Researchers in the Biometric Technologies Laboratory at the University of Calgary have developed a way for security systems to combine different biometric measurements—such as eye color, face shape, or fingerprints—and create a learning system that simulates the brain in making decisions about information from different sources.

Professor Marina Gavrilova, the founding head of the laboratory—among the first in the research community to introduce and study neural network based models for information fusion—says they have developed a biometric security system that simulates learning patterns and cognitive processes of the brain.

"Our goal is to improve accuracy and as a result improve the recognition process," says Gavrilova. "We looked at it not just as a mathematical algorithm, but as an intelligent decision making process and the way a person will make a decision."

The algorithm can learn new biometric patterns and associate data from different data sets, allowing system to combine information, such as fingerprint, voice, gait, or facial features, instead of relying on a single set of measurements.

The key is in the ability to combine features from multiple sources of information, prioritize them by identifying more important/prevalent features to learn, and adapt the decision making to changing conditions such as bad quality data samples, sensor errors, or an absence of one of the biometrics.

"It's a kind of artificial intelligence application that can learn new things, patterns, and features," Gavrilova says. With this new multidimensional approach, a security system can train itself to learn the most important features of any new data and incorporate it in the decision making process.

"The neural network allows a system to combine features from different biometrics in one, learn them to make the optimal decision about the most important features, and adapt to a different environment where the set of features changes. This is a different, more flexible approach."

Biometric information is becoming more common in our daily lives, being incorporated in drivers' licenses, passports, and other forms of identification. Gavrilova says the work in her laboratory is not only pioneering the intelligent decision-making methodology for human recognition but is also important for maintaining security in virtual worlds and avatar recognition.

Source: University of Calgary