3D Fingerprint Matching using. Optical Coherence. Tomography (OCT). IMAGO RESEARCH GROUP - UNIVERSIDADE FEDERAL DO PARANÃ â BRAZIL.
3D Fingerprint Matching using Optical Coherence Tomography (OCT) I M A G O R E S E A R C H G R O U P - U N I V E R S I D A D E F E D E R A L D O PA R A N Á – B R A Z I L W W W. I M A G O . U F P R . B R
Schedule 1. 2D Fingerprints 2. Previous Research – Newborn Fingeprint Iden=fica=on 3. 3D Fingerprint Analysis – Mo=va=on 4. 3D Fingerprint Matching – Challenges 5. Op=cal Coherence Tomography 6. Skin layers – Proposed approach - Matching of 2D-3D Fingerprints 7. Tests and Results 8. Conclusions
Fingerprints Mature biometrics, largely adopted Large databases available (IAFIS – more than 70 million people) Sensor technologies: op=cal, capaci=ve, thermal, ultrasound Feature level classifica=on: ! Level 1: ridge flow and general paXerns ! Level 2: minu=ae ! Level 3: pores, edge texture ! Matching: Minu=ae ! Strategies: triplets, similar graphs, type/orienta=on
Previous Research Works Newborn Babies Identification
Newborn Identification – A global challenge
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Newborn Babies identification – Social Problem ! Baby Swaps: 1 baby swap in 6,000 births in Brazil ! Children disappearance es=mated by UNICEF (1.2 Million children annually worldwide), 40,000 in Brazil (10% of children never found) ! In USA, 500,000 children reported missing every year ! Kidnaps, illegal adop=on and children traffic ! First 24 hours aber a child is reported missing are cri=cal
Newborn Babies Identification – Social Problem ! Baby footprint stamps are ineffec=ve for iden=fica=on ! Usually obtained with ink and paper ! Poor image quality ! Affected by moisture and dirt ! Acquired by untrained people
Challenges - Acquisition ! Skin ridges and valleys 2 to 3x smaller than in adults ! Need 1,500 dpi to capture ridges/valleys with precision ! Skin easily deformable ! Moisture and dirt (vernix caseosa) ! Scanning issues: " Parents anxiety " Mo=on during acquisi=on " Too much pressure against sensor " No formal procedure
Our Research ! Use of Palmprint for newborn iden=fica=on ! Custom digital scanner (high resolu=on) device to newborns ! Formal acquisi=on procedure (protocol) ! Newborn baby palmprint database ! 1,221 images from 250 babies – 1,000 dpi ! Quality criteria to classify newborn palmprint
3D Fingerprint matching
Motivation ! BeXer matching accuracy is in crescent demand (border protec=on, iden=fica=on of terrorists) ! Fraud: fake fingerprints, fingerprint altera=on, ! Approximately 5% of people cannot have fingerprint scanned (diseases, cancer treatment, labor-related issues) ! Iden=fica=on of people aber catastrophes (finger skin damaged)
Ref. [4]
3D Fingerprint – characteristics ! 3D fingerprints make available a rich amount of informa=on that can be used for biometric iden=fica=on improvement ! Minu=ae spa=al posi=on ! Finger curvatures ! Ridges and valleys curvatures ! Unrolled fingerprints
Challenges (newborns, frauds) requirements Difficul,es
Poten,al solu,on
Skin deformability
Touch-less scanning
Small dimensions ( ridges and valleys)
High resolu=on > 1500 dpi , < 1μm
Moisture and dirt
Touch-less, immunity to moisture and dirt
Not possible to scan/altera=ons
Use of internal layer (dermis) for iden=fica=on
Accuracy improvement
Use of other dis=nc=ve skin informa=on
Biomedical imaging modalities
Optical Coherence Tomography Harmless technology: uses low power light (near infrared) # Touch-less (no deforma=on, more comfortable) # Direct 3D acquisi=on in high resolu=on (
