Synolo has launched the Neo fingerprint biometric scanner in Brazil, aimed at infant identification and preventing abductions. The scanner is currently in trials across several states, while Brazil works on new regulations specific to infant biometric technology. The initiative is an integral part of Synolo’s ambition to set a precedent for global standards in child biometrics, leveraging cooperation with various institutions for future implementation.
Synolo, a U.S.-based company, has introduced its dedicated infant fingerprint biometric scanner, named the Neo, into the Brazilian market. This innovative scanner is aimed at ensuring neo-natal identification and enhancing the safety of infants during hospital stays, particularly to prevent abductions. Currently, the Neo fingerprint scanner is undergoing testing across four proof-of-concept projects in various Brazilian states, with additional initiatives on the horizon. Enrolling children’s biometrics shortly after their birth establishes a line of defense against potential criminal acts, marking a significant step in child safety measures in Brazil.
The launch is timely as Brazil is in the process of formulating regulations related to infant and child ID systems, as emphasized by Synolo’s Co-founder and CEO Greg Scott. “Brazil is the one place in the world that really has more than aspirations; it’s actually implementing infant IDs.” While the current regulations regarding infant biometrics are still in development, Synolo aims to align its technology with the emerging standards. The country originally intended for the new infant biometric rules to be included in the certification framework for the National Identity Card (CIN), as per Rafael Lucchesi, Synolo’s Business Development Manager.
Additionally, Brazil’s General Data Protection Law (LGPD) aligns with European standards such as the GDPR, further emphasizing the significance of proper data protection measures in biometric registrations. Synolo anticipates that successful integration in Brazil will provide a model for rollout in other global markets, as stated by Scott. Distribution of the Neo biometric system will be facilitated through Synolo’s dedicated Solutions Provider Program, led by their São Paulo team.
Founded in 2021, Synolo emerged from a research initiative at the University of California San Diego, supported by the Gates Foundation. Although there are presently no certifications for infant fingerprint biometric technology, Synolo’s innovations have been reviewed in peer-reviewed publications, including studies from the U.S. National Library of Medicine and IEEE, alongside ongoing collaborations with reputable organizations like NIST and the National Science Foundation to develop standards in this field.
The introduction of infant biometric scanners marks a crucial development in the safety and identification of neonates, particularly in nations like Brazil, where there is a heightened need for effective child protection strategies. Infant abductions, though rare, pose significant risks, prompting the need for identification protocols when a child is born. Presently, Brazil is establishing regulatory frameworks for biometric systems, which leads to potential compliance with global standards in data protection and identity verification. The advent of these innovations signifies a shift towards automated and secure systems for tracking and safeguarding the identities of vulnerable populations such as infants.
Synolo’s launch of the Neo fingerprint scanner in Brazil signifies an important milestone for biometric technology aimed at infants. With Brazil currently developing regulatory standards for child identification, the introduction of this system may serve as a pilot for future implementations worldwide. Furthermore, the emphasis on data protection aligns with global trends, offering a promising path for the expansion of biometric identification solutions in the child safety domain. Synolo’s efforts reflect an adaptive approach to emerging needs in biometric technology and child protection measures.
Original Source: www.biometricupdate.com
