3D "Digit" Image Capture - A Better Fingerprint ID

FlashScan3D along with its research partner, the University of Kentucky, received a grant from the Science and Technology Directorate of the U.S. Department of Homeland Security to develop non-contact fingerprint. Image Credit: FlashScan3D

3D "Digit" Image Capture - A Better Fingerprint ID

A new way to capture an image of a human fingerprint has emerged from the labs of the University of Kentucky. The University has been a leader in research in the use of structured light and its application to biometrics.

Within the law enforcement community, the preferred form of fingerprint is the “rolled” or “rolled equivalent” fingerprint. Image Credit: FlashScan3D

In partnership with a for-profit private company, FlashScan3D, the University of Kentucky has developed a non-contact, rolled equivalent scanner that capture 3-dimensional data of fingerprints and palm prints. No ink, and no potential for error due to a sloppy imprint process.

Structured light illumination's (SLI) core technology revolves around the use of projecting a known pattern of pixels (often grids or horizontal bars) on to a scene. The way that these deform when striking surfaces allows vision systems to calculate the depth and surface information of the objects in the scene enabling the scanner to capture 3-D fingerprint data and provide an accurate representation that far surpasses any other imaging technique.

So, Structured Light makes quantitative 3-D surface measurements that reveal actual ridge shape and depth. It is precisely this 3-D structure that gives a fingerprint its unique latent print characteristics and allows for the formation of minutiae. Capturing this data in 3-D allows for a more accurate representation of the true object, rather than a 2-D representation of a 3-D object, and ultimately yields more accurate data.

The 3D fingerprinting device works by projecting a series of striped lines wrapped around the finger. The process is called structured light illumination (SLI). The image of the lines of the fingers is then perfectly captured by a 1.4 megapixel camera at roughly 1,000 pixels per inch, thus automatically producing a detailed 3-dimensional model of the fingerprint ridges and valleys in proper places [ctrl-click to view animated image]. Image Credit: LiveScan3D

This excerpted and edited from LiveScan3D -

Features & Benefits

Speed of Capture:
FlashScan3D's device captures a rolled equivalent fingerprint in less than 1 seconds with no operator manipulation of the subject’s hand. This feature allows the device to be used in operations with significant time constraints or high volume locations such as airports or security checkpoints where capturing rolled equivalent prints would have been impossible in the past due to the operational constraints of the current generation of rolled equivalent scanners.

Image capture in a field application. Image Credit: FlashScan3D

3-D Data:
The unique characteristic of our system is that it is able to capture fingerprint data in 3-D. Unlike competing systems that acquire an image of what a fingerprint looks like, our system makes quantitative 3-D surface measurements that reveal actual ridge shape and depth. It is precisely this 3-D structure that gives a fingerprint its unique latent print characteristics and allows for the formation of minutiae. Capturing this data in 3-D allows for a more accurate representation of the true object , rather than a 2-D representation of a 3-D object, and ultimately yields more accurate data.

As fingerprint databases continue to grow exponentially both in the U.S. and abroad, more accurate data and matching will become increasingly necessary to aid in searches and correct identification of subjects.

10 Print Capture - FlashScan3D's non-contact 3-D technology captures 10 rolled equivalent prints plus 2 palm prints.Image Credit: FlashScan3D

Backwards Compatible:
Although our device captures data in 3-D, our flattening algorithm ensure that the device outputs data that is formatted to meet the ANSI/NIST ITL 1-2000 standard making it easily compared to and consistent with existing fingerprint databases. Data can be captured and stored in 3-D, while still being able to leverage the size and pervasiveness of existing 2-D databases or for latent print comparison.Flashscan could greatly increase airline safety

Non-Contact:
Using a Structured Light Illumination technique, which is an inherently non-contact scanning method, we are able to produce higher quality images with better minutiae detection results since there is no contact with the scanner to distort the image. Our images are more consistent and repeatable since there are no varying amounts of pressure when in contact with the sensor. In high volume environments a non-contact scanner is advantageous because there are no latent prints or residue left on the scanner that need to be cleaned or could generate noise for subsequent scans. Since contact with the imaging sensor is not required, it allows the device to be completely sealed, preventing dirt, sand or dust from impacting the scanner.

Automated:
Our device is designed to function independently of an operator. The subject simply positions their finger above the sensor and the system to captures the fingerprint. The quality of the print is no longer tied to the skill of the operator manipulating the subject’s hand as is the case today. This feature reduces training and staffing costs, eliminate any possibility for operator error, as well as produces a more consistent, high quality print. The fact that the device is automated also opens up the possibility to use the system for unattended access control.

Flashscan yields better treatment of worn or damaged printsBetter Treatment of Damaged or Worn Prints: A combination of our 3-D and non-contact imaging technique yields better treatment of worn or damaged prints. Within the realm of non-contact print capture, structured light techniques have the advantage of capturing the surface independent of how smooth it is.

Go/No Go – Real Time Quality Assessment:
Our system provides immediate feedback to the subject/operator as to the quality of the captured fingerprints. If something goes wrong with the scan, the subject is notified to re-scan. This real time quality assessment feature helps reduce the failure to enroll rates due to images of poor quality.

Self Calibrating:
To ensure that the image sensors stay calibrated we position a calibration pattern in the scanner, such that the cameras can automatically calibrate themselves prior to each scan, preventing performance drift and eliminating any need for manual calibration. In the event the device becomes damaged or is in some way incapable of calibrating itself, the system will alert the operator with a visual indicator.

Impervious to Sweat/Oil: Our structured light imaging technique is not affected by discolorations in the skin and is resistant to the specularity produced by shiny surfaces caused by sweat or oil.

Liveness detection/Built-in Anti Spoofing Capabilities:
A 3-D system is inherently much harder to fool by deceptive means simply because it is much harder to re-create the 3-D characteristics of a fingerprint using a dummy or fake finger. Because we capture data in 3-D we can test for curvature and ridge modulation to prevent the use of a simple flat photographic pattern.
Reference Here>>

Tapping Into A New Vein On Biometrics

The vein patterns of each finger are unique, so each individual can register multiple fingers as "back-up" for authentication purposes. Registration is possible even for sweaty, oily or dirty fingers. Image Credit: HANDS in the NEWS

Tapping Into A New Vein On Biometrics

The growth in world of biometric authentication for access and security has been a slow and sometimes uncomfortable process. Most people do not feel happy about standing in front of a camera-like device, adjusting their position so that the device can take an image of the iris pattern of their eye for example … the process is invasive and cumbersome at best.

Fingerprint senseing technology has come a long way with its swipe and go approach … but, again, this process has the problem of a CSI routine in that fingerprints and their databases are used in the legal/criminal as a main marker for identification – the process just doesn’t feel right and it too is somewhat invasive.

Great strides have been made in the arena of using near-infrared light lights and filters to discern blood vessel vein patterns under the skin … a marker all humans share and (the patterns as to how they are located in the body) are about as different and unique as a fingerprint.

The first systems to use this approach were pioneered in Korea (BK Systems) and looked at the backside of a whole hand. This process was very good and fast – less than a half a second for authentication. The equipment, however, was large and expensive.

As with all things technological, efficiencies make processes smaller and more effective. Hitachi is the leader in downsizing the vein identification process to a simple single finger scan for authentication and it has been widely accepted as a standard for use with banking applications in Japan.

As near infrared light generated by Bank of LEDs (light emitting diodes) penetrates the body tissue, it is reflected in the hemoglobin in the blood. A CCD (charge coupled device) camera (which uses a small, rectangular piece of silicon to receive incoming light) captures the image of the vein pattern through this reflected light. Image processing constructs a finger vein pattern from the camera image. This pattern is compressed and digitized so that it can be registered as a template or digitized image that it compares to the stored template of the user, and determines whether there is a match, using patter-matching techniques. The actual algorithms used in the process differ from vendor to vendor. Image Credit: HANDS in the NEWS

This excerpted and edited from Times Online -

Why veins could replace fingerprints and retinas as most secure form of ID
Mike Harvey, Technology Correspondent – Times Online, Nov. 11, 2008

Forget fingerprinting. Companies in Europe have begun to roll out an advanced biometric system from Japan that identifies people from the unique patterns of veins inside their fingers.

Finger vein authentication, introduced widely by Japanese banks in the last two years, is claimed to be the fastest and most secure biometric method. Developed by Hitachi, it verifies a person's identity based on the lattice work of minute blood vessels under the skin.
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In Japan, thousands of cash machines are operated by finger vein technology.

Hitachi's VeinID Biometric Authentication technology is one of the most advanced biometric identification technologies. Hitachi's Finger Vein attesting technology identifies finger vein patterns that exist inside the human body, eliminating tampering while increasing reliability and security and, as everyone's finger vein pattern is individual, it provides an ideal identification method without being intrusive. Image Credit: HANDS in the NEWS
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The pattern of blood vessels is captured by transmitting near-infrared light at different angles through the finger, usually the middle finger. This can be done in a small instrument attached to a wall or as part of an ATM machine. The light is partially absorbed by hemoglobin in the veins and the pattern is captured by a camera as a unique 3D finger vein profile. This is turned into a simple digital code which is then matched with a pre-registered profile to verify an individual's identity. Even twins are said to have different finger vein patterns.

Hitachi claims that because the veins are inside the body, invisible to the eye, it is extremely difficult to forge and impossible to manipulate. While fingerprints can be "lifted" and retinas scanned without an individual realizing it, it is extremely unlikely that people's finger vein profiles can be taken without them being aware of it, the company says.

The gruesome possibility that criminals may hack off a finger has already been discounted by Hitachi's scientists. Asked if authentication could be "forged" with a severed finger, the company says: "As blood would flow out of a disconnected finger, authentication would no longer be possible."
Reference Here>>

Racetrack – The Future Of Computer Memory Systems

Almaden Research Center - Image Credit: The Almaden Research Center (IBM)

Racetrack – The Future Of Computer Memory Systems

A new way and concept of looking at retrievable, stored memory has just been tested, proven and explained by IBM’s main research center in the Silicon Valley.

The Almaden Research Center announced this week the breakthrough in the way memory is stored and retrieved by using a system known internally as silicon-on-insulator photonic wire based racetrack resonators – “Racetrack” for short.

IBM's "RACETRACK" MEMORY MOVES CLOSER: A diagram of the nanowire shows how an electric current is used to slide -- or "race" – tiny magnetic patterns around the nanowire "track," where the device can read and write data in less than a nanosecond. The racetrack memory would stand billions of nanowires, like the one diagrammed here, around the edge of a chip, and potentially allow for hundreds of times the amount of storage in the same space as today's memory. Image Credit: The Almaden Research Center (IBM)

This excerpted from The Almaden Research Center (IBM) -

IBM Moves Closer to New Class of Computer Memory
The Almaden Research Center 10-Apr-2008

IBM scientists unveiled a major breakthrough in their effort to build a new class of memory, nicknamed "racetrack." The racetrack memory would stand billions of nanowires around the edge of a chip, and potentially allow for hundreds of times the amount of storage in the same space as today's memory.
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In two papers published in the April 11 issue of Science, IBM Fellow Stuart Parkin and colleagues at the IBM Almaden Research Center in San Jose describe both the fundamentals of a technology dubbed "racetrack" memory as well as a milestone in that technology. This milestone could lead to electronic devices capable of storing far more data in the same amount of space than is possible today, with lightning-fast boot times, far lower cost and unprecedented stability and durability.
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In their paper, the scientists describe their use of horizontal permalloy nanowires to demonstrate the successive creation, motion and detection of domain walls by using sequences of properly timed nanosecond long spin-polarized current pulses. The cycle time for the writing and shifting of the domain walls is a few tens of nanoseconds. These results illustrate the basic concept of a magnetic shift register relying on the phenomenon of spin momentum transfer to move series of closely spaced domain walls – an entirely new take on the decades-old concept of storing information in movable domain walls.

Ultimately, the researchers expect the racetrack to move into the third dimension (3D) with the construction of a novel 3D racetrack memory device, a paradigm shift from traditional two-dimensional arrays of transistors and magnetic bits found in silicon-based microelectronic devices and hard disk drives. By moving into the third dimension, racetrack memory stands to open new possibilities for developing less expensive, faster devices because it is not dependant on miniaturization as dictated by Moore’s Law.
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The expected benefits of racetrack memory over today’s memory technologies include operating at a greater speed, consuming much less power, and being practically indestructible, potentially unleashing applications that nobody has even imagined yet.
Reference Here>>

Biometric Facial Recognition In Three Dimensions

The Vision Access face reader is comprised of a real-time 3D surface scanner working in invisible near-infrared light and can be used in both identification and verification modes. Image Credit: Bioscrypt

Biometric Facial Recognition In Three Dimensions

Not just a photo, or an algorithm analyzing a simple X, Y axis, or a PIN number process ... No, not for this Japanese company. What they were really looking for is a system that delivered a sort of "DNA" as in Dynamic Name Association process.

Actual DNA takes way too long but a new type of biometric that goes way beyond simple face recognition seemed to fit the bill.

3D facial recognition system uses structured lighting to create a facial grid of 40,000 measurable data points. Image Credit: Bioscrypt

Face recognition that uses a full three dimensional mapping technique (the first ever of its type) using sub-micron mapping points offered by Bioscrypt, an enterprise access control solution provider, is capable of passive recognition with high performance results in real life environments – typically all that is needed is a glance in the direction of the reader anywhere from 3-6 feet away (video below).

This from SecureIDNews -

Bioscrypt's facial recognition selected by Japanese agency for access control
SecureIDNews Wednesday, March 21 2007

Forget ID cards, PINs or 20th century keys, just your face will do. At least that's the premise behind Bioscrypt's VisionAccess 3D Face Reader, which is being deployed by a Japanese government agency. The system will, at sub-second speed, perform multiple facial scans against a database of stored images and corresponding data, granting authorized persons access.

Bioscrypt Inc., a leading provider of enterprise access control solutions, today announced the deployment of its VisionAccess 3D Face Readers at a Japanese Government Agency located in Tokyo. Employees will be identified based on a face match only, without the need for ID cards, keys or PIN technology. In using only biometric identification, the system eliminates the risk of tokens and keys being lost, stolen or misused.

Invariance to Angles - Real-time video feed adds to the richness of 3D parameters, performing recognition with full head motion of up to 30’ degrees each direction allowing for flexibility is user positioning. Image Credit: Bioscrypt

The VisionAccess 3D Face Reader, the world's first three-dimensional facial identification/verification reader with active user feedback, was chosen by the systems integrator, Barrier Reef, as the biometric component of the physical access system to be deployed at the Tokyo based agency because of the unique combination of accuracy and speed of recognition that the system provides.

"The facial recognition units monitor the entry and exit of hundreds of people each day without failure," stated Haruo Kosugi, Director, Barrier Reef. "The agency is extremely pleased with the results and plans on expanding the program to other agencies within the next few months."

"Government agencies around the world continue to rely on Bioscrypt to provide leading edge biometric physical access control technologies to verify the identity of individuals who enter their facilities and with the recent introduction of 3D face solutions, Bioscrypt now offers a greater range of products to meet the demands of partners and end-user prospects," said Robert L. Williams, President and CEO Bioscrypt. "Barrier Reef has proven to be a valued partner for us in the Japanese market and we look forward to continued success with them going forward."

Bioscrypt's advanced 3D facial recognition system uses structured lighting to create a facial grid of 40,000 measurable data points. The system performs multiple facial scans and comparisons against a database of stored images and corresponding data, and conducts accurate identification at sub-second speeds, from which authorized persons are confirmed for access.
Reference Here>>

A typical secured space door access application demonstration:

"Look Ma, no hands!" - The advantage of biometric facial recognition in three dimensions.

QR Based PM Code - The Best 3D Symbology Ever, Really!

Normal PM Code with data memory capability uses 8-24 colors. Memory ranges from about 0.6MB~1.8MB (4,083,264 figures). Image Credit: C.I.A.

QR Based PM Code - The Best 3D Symbology Ever, Really!

And it is a 5th Generation Media symbology known as the PM Code. With this printed symbology one can use a simple cellphone with a camera and unleash incredible variants of communication ranging from simple data, to sound, to video … all at the snap of a camera button on the phone.

In the worlds of automatic identification and information technology, the question of what is the best machine-readable information-packed symbology ever has been answered ... Again!

Why?

Well, until someone comes up with a device readable code that can hold about 1.236 GB of information (2,854,408,421,376 figures) - Deliver as much information from a printed media symbology (code) to have a phone with the corresponding decode program and a camera play a low-resolution video with sound for approximately 20 seconds, or have the phone reach out automatically to entertainer, advertiser, and manufacturer websites to retrieve additional database stored information via Internet Protocol … then one can dispute this claim!!!

IP (Internet Protocol) based PM Code uses 256 colors. Memory ranges to about 1,236GB (2,854,408,421,376 figures). Image Credit: C.I.A.

The best symbology ever?

The best symbology ever may well be the PM Code (PM = Paper Memory), developed by a relatively new Japanese start-up company known as Content Idea of Asia Co., Ltd. (C.I.A.), The algorithm basis comes from the DENSO Wave - developed QR Code – originally intended for use in tracking and aiding the complex task of automobile parts manufacturing and sourcing throughout the automobile assembly process.
CL Code with data memory capability. Memory ranges from about 72KB (170,136 figures). Image Credit: C.I.A.

C.I.A. also has developed a “sister” code known as the CL Code (CL = Clear Code) which describes the effect of being able to add a code that does not need to be dark contrast against a light background to be decoded. This allows the information reference code to be laid on top of media in a transparent, layered look - in order to not take away from the printed media onto which it is applied.

Simple CL Code application in tomato photo. Image Credit: C.I.A.

The advantages of using the CL Code is that the customer’s viewing of marketing designs and images will not be hampered due to the application of an identifying Physical World Hyperlink or Physical World Identifier/Connection for the customer to use when getting additional information. One technique suggests that the CL Code may be printed in a band of matching product colored ink on the bottle. The information would not be able to be decoded until the contents of the bottle have been consumed or poured out … thus leaving the CL Code in a readable format.

Content Idea of Asia Co., Ltd. Explains the concept this way. Both the CL Code and its more robust “sister” PM Code are examples of 5th Generation Media.

What does this "5th Generation Media mean? Well,

1st Generation Media refers to paper media such as magazines, newspapers, and other printed media stratum.

2nd Generation Media refers to audio radio communication.

3rd Generation Media refers to television, video, and film media communications.

4th Generation Media refers to Information Technologies (IT) found in the digital world of computers and cellular telephones.

So now we come full circle and fuse the previous forms of communication together.

5th Generation Media allows the fusion of all forms of media to interact and cooperate, in order to take the advantage of each form to deliver a more effective level of communication through the application of this unique database found in a 3D (three-dimensional) color QR based code. A simple cellphone with a camera can unleash incredible variants of communication ranging from simple data, to sound, to video - YES VIDEO! … all at the snap of a camera button on the phone.

No IP address – just the PM Code and the “old media” adverts come to life! Applications include listening to portions of songs, videos, short how-to-use vignettes, security for access control, save, re-write, and store data media on flat format paper (instead of CD’s, DVD’s, or HD discs), and well, the sky is the limit.

Hey, how’s this - you are a curator of a museum and you would like the patrons to enjoy the exhibit a little more deeply with sound descriptions of what they are seeing. Place PM Codes next to each display and voila, the patron can hear all they wanted to know about the painting and the painter - complete with a video snippet on the painter’s technique. All of this interactive information without involving the audio/visual department and/or the equipment investment.

Next up?

The addition of smell - Okay, so this may be a little overboard ... but you get the idea!

HT: Content Idea of ASIA co., Ltd.