Forensic biometrics (2024)

Overview

What is fingerprint analysis? Investigators have been using the results of forensic fingerprint analysis to solve crimes for more than a century. Fingerprint analysis generally involves comparing fingerprints found at a crime scene — called latent fingerprints — with fingerprints from a known individual and assessing how similar they are. A trained fingerprint examiner makes that assessment by comparing details including the shapes that the ridge lines form and where the lines end or split. Latent prints are often partial, distorted or smudged, so the first step is to determine if there is sufficient detail in the latent print to make a comparison. If not, no further analysis is done. If there is enough detail in the latent print, the examiner will carefully compare the features of the two prints and determine, based on training and experience, if the prints are likely to have come from the same person or from different people.

What we do

Some studies have shown that different examiners occasionally come to different conclusions when assessing the same evidence. This is not unexpected, as any human endeavor necessarily involves some chance of error. However, those chances can be reduced. NIST is working to develop computer algorithms that would automate some parts of the fingerprint analysis process, with the goal of reducing the opportunities for error and making the process more reliable and efficient.

Featured Content

Forensic Science Biometrics Research at NIST

Online Quiz: Do You Have What It Takes to be a Forensic Fingerprint Examiner?

The Research

Projects & Programs

Forensic Handwriting Examination and Human Factors

Completed

The Expert Working Group for Human Factors in Handwriting Examination has conducted a scientific assessment of the effects of human factors on forensic

NIST Ballistics Toolmark Database

Ongoing

The NIST Ballistics Toolmark Research Database is an open-access research database of bullet and cartridge case toolmark data. This database will: foster the

Fingerprint Chemistry

Ongoing

The goal of this focus area is to leverage the wealth of chemical information present in fingerprint deposits for novel forensic applications. This includes

Latent Print AFIS Interoperability Working Group

Ongoing

The mission of this Working Group is to improve latent print AFIS interoperability by developing a clear understanding of the issues and challenges at hand and

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Additional Resources Links

FORENSIC SCIENCE PROGRAM

Do You Have What It Takes to be a Forensic Fingerprint Examiner?

With support from NIST, experts are developing tests to help identify people with the pattern-matching skills needed for analyzing fingerprints. Try your eye on a few questions.

Take the quiz

News

Forensic Science is in My DNA

Working in law enforcement is as tough as it is rewarding. I got my start in 1968 as a beat cop in Ann Arbor, Michigan. My initial years on the force eventually led me to a 50-year career in forensic science. Back in my policing days, pretty much all we had was a uniform, a badge, a nightstick, handcuffs, a sidearm, a pair of comfortable shoes, perhaps a vehicle, a desire to protect and serve and

A Smart Use for Doping: Implanted Atoms Create Unique Electrical IDs That Distinguish Bona Fide Devices From Forgeries

NIST Launches an Updated Organization of Scientific Area Committees for Forensic Science

Spotlight: The Challenges of Contactless Fingerprinting

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FAQs

Forensic biometrics? ›

Forensic biometrics technology involves the use of unique identifiers, such as fingerprints, DNA, and facial recognition, to solve crimes. These identifiers can be used to identify suspects, link suspects to crime scenes, and exclude suspects from investigations.

What are the 4 main types of biometrics? ›

Biometrics Authentication Methods

While there are many types of biometrics for authentication, the five most common types of biometric identifiers are: fingerprints, facial, voice, iris, and palm or finger vein patterns.

What are the two primary types of forensic biometrics? ›

They can be either morphological or biological.

Morphological identifiers mainly consist of fingerprints, the hand's shape, the finger vein pattern, the eye (iris and retina), and the face's shape.
For biological analyses, DNA, blood, saliva, or urine may be used by medical teams and police forensics.

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What is the strongest form of biometrics? ›

A: Iris recognition is often considered one of the most secure biometric methods due to the uniqueness and stability of iris patterns. It's difficult to replicate or forge iris patterns, and the technology is resistant to many common spoofing attacks.

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What is the most widely used biometric device today? ›

Why are fingerprint scanners still the most widely used biometric technology? Fingerprint recognition is already well established. Law enforcement and forensics were among the first agencies to successfully employ this technology.

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How does law enforcement use biometrics? ›

High-precision biometric devices capture astonishingly detailed fingerprint and palm print images — enabling officers to easily collect and upload details into regional/national databases to track and identify individuals across correction centers, prisons and future encounters.

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What is biometrics in forensic science? ›

Forensic biometrics technology involves the use of unique identifiers, such as fingerprints, DNA, and facial recognition, to solve crimes. These identifiers can be used to identify suspects, link suspects to crime scenes, and exclude suspects from investigations.

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What is the most widely used form of biometrics? ›

The best-known forms of biometric security are the fingerprint and iris scan. In addition, facial recognition and vein pattern recognition (of both finger and palm) are also on the rise.

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What is the most common biometric identification? ›

Often, biometrics are biological markers, such as facial shape, fingerprints, voice/speech, iris, and veins. Those are the most commonly known biological-based biometrics, but other markers are used for identity authentication, such as ear shape and even odor.

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What is the difference between biometrics and fingerprinting? ›

Fingerprints are unique patterns of ridges and valleys on the skin of our fingertips. Biometrics, on the other hand, is a broader term that refers to the measurement and analysis of unique physical characteristics of an individual for identification or authentication purposes.

Which finger is used for biometric? ›

We recommend enrolling two index fingers (images 3 and 6) or two middle finger (images 2 and 7): Avoid using the thumb, ring or little finger for enrollment. These fingers are often too difficult to correctly position on the fingerprint sensor and often result in poorer quality fingerprint reads.

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What are the four biometric functions of the biometric process? ›

Capturing a biometric sample from an end user 2. Extracting and processing the biometric data from that sample 3. Storing the extracted information in a database 4. Comparing the biometric data with data contained in one or more reference references 5.

What are the 7 characteristics of biometrics? ›

Comparison of Modalities

Universality. Every individual accessing the application should possess the trait.
Uniqueness. The given trait should be sufficiently different across members of the population.
Permanence. ...
Measurability. ...
Performance. ...
Acceptability. ...
Circumvention.

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