The VistaEY2P is a combination dual iris scanner and face camera capable of capturing iris and face images at the same time and from the same distance of 22 inches from the camera. It is also capable of capturing iris images from targets wearing eyewear. The camera features multi wavelength infra-red illumination, intelligent distance sensing technology, and multiple operational feedback features to enhance image quality and increase acquisition speed. Multi-positional iris illumination, ISO/IEC 19794-5/6 compliant images, and Live Eye anti-Spoof detection software make the VistaEY2P ideal for enrolling and authenticating subjects in high security applications, such as national identity programs, law enforcement, border control, military and government identification, and resident alien identification.
Seamless Data Enrollment and Transfer for Rapid In-Line Smart Card Personalization
The VistaEY2P is powered by Corvus Integration’s Raven™ Software for unlimited biometric enrollment and biometric matching capabilities. The data is seamlessly transferred from Raven software to the Card Encoding Engine™ Card Personalization Software for immediate in-line chip encoding onto a smart card. Combining smart card technology with biometrics provides the strongest verification and authentication of the cardholder’s identity while providing more protected data storage.
Seamlessly transfer your biometric data to the Card Encoding Engine™ from CardLogix for the fastest and easiest in-line personalization of smart cards – no programming required.
Meets the Highest of Industry and Government Standards
The VistaEY2P leverages state-of-the-art digital imaging technology, based on Vista Imaging’s powerful & proven ViCAM®III Digital Imaging Engine, to support superior face and iris images that meet the highest of industry standards. Multi wavelength infra-red illumination and distance sensing technology combine with other features to optimize iris image capture. The dual iris scanner features a high-resolution CMOS sensor with custom optics for ISO/IEC 19794-6 compliant, VGA iris images. The face camera features a 5MP CMOS image sensor with special optics and an integrated flash for low-light environments, providing clear, 19794-5-compliant, VGA images every capture.
Designed for Reliability and High Security Identity Applications
The VistaEY2P is ideal for high security applications that demand high reliability and greater functionality to confidently verify a subject’s identity with biometrics. VistaEY2P integrates LiveEye anti-Spoof detection software to reliably detect living tissue from iris capture, thereby eliminating biometric fraud. It also includes audio input for unique voice recognition and multi-positional iris illumination for authentication on target subjects with eyewear. Images acquired with VistaEY2P maintain proven quality and ISO/IEC compliancy with every capture. The VistaEY2P is perfect for portable or desktop biometric enrollment and biometric verification applications. It can also be embedded into stationary or portable kiosks.
In a fast-paced identification environment, a camera that can capture both the face and iris images at the same time is of vital importance. VistaEY2P is capable of capturing both irises and face images from the same distance and instance in order to meet these requirements. In addition, VistaEY2 features proprietary distance sensing circuitry with built-in audio input that detects the subject’s distance from the camera. The camera includes an integrated cold mirror and tri-color RGB LED indicators that quickly lead the subject 22″ away from the camera, prompting instant auto-acquisition. Built-in audio output also provides optional voice instructions and audio feedback. VistaEY2P has an integrated tripod mount for easy assembly and hands-free enrollment.
User-Safety Guaranteed
VistaEY2P is a safe, ROHS compliant biometric device that meets international Eye Safety Requirements. Thanks to the camera’s advanced distance sensing technology, the VistaEY2P will automatically turn off if the target moves too close to the device, protecting the subject’s eyes from unnecessary near infra red emissions.