News Business Indian-American scientist Anil Jain develops first 3D model of human fingerprint

Indian-American scientist Anil Jain develops first 3D model of human fingerprint

New Delhi: An Indian-American scientist has built the first 3-D model of a human fingerprint, an advance that could boost the accuracy of fingerprint-matching systems and improve security technology.Anil Jain, from Michigan State University, and

indian american scientist anil jain develops first 3d model of human fingerprint indian american scientist anil jain develops first 3d model of human fingerprint
New Delhi: An Indian-American scientist has built the first 3-D model of a human fingerprint, an advance that could boost the accuracy of fingerprint-matching systems and improve security technology.

Anil Jain, from Michigan State University, and colleagues developed a method which takes a two-dimensional image of a fingerprint and maps it to a 3-D finger surface.

The 3-D finger surface, complete with all the ridges and valleys that make up the human fingerprint, is made using a 3-D printer. It creates what Jain's team called a fingerprint 'phantom'.

Imaging phantoms are common in the world of medical imaging. For example, to make sure an MRI machine or a CT scanner is working properly, it needs to first image an object of known dimensions and material properties.

"In health care, a 3-D heart or kidney can be created. Because the dimensions are known, they can be put into a scanner and the imaging system can be calibrated," Jain said.

In this case, the ultimate goal is to have a precise fingerprint model with known properties and features that can be used to calibrate existing technology used to match fingerprints.

"When I have this 3-D fingerprint phantom, I know its precise measurements," said Jain, an alumnus of Indian Institute of Technology, Kanpur.

"And because I know the true dimensions of the fingerprint features on this phantom, I can better evaluate fingerprint readers," he said.

While the 3-D model doesn't yet have the exact texture or feel of a real finger, it could advance fingerprint sensing and matching technology, researchers said.

"Tools like this would help improve the overall accuracy of fingerprint-matching systems, which eventually leads to better security in applications ranging from law enforcement to mobile phone unlock," Jain said.

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