Abstract: A system and method utilizing three-dimensional (3D) data to identify objects. A database of profiles can be created for goods, product, object, or part information by producing object representations that permit rapid, highly-accurate object identification, matching, and obtaining information about the object. The database can be part of a different recognition system than the system used to identify the object. The profiles can be compared to a profile of an unknown object to identify, match, or obtain information about the unknown object, and the profiles can be filtered to identify or match the profiles of known objects to identify and/or gather information about an unknown object. Comparison, filtering, and identification may be performed prior to, subsequent to, or in conjunction with other systems, such as image-based machine learning algorithms.

Abstract: The system and method utilize three-dimensional (3D) scanning technology to create a database of profiles for good, product, object, or part information by producing object representations that permit rapid, highly-accurate object identification, matching, and obtaining information about the object, which is not afforded by traditional two-dimensional (2D) camera imaging. The profiles can compared to a profile of an unknown object to identify, match, or obtain information about the unknown object, and the profiles can be filtered to identify or match the profiles of known objects to identify and/or gather information about an unknown object.

Abstract: The system and method deal with three-dimensional (3D) scanning technology which produces object representations which permit rapid, highly-accurate part identification which is not afforded by traditional two-dimensional (2D) camera imaging. The system and method are applicable to any field wherein repair/replacement parts are needed, such as the plumbing, automotive, fastener, marine, window, door, etc. fields.

Abstract: The system and method deal with three-dimensional (3D) scanning technology which produces object representations which permit rapid, highly-accurate part identification which is not afforded by traditional two-dimensional (2D) camera imaging. The system and method are applicable to any field wherein repair/replacement parts are needed, such as the plumbing, automotive, fastener, marine, window, door, etc.