Abstract: A Quantified Image Measurement System that creates accurate physical measurement data from digital pictures is disclosed. The system can use any image format and enhances the image file with measurement data and data transformation information that enables the creation of any type of geometrical or dimensional measurement from the stored photograph. This file containing the original digital image along with the supplemental data is referred to as a Quantified Image File or QIF. The QIF can be shared with other systems via email, cloud syncing or other types of sharing technology. Once shared, existing systems such as CAD applications or web/cloud servers can use the QIF and the associated QIF processing software routines to extract physical measurement data and use the data for subsequent processing or building geometrically accurate models of the objects or scene in the image.

Abstract: Aspects disclosed herein provide methods, systems, and devices for 3D image capture based on a Structure from Motion (SFM) imaging technique with simplified pose detection. The present disclosure provides a straightforward method to directly track a camera's motion (pose detection) thereby removing a substantial portion of the computing load needed to build a dimensionally accurate 3D model from a sequence of images taken by the camera.

Abstract: Method and System for 3D capture based on SFM with simplified pose detection is disclosed. This invention provides a straightforward method to directly track the camera's motion (pose detection) thereby removing a substantial portion of the computing load needed to build the 3D model from a sequence of images.

Abstract: A Quantified Image Measurement System that creates accurate physical measurement data from digital pictures is disclosed. The system can use any image format and enhances the image file with measurement data and data transformation information that enables the creation of any type of geometrical or dimensional measurement from the stored photograph. This file containing the original digital image along with the supplemental data is referred to as a Quantified Image File or QIF. The QIF can be shared with other systems via email, cloud syncing or other types of sharing technology. Once shared, existing systems such as CAD applications or web/cloud servers can use the QIF and the associated QIF processing software routines to extract physical measurement data and use the data for subsequent processing or building geometrically accurate models of the objects or scene in the image.

Abstract: Method and System for 3D capture based on SFM with simplified pose detection is disclosed. This invention provides a straightforward method to directly track the camera's motion (pose detection) thereby removing a substantial portion of the computing load needed to build the 3D model from a sequence of images.

Abstract: 3D Modeling System and Apparatus for mobile devices with limited processing capability is disclosed. This invention uses the standard camera and computing resources available on consumer mobile devices such as smart phones. A light projector (e.g. laser line generator) is attached as an accessory to the mobile device or built as a part of the mobile device. Processing requirements are significantly reduced by including known object(s) or reference template(s) in the scene to be captured which are used to determine the pose/position of the camera relative to the object or scene to be modeled in a series of camera pose/position sequences. The position/pose of the camera and projector for each sequence is facilitated by image distortions of known dimensions of reference template or known object in a sequence of captured images.

Abstract: 3D Modeling System and Apparatus for mobile devices with limited processing capability is disclosed. This invention uses the standard camera and computing resources available on consumer mobile devices such as smart phones. A light projector (e.g. laser line generator) is attached as an accessory to the mobile device or built as a part of the mobile device. Processing requirements are significantly reduced by including a known object or reference template in the scene to be captured which is used to determine the pose and position of the camera relative to the object or scene to be modeled. The position and pose of the camera and projector is facilitated by image distortions of known dimensions of the reference template or known object in a sequence of captured images. The distortions also facilitates the proper registration between all images in the sequence.

Abstract: A quantified image measurement system that creates accurate physical measurement data from digital pictures is disclosed. Both active and passive system embodiments are described. The system can use any image format and enhances the image file with measurement data and data transformation information that enables the creation of any type of geometrical or dimensional measurement from the stored photograph. This file containing the original digital image along with the supplemental data is referred to as a Quanitfied Image File or QIF. The QIF can be shared with other systems via email, cloud syncing or other types of sharing technology. Once shared, existing systems such as CAD applications or web/cloud servers can use the QIF and the associated QIF processing software routines to extract physical measurement data and use the data for subsequent processing or building geometrically accurate models of the objects or scene in the image.

Abstract: An image capture system for an image data capture and processing system, consisting of a digital imaging device, active illumination source, computer and software that generates 2 dimensional data sets from which real world coordinate information with planarity, scale, aspect, and innate dimensional qualities can be extracted from the captured image in order to transform the image data into other geometric perspectives and to extract real dimensional data from the imaged objects. The image transformations may be homographic transformations, orthographic transformations, perspective transformations, or other transformations that takes into account distortions in the captured image caused by the camera angle.