Methods and systems for generating virtual sensor data for developing or testing computer vision detection algorithms are described. A system and a method may involve generating a virtual environment. The system and the method may also involve positioning a virtual sensor at a first location in the virtual environment. The system and the method may also involve recording data characterizing the virtual environment, the data corresponding to information generated by the virtual sensor sensing the virtual environment. The system and the method may further involves annotating the data with a depth map characterizing a spatial relationship between the virtual sensor and the virtual environment.

Methods, devices, and systems for providing a virtual construction and design of an interior wall of a home or office are described. The virtual construction and design provides for various substrate layers as they would exist within the interior wall, interactions between substrate layers, as well as environmental effects. The virtual construction can be implemented on a website so that a user of the website is able to create, select, and purchase customized wallpaper patterns with various color effects, three-dimensional effects, aging effects, texture effects, and environmental effects.

Methods and systems for generating virtual sensor data for developing or testing computer vision detection algorithms are described. A system and a method may involve generating a virtual environment. The system and the method may also involve positioning a virtual sensor at a first location in the virtual environment. The system and the method may also involve recording data characterizing the virtual environment, the data corresponding to information generated by the virtual sensor sensing the virtual environment. The system and the method may further involves annotating the data with a depth map characterizing a spatial relationship between the virtual sensor and the virtual environment.

Generating a location-specific three-dimensional model in response to a location query can provide users with a better understanding of a location through providing better interactivity, better perspective, and better understanding of dimensionality. Generation of the models can be enabled by leveraging a three-dimensional asset database and segmentation methods. The location-specific models can provide further utility by further including situation specific simulated effects, such as simulated weather or traffic.

A first inspection of insured property is performed to detect hazardous conditions related to the insured property. This first inspection is performed using a first set of imagery data received from one or more imagery data sources. One or more preventive measures are recommended to address the detected hazardous conditions based on analysis of the first set of imagery data. A second inspection is performed using a second set of imagery data received from the imagery data sources. The second inspection is performed to verify that recommended preventive measures have been taken. The first and second sets of imagery data may contain satellite and aerial imagery. The imagery data sources may provide information such as an image of an insured property's roof, an image of a terrain surrounding the insured property, or any other aerial images.

Methods, devices, and systems for providing a virtual construction and design of an interior wall of a home or office are described. The virtual construction and design provides for various substrate layers as they would exist within the interior wall, interactions between substrate layers, as well as environmental effects. The virtual construction can be implemented on a website so that a user of the website is able to create, select, and purchase customized wallpaper patterns with various color effects, three-dimensional effects, aging effects, texture effects, and environmental effects.

Generating a location-specific three-dimensional model in response to a location query can provide users with a better understanding of a location through providing better interactivity, better perspective, and better understanding of dimensionality. Generation of the models can be enabled by leveraging a three-dimensional asset database and segmentation methods. The location-specific models can provide further utility by further including situation specific simulated effects, such as simulated weather or traffic.

Techniques for virtual area generation and manipulation are described herein. The described techniques may be used, for example, for virtual areas in electronically presented content items, such as video games and other media items. In some examples, one or more interfaces may be provided that allow content developers to provide and specify a set of rules associated with the virtual area. The set of rules may include, for example, terrain rules, object rules, and other rules associated with other aspects of the virtual area. The terrain rules may include rules for generating, distributing, and/or manipulating different types of terrain, such as such as flat and/or buildable space, mountains, valleys, berms, rivers, lakes, oceans, deserts, forests, and many others. The object rules may include rules for generating, distributing, and/or manipulating different types of objects, such as trees, bushes, rocks, snow, grass, fish, birds, animals, people, vehicles, buildings, and others.

Techniques for detecting water hazard conditions proximate to a structure are disclosed herein. An exemplary computer-implemented method may include receiving, from a sensor disposed proximate to the structure, a water level signal, and determining a water level proximate to the structure based upon the water level signal. The exemplary computer-implemented method may further include detecting, by executing a water hazard model, a water hazard condition based upon the water level proximate to the structure, and determining (i) a recommended mitigation action to mitigate damage to the structure from the water hazard condition and (ii) a cause of the water hazard condition. The exemplary computer-implemented method may further include generating an alert signal indicating the water hazard condition and the recommended mitigation action.

Provided is an apparatus for changing a color of weather presenter's costume in real time based on weather information. The apparatus includes: a control unit configured to determine a color representing given weather information; and a color change unit configured to change a color of weather presenter's costume into the determined color. Accordingly, since the apparatus represents weather information through a color of weather presenter's costume, a viewer may intuitively grasp an overall weather condition through the weather presenter's costume.