![]() Yet another problem in the conventional art is providing a device that meets the requirements of the Americans with Disabilities Act (ADA) and other government regulations for those enrollees hampered by mobility and reach issues. It has been further discovered that another problem in the conventional art occurs when shadows and other factors degrading the quality of the images obtained by image capture devices that impact biometric matching outcomes. Accordingly, conventional biometric systems require expert technicians to install or reinstall, and such systems require considerable time for the assembly and subsequent testing. The systems then need to be reassembled at their destination by an expert technician since there are many different components, cables and power units that require proper connection. ![]() Transport of such systems generally requires all the components to be disconnected from one another and to be transported as separate units. Such conventional systems are also difficult and time-consuming to transport and are prone to unauthorized component rearrangement by unauthorized personnel. The conventional systems often use cameras and other components that have wide use, making them attractive objects for theft. Biometric systems are generally placed in publicly accessible locations, thus, the issue of component theft or tampering is persistent. Moreover it has been discovered that conventional biometric systems are prone to component theft and destruction since all the components of such systems are generally not integrated into one distinct unit but are composed of separate components loosely connected by wires or cables. These and other issues with conventional biometric and identity enrollment systems result in significant monetary losses and other disadvantages. Conventional biometric systems are not designed for remotely supervised operation. The cost of the on-site operator significantly increases the cost of biometric and identity enrollment, while leaving open the possibility for fraud. Conventional biometric systems also require an on-site operator to instruct the applicant each step of the enrollment process, to inspect the proof of identity breeder documents and to ensure that there is no switching or fraud. Fraud may occur in such systems as an enrollee can more easily influence an on-site operator to allow another person to act fraudulently as an imposter and go through all or part of the enrollment process. Moreover, conventional biometric systems are generally only monitored on-site by an operator, or in other words, the area surrounding a particular biometric system cannot be monitored remotely. ![]() ![]() For example, a person having no criminal or otherwise suspect background could attempt to go through all or part of an enrollment process on behalf of a person having a criminal or otherwise suspect background. It has been discovered that one of the problems is switching or fraud during the enrollment process. The biometric enrollment station is easily transported and installed.Ĭonventional biometric systems suffer from a number of problems. The biometric enrollment station may be a desktop or countertop kiosk, or a stand-alone station. Specifically, the present invention relates to a biometric and identity enrollment station, which may be self-service or operator assisted, with either a remote or local on-site operator, or both. The present invention relates to biometric solutions including face, fingerprint, signature, and dual iris biometric capture, processing, quality checking and matching in addition to identity documentation collection and proofing.
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