Abstract
Augmented reality combines digital information with a real world scene. One way to accomplish this is using wearable augmented reality devices, such as smart glasses. Axial distributed sensing (ADS) is a three-dimensional (3D) imaging technique that combines the different perspectives of multiple two-dimensional (2D) images, known as elemental images (EI), which are on the optical axis perpendicular to a scene. A 3D reconstruction is then performed generating a 3D image over different depth planes. In this work, we overview a method to combine augmented reality with three-dimensional (3D) imaging A smart glass device captures EIs using ADS of a scene containing an object behind occlusion. Three-dimensional reconstruction is then performed. Object recognition using support vector machines (SVM) is then used to recognize objects of interest in the scene. The three-dimensional information is then placed in the smartglasses including the distance the object is from the user along with the unoccluded object and its location.
© 2016 Optical Society of America
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