparent display. A head mounted device (HMD) includes a transparent display, sensors to generate sensor data, and a processor. The processor identifies a threat condition based on a threat pattern and the sensor data, and generates a warning notification in response to the identified threat ...more ...less
12
US20170255450A1
Publication/Patent Number: US20170255450A1
Publication date: 2017-09-07
Application number: 15/061,865
Filing date: 2016-03-04
Assignee: DAQRI, LLC
Abstract: A system and method for a mixed reality, spatial, cooperative programming language is described. A sensor of a device detects a first physical object and a second physical object. An augmented reality application identifies the first and second physical objects and a physical state of the first and second physical objects, generates a programming logic associated with the identification and physical state of the first and second physical objects, generates augmented or virtual reality information related to the programming logic, and displays the augmented or virtual reality information in the display. A system and method for a mixed reality, spatial, cooperative programming language is described. A sensor of a device detects a first physical object and a second physical object. An augmented reality application identifies the first and second physical objects and a physical ...more ...less
13
US20170177941A1
Publication/Patent Number: US20170177941A1
Publication date: 2017-06-22
Application number: 15/448,285
Filing date: 2017-03-02
Assignee: DAQRI, LLC
Abstract: A head mounted device (HMD) includes a transparent display, sensors to generate sensor data, and a processor. The processor identifies a threat condition based on a threat pattern and the sensor data, and generates a warning notification in response to the identified threat condition. The threat pattern includes preconfigured thresholds for the sensor data. The HMD displays AR content comprising the warning notification in the transparent display. A head mounted device (HMD) includes a transparent display, sensors to generate sensor data, and a processor. The processor identifies a threat condition based on a threat pattern and the sensor data, and generates a warning notification in response to the identified threat ...more ...less