SRI International has been awarded a four-year $12.5 million contract by IARPA's (The Intelligence Advanced Research Projects Activity, National Intelligence Directorate) Odin Program to research and develop "dynamic biometrics" able to better detect attempts to evade or deceive biometric security systems, such as fingerprint, iris and face scanners. The ability to detect these "presentation attacks" addresses a critical weakness in current generation biometric security systems and can significantly expand biometric use cases.
The market for biometric sensors is expected to grow to $24.4 billion by 2020, driven by initiatives taken by governments and businesses across the world to adopt fingerprint, iris, and face biometrics systems for a broad range of use cases such as travel checkpoints, facility access points, and identity verification and cyber-authentication. However, the inability to detect presentation attacks (which attempts to deceive biometric security systems are often called) relegate biometric use cases to: 1) relatively low risk applications such as unlocking one's phone, or 2) applications in which a human guard is present to spot and stop overtly suspicious activity.
"Biometric systems will not be successful unless technical solutions providing reliable but low cost detection of currently unknown presentation attacks can be developed," said Jeffrey Lubin, Ph.D., senior research scientist at SRI and Principal Investigator for SRI's Odin team. "We believe the dynamic biometrics developed in this IARPA Odin Program, which includes deep collaboration between SRI's computer sciences and biosciences researchers, will greatly expand the range of uses for biometric systems, benefiting people, businesses and governments around the world."
SRI International will forge and deliver a prototype Multi-physiological Joint Optimization and Liveness Nuances for Identity Ratification system (MJÖLNIR) to defeat known and unknown presentation attacks. To succeed, SRI has assembled a strong multidisciplinary team with depth and diversity of expertise in human physiology (SRI's expertise in biosciences, signal analytics and machine learning), dynamic 3D imaging (Compact Imaging), 3D shape and behavioral dynamics modeling (CMU, SRI), and system development, evaluation and deployment (SRI).
How Dynamic Biometrics Work:
This research is based upon work supported in part by the Office of the Director of National Intelligence (ODNI), Intelligence Advanced Research Projects Activity (IARPA), contract number 2017-17022400004.
Source: SRI International
Date: Jun 27, 2017