1. Chapter 3
FINGERPRINTS

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3. History
The first systematic attempt at personal identification was devised by a French police expert, Alphonse Bertillion.
The Bertillion system relied on a detailed description of the subject, combined with full length and profile photographs and a system of precise body measurements called anthropometry.
In 1892 Francis Galton published his classic textbook Finger Prints.
At Galton’s insistence, the British government adopted fingerprinting as a supplement to the Bertillion system.
The next step was the creation of classification systems capable of filing many thousands of prints in a logical and searchable sequence.
FINGERPRINTS

4. History
The Bertillon System was generally accepted for thirty years. But in 1903, when a man named Will West was sentenced to the U.S. Penitentiary at Leavenworth Kansas, it was discovered that there was already a prisoner at the penitentiary at the time, whose Bertillon measurements were nearly the same, and his name was William West.
In 1903, when the Bertillion system could not distinguish between two men (one Will West and the other William West), it was fingerprinting that clearly distinguished them.
After the Will West incident, the use of fingerprinting by the New York City Civil Service Commission in 1901, and the training of American police by Scotland Yard representatives at the 1904 World’s Fair, fingerprinting began to be used in earnest in all major U.S. cities.
FINGERPRINTS

5. Volar Pads Pads begin to appear on the fingers around 7.5 weeks.
Studies show there is a direct correlation between the location, shape and size of volar pads and fingerprint patterns.
The shape of the volar pad can be the result of genetics or external physical influences or a combination of both.
Similarities in overall pattern design can be seen quite often in siblings - especially identical twins. This is apparently the result of similar genetic encoding responsible for volar pad development.
Fingerprint patterns are not just the result of genetic factors but also random physical stresses and tensions.
The exact arrangements of the ridges, minutiae and other identifying features are random and not genetically linked (and thus not inheritable). 5

6. Biology of Prints FINGERPRINTS
The epidermis is the outer layer of the skin, while the dermis is the inner layer of the skin.
The dermal papillae is the layer of cells between the epidermis and dermis, that is responsible for determining the form and pattern of the ridges on the surface of the skin.
Once the dermal papillae develop in the human fetus, the ridge patterns will remain unchanged throughout life except to enlarge during growth.
Each skin ridge is populated with pores leading to sweat glands from which perspiration is deposited on the skin.
Once the finger touches a surface, perspiration, along with oils that may have been picked up by touching the hairy portions of the body, is transferred onto that surface, leaving the finger’s ridge pattern (a fingerprint).
FINGERPRINTS

7. Biology of Prints

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9. Fingerprint Principles
Fingerprints are a reproduction of friction skin ridges found on the palm side of the fingers and thumbs.
The basic principles underlying the use of fingerprints in criminal investigations are that:
1. a fingerprint is an individual characteristic because no two fingers have yet been found to possess identical ridge characteristics
2. a fingerprint will remain unchanged during an individual’s lifetime
3. fingerprints have general ridge patterns that permit them to be systematically classified
FINGERPRINTS

10. Fingerprint Principles
Mathematically, the probability for the existence of two identical fingerprint patterns in the world’s population is extremely small.
Besides theoretical calculations, of the millions upon millions of individuals who have had their prints classified, no two fingerprints have been found to be identical.
The individuality of a fingerprint is not determined by its general shape or pattern, but by the careful study of its ridge characteristics, known as minutiae.
It is the identity, number, and relative location of these minutiae that imparts individuality to a fingerprint.
FINGERPRINTS

11. The famous American gangster John Dillinger burnt his fingerprints off with acid - but he could have saved himself the intense pain, because they grew back. 11

12. Ridge Characteristics
Minutiae—characteristics of ridge patterns
Ridge ending
Short ridge
Dot or fragment
Bifurcation
Double bifurcation
Trifurcation
Bridge
Island
Enclosure
Spur

13. Fingerprint Minutiae

14. Fingerprint Principles
There are as many as 150 minutiae on the average finger.
After a three year study, it was determined that “no valid basis exists for requiring a predetermined minimum number of friction ridge characters which must be present in two impressions in order to establish positive identification.”
In a judicial proceeding, an expert must demonstrate a point-by-point comparison in order to prove the identity of an individual.
FINGERPRINTS

15. Types of Fingerprints Arch Loop Whirl About 5% world’s population

16. Fingerprint Patterns Only 3 fingerprint patterns.
You may have only one pattern, combination of two or all three present on your fingers.
In each fingerprint you have ridges that form specific shapes.
Arch
Loop
Whorl 16

17. Arch (5%)
An arch has friction ridges that enter on one side of the finger and cross to the other side while rising upward in the middle. They do NOT have type lines, deltas, or cores.
Types
Plain
Tented

18. Loop (60-65%)
A loop must have one or more ridges entering and exiting from the same side. Loops must have one delta.
Types
Radial—opens toward the thumb
Ulnar—opens toward the “pinky” (little finger)
Which type of loop is this, if it is on the right hand? Left hand?

19. Whorl (30-35%)
A plain or central pocket whorl has at least one ridge that makes a complete circuit. A double loop is made of two loops. An accidental is a pattern not covered by other categories. Whorls have at least two deltas and a core.
Types
Plain
Central Pocket
Double Loop
Accidental

20. The 3 Levels of Detail Level 1: Pattern Type
Level 2: Ridge path/detail
Level 3: Ridge Shapes and pore location 20