Visual data is used to locate a device in the real world. The location and orientation of the device is detected by matching the camera view of the device to a computer-generated view of an area surrounding the location. The computer-generated view of the area is constructed by combining various remotely sensed geospatial data including satellite imagery, aerial LIDAR, map data, GIS inventory data, and/or the like. In various embodiments, the disclosed system can not only locate the device but can also provide measurements regarding where the user is looking and 3D measurement of the scene in the device camera view. In various embodiments, the presented invention enables devices to have a system that provides spatial intelligence to any camera.

A digital pathology system for recording and displaying field of view portions that have been viewed in the context of developing a diagnosis for a pathology case. A whole slide image is presented with shading overlaid on the image illustrating those portions that have been viewed. Portions of the WSI that have received the pathologist's attention at different magnifications are marked with distinguishing hatching.

A computer implemented method to present digital images may include storing a digital image in a database and applying a digital image processing technique to the digital image to identify a region of interest of the digital image. The method may also include storing region data that identifies the region of interest of the digital image in the database and receiving a request for information associated with the digital image from a digital device. In response to the request, the method may include providing the digital image and the region data for transmission to the digital device, the digital device configured to adjust a cropping view of the digital image based on the region data to display the region of interest of the digital image.

A method of operating a virtual image generation system comprises allowing an end user to interact with a three-dimensional environment comprising at least one virtual object, presenting a stimulus to the end user in the context of the three-dimensional environment, sensing at least one biometric parameter of the end user in response to the presentation of the stimulus to the end user, generating biometric data for each of the sensed biometric parameter(s), determining if the end user is in at least one specific emotional state based on the biometric data for the each of the sensed biometric parameter(s), and performing an action discernible to the end user to facilitate a current objective at least partially based on if it is determined that the end user is in the specific emotional state(s).

The system may include a method comprising requesting, by a computer, a receiver identifier associated with a receiver; receiving, by the computer, the receiver identifier in association with content; constructing, by the computer, a URL link comprising access to DICOM viewer code, DICOM data for the selected images, a sender identifier and the receiver identifier; generating, by the computer, a notification to the receiver, wherein the notification includes the URL link; and transmitting, by the computer, the notification to a receiver based on the receiver identifier.

The system may include a method comprising requesting, by a computer, a receiver identifier associated with a receiver; receiving, by the computer, the receiver identifier in association with content; constructing, by the computer, a URL link comprising access to DICOM viewer code, DICOM data for the selected images, a sender identifier and the receiver identifier; generating, by the computer, a notification to the receiver, wherein the notification includes the URL link; and transmitting, by the computer, the notification to a receiver based on the receiver identifier.

Concepts and technologies directed to surrogate metadata aggregation for dynamic content assembly are disclosed. Embodiments can include a system that comprises a processor and a memory that stores computer-executable instructions that configure a processor to perform operations. The operations can include obtaining a first visual content from a digital data store, where the first visual content is configured to digitally represent a first scene. The operations can include performing image recognition on the first visual content so as to identify a second visual content that is digitally configured to represent a second scene. The operations can include determining that native original metadata cannot be obtained for the first visual content, where the native original metadata includes information about the first scene digitally represented by the first visual content. The operation can include generating surrogate metadata for the first visual content based on metadata obtained from the second visual content.

A first type of data regarding an unidentified product is collected. A first type of analysis on the first type of data is performed. A second type of data regarding an unidentified product is collected. A second type of analysis on the second type of data is performed. Based upon the first type of analysis on the first type of data and the second type of analysis on the second type of data, product identification for the unidentified product is performed. Based on the product identification, an identity of the unidentified product is output. A user is enabled to perform a business interaction with a product matching the identity of the unidentified product.

A first type of data regarding an unidentified product is collected. A first type of analysis on the first type of data is performed. A second type of data regarding an unidentified product is collected. A second type of analysis on the second type of data is performed. Based upon the first type of analysis on the first type of data and the second type of analysis on the second type of data, product identification for the unidentified product is performed. Based on the product identification, an identity of the unidentified product is output. A user is enabled to perform a business interaction with a product matching the identity of the unidentified product.

Systems and methods for image-based self-localization of an image capture device, include receiving a query image of an undetermined location of the image and comparing the query image to a set of geotagged reference images to determine a location of the query image. The system and method may alternatively compare a series of query images to reference images or portions of feature vectors generated from said query images and reference images to determine the closest query image in the series to respective reference images. The set of geotagged reference images may include a sequence of previously obtained reference images of a route, each reference image corresponding to a known geolocation. The geolocation of the user may be determined based on the location of the query image within the set. Ambient conditions of the images may be used to improve comparison of a query image to reference images. Segment and/or abstractions of cell images may be used to reduce computational and/or communications resources.