firearm & toolmark identification. introduction the following resource is provided by the...
TRANSCRIPT
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Firearm & Toolmark Identification
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Introduction
The following resource is provided by the Scientific Working Group for Firearms & Toolmarks (SWGGUN) to assist forensic experts in describing the scientific basis of their discipline in preparation for evidence admissibility hearings.
The material posted here is for you to prepare yourself when educating the criminal justice system. The information contained within this presentation was not designed to be all-inclusive and can be adapted to meet your specific needs.
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Outline Basic Overview of Science &
Forensic Science Fundamentals of Firearm & Toolmark
Identification The Five Prongs of Daubert Summary
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Basic Overview of Science & Forensic Science
What is Science?Scientific MethodTo be Scientific…What is Forensic Science?
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What is Science?
A systematic gathering of knowledge.
The observation, identification, description, experimental investigation and the theoretical explanation of phenomena.
Basic Overview
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Scientific Method
Procedures for the systematic gathering of knowledge. These procedures generally involve:
Stating a problem Developing a hypothesis Testing a hypothesis Forming a theory Using theories to predict events
Basic Overview
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To be Scientific…
The theory must be testable.
The theory must be validated through the testing of the fundamental propositions upon which the science is based.
Basic Overview
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What is Forensic Science?
The application of science to law.
Basic Overview
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Fundamentals of Firearm & Toolmark Identification
Definitions Fundamental Propositions (1 & 2) Examination Method Range of Conclusions
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Definition: Firearm & Toolmark Identification
An empirical comparative analysis that can determine if a striated or impressed mark was produced by a particular tool.
Fundamentals of Firearm & Toolmark Identification
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Definition: Tool
The harder of two objects that comes into forceful contact with one another, resulting in the softer object being marked.
Fundamentals of Firearm & Toolmark Identification
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Features imparted on an object by the contact and force exerted from a tool. Two Types –
Impressed Toolmarks Striated Toolmarks
Definition: Toolmark
Fundamentals of Firearm & Toolmark Identification
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Definition: Impressed Toolmark
Features produced when a tool contacts an object with enough compressive force that it leaves an impression.
Fundamentals of Firearm & Toolmark Identification
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Definition: Striated Toolmark
Features produced when a tool contacts an object with lateral force and motion.
Fundamentals of Firearm & Toolmark Identification
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The Science of Firearm & Toolmark Identification is based on two fundamental propositions:
Fundamentals of Firearm & Toolmark Identification
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Toolmarks imparted to objects by different tools will rarely if ever display agreement sufficient to lead a qualified examiner to conclude the objects were marked by the same tool. That is, a qualified examiner will rarely if ever commit a false positive error (misidentification).
Proposition #1
Fundamentals of Firearm & Toolmark Identification
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Most manufacturing processes involve the transfer of rapidly changing or random marks onto work pieces such as barrel bores, breechfaces, firing pins, screwdriver blades, and the working surfaces of other common tools. This is caused principally by the phenomena of tool wear and chip formation, or by electrical/chemical erosion. Microscopic marks on tools may then continue to change from further wear, corrosion, or abuse.
Proposition #2
Fundamentals of Firearm & Toolmark Identification
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Definition: Class Characteristics
General and/or measurable features of a specimen which indicate a restricted group source. They result from design factors, and are therefore determined prior to manufacture.
Fundamentals of Firearm & Toolmark Identification
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Known Source:
RiflingQuestioned Item:
Bullet
Fundamentals of Firearm & Toolmark Identification
Examples of Class Characteristics
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Examples of Class Characteristics
Fundamentals of Firearm & Toolmark Identification
Corresponding Blade Dimensions
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Definition: Subclass Characteristics
Features that may be produced during manufacture that are consistent among some items fabricated by the same tool. These are not determined prior to manufacture and are more restrictive than class characteristics.
Fundamentals of Firearm & Toolmark Identification
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Example of Subclass
Fundamentals of Firearm & Toolmark Identification
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Definition: Individual Characteristics
Marks or features produced by the random imperfections or irregularities of tool surfaces. These characteristics can be used to individually associate a tool to a toolmark.
Fundamentals of Firearm & Toolmark Identification
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How are individual characteristics produced?
These random imperfections or irregularities can be produced by:
Manufacture Wear from Use Wear from Abuse
Fundamentals of Firearm & Toolmark Identification
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Example of Individual Characteristics from Manufacture
Fundamentals of Firearm & Toolmark Identification
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Example of Individual Characteristics from Wear
Use Abuse
Fundamentals of Firearm & Toolmark Identification
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Examination Process
Level 1 analysis - Class Characteristics Elimination, but not individualization, can
occur here
Fundamentals of Firearm & Toolmark Identification
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Examination Process
Level 2 analysis - Comparison Microscopy Individualization occurs only here
Fundamentals of Firearm & Toolmark Identification
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Range of Conclusions
Identification
Inconclusive
Elimination
Fundamentals of Firearm & Toolmark Identification
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Range of Conclusions - Identification
If the quality and character of the toolmark have sufficient detail, an identification can be concluded based on the correspondence of individual characteristics.
Fundamentals of Firearm & Toolmark Identification
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Examples of an Identification
Fundamentals of Firearm & Toolmark Identification
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Range of Conclusions - Inconclusive
If the quality and character of the toolmark are lacking, an examiner may not be able to make an identification or elimination. In this case an inconclusive result would be the appropriate response.
Fundamentals of Firearm & Toolmark Identification
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Examples of an Inconclusive
Fundamentals of Firearm & Toolmark Identification
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Examples of an Inconclusive
Fundamentals of Firearm & Toolmark Identification
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Range of Conclusions - Elimination
If significant disagreement in class characteristics exists, an elimination conclusion would be the appropriate response.
If disagreement in individual characteristics of an exceptional nature exists, an elimination conclusion may be the appropriate response.
Fundamentals of Firearm & Toolmark Identification
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Examples of an Elimination
Fundamentals of Firearm & Toolmark Identification
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Examples of an Elimination
Fundamentals of Firearm & Toolmark Identification
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Basis for Firearm & Toolmark Identification
Standards of IdentificationObjective vs. Subjective ExaminationsWhat makes an Identification possible?
Significance of Conclusions
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Identification Standard - I
“The Theory of Identification as it pertains to the comparison of toolmarks enables opinions of common origin to be made when unique surface contours of two toolmarks are in ‘sufficient agreement.’”
Objectively stated AFTE Identification Standard (1992)
Basis for Firearm & Toolmark Identification
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Identification Standard - II
“Agreement is significant when it exceeds the best agreement demonstrated between toolmarks known to have been produced by different tools and is consistent with the agreement demonstrated by toolmarks known to have been produced by the same tool.”
Objectively stated AFTE Identification Standard (1992)
Basis for Firearm & Toolmark Identification
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Identification Standard Summary
In the application of the objective AFTE Theory of Identification Standard, a subjective determination must be made by a qualified examiner as to the amount of agreement necessary for an identification to exist.
Basis for Firearm & Toolmark Identification
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An objective examination is one that can be repeated by different scientists and if using the same type of equipment and following the same procedures, will result in essentially the same conclusions every time.
Basis for Firearm & Toolmark Identification
Definition: Objective Examination
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The results of a subjective examination are based on an individual’s opinion. This does not mean that this type of examination is unreliable or unscientific. There is subjectivity in every science and in every test, whether it being a doctor diagnosing a head cold or a chemist determining where to set the base line on a scientific instrument.
Basis for Firearm & Toolmark Identification
Definition: Subjective Examination
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What makes an identification possible?
Proposition #2 A sound examination method
By employing the precepts of empirical research or study in the comparison of two toolmarks.
Specialized training to develop cognitive skills An examiner undergoes standardized
technical training that develops cognitive skills to recognize, differentiate and understand the patterns of marks and their uniqueness.
Basis for Firearm & Toolmark Identification
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Significance of Conclusions
Based on Propositions #1 and #2, an individual association or identification conclusion can be effected. These individual associations result from the “practical certainty” of the validated theory and not from “absolute certainty”.
Basis for Firearm & Toolmark Identification
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Five Prongs of Daubert
Testability General Acceptance Peer ReviewKnown or Potential Error RateMaintenance of Standards & Controls
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Definition: Testability
A critical evaluation process that supports or refutes a hypothesis.
Five Prongs of Daubert- Testability
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What evidence exists to support the science of Firearm & Toolmark Identification?
Numerous empirical and validation studies of consecutively manufactured tools have been published over the past 50 years.
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies: Gun Barrels (Cut Rifling)
Lutz (1970) Skolrood (1975) Brown & Bryant (1995) Brundage (1998) Miller (2000)
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies: Gun Barrels (Forged Rifling)
Murdock (1981) Hall (1983) Matty (1985)
Electrochemical Rifling DeFrance (2003)
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies: Breech/boltface
Matty – Raven Breechfaces (1984) Bunch & Murphy- Glock Breechfaces (2003) Coffman – Remington Bolt Faces (2003) Coody – Ruger Breechfaces (2003) Fadul, et al- Ruger Breechfaces (2011) LaPorte- Hi-Point Breechfaces (2011)
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies: Other Firearm Components
Lyons- Extractors (2009) Mayland & Tucker- Chambers (2012)
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies: Other Tools
Flynn – Chisels (1957) Burd & Gilmore – Screwdrivers (1968) Butcher & Pugh – Bolt Cutters (1975) Reitz – Drill Bits (1975) Watson – Knives (1978) Cassidy – Pliers (1980) Tuira – Knives (1982)
Five Prongs of Daubert- Testability
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Consecutive Manufacture Studies:Other Tools
Van Dijk – Steel Stamps (1985) Eckerman – Chisels (2002) Lee – Screwdrivers (2003) Thompson & Wyant – Knives (2003) Clow – Knives (2005)
Five Prongs of Daubert- Testability
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Summary of Empirical Research
These studies have been found to support Proposition #2:
Most manufacturing processes involve the transfer of rapidly changing or random marks onto work pieces such as barrel bores, breechfaces, firing pins, screwdriver blades, and the working surfaces of other common tools. This is caused principally by the phenomena of tool wear and chip formation, or by electrical/chemical erosion. Microscopic marks on tools may then continue to change from further wear, corrosion, or abuse.
Five Prongs of Daubert- Testability
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Definition: General Acceptance
The approval by a particular authoritative body of a technique or methodology.In addition to the forensic science community:
Numerous colleges & universities have courses in Firearm & Toolmark Identification
Funding of scientific research in the area of Firearm & Toolmark Identification has been granted to researchers outside the firearm and toolmark community.
Accepted in court testimony for almost 90 years
Five Prongs of Daubert- General Acceptance
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Academic Programs withFirearm & Toolmark CurriculaAlexandria University Egypt Ashland University OHAtlantic Cape Community College NJBaylor University TXBowling Green State University OHCalifornia Parkland College CACentral Piedmont Community College NCClark State Community College OHEastern Kentucky University KYEastern Nazarene College MSECPI College of Technology VAEmillio Aguinaldo College PhilippinesFarmingdale State University of New York NYFlorida State University Panama City FLGeorge Mason University VA George Washington University DCGrayson County College TX Guilford Technical Community College NCIllinois Preston College United KingdomKansas State University KSLiverpool John Moores United Kingdom Manuel S. Enverga University Philippines
Michigan State University MI Michigan National University MI Prince George's Community College MD Salt Lake Community College UTSam Houston State University TX Santa Ana College CASeton Hill University PATowson University MDTexas Wesleyan TXUniversity of Central Oklahoma OKUniversity of Illinois at Chicago ILUniversity of North Florida FLUniversity of North Texas TXUniversity of Rochester NYUniversity of Tennessee TNVirginia Commonwealth University VAWallace State Community College ALWarren Wilson College NCWest Georgia Youth Science & Technology GAWest Virginia University WV
Five Prongs of Daubert- General Acceptance
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Grant Programs
National Institute of Justice, Washington, D.C.
AGIS, Brussels Belgium
Canadian Police Research Centre, Ottawa, Canada
Five Prongs of Daubert- General Acceptance
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Earliest Firearm & Toolmark Testimonies Based on the Side-by-Side Microscopic Comparison
Firearms: Stielow Case, 1917
Sacco-Vanzetti Case, 1921
Toolmarks: State v. Clark, 1930
Five Prongs of Daubert- General Acceptance
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Definition: Peer Review & Publication
The evaluation of a colleague's research.
Selected Peer Reviewed Journals Association of Firearm & Tool Mark Examiners–
AFTE Journal, since 1969 American Academy of Forensic Sciences - Journal
of Forensic Sciences, since cir.1942 International Association of Identification - Journal
of Forensic Identification, since 1988
Five Prongs of Daubert- Peer Review & Publication
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Definition: Error Rate
The frequency at which one deviates from a correct standard. Errors can occur from a number of sources and may result in a:
False Positive Error: Identification of a toolmark to a tool when the questioned toolmark was not produced by the tool.
False Negative Error: Elimination of a toolmark as having been produced by a tool when the toolmark was produced by the tool.
Five Prongs of Daubert- Error Rate
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CTS Error Rates: 1992-2000 & 2003
Firearms False Positive = 1.9% Firearms False Negative = 0.4%
Toolmark False Positive = 2.2% Toolmark False Negative = 2.0%
Reference: Murphy, Doug, “Firearms – Toolmarks Error Rate Computation and Analysis”, Presentation given at AFTE Training Seminar, June 2006.
Five Prongs of Daubert- Error Rate
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Validity Study Error Rates
Brundage (1998) 0% Hamby & Thorpe (2001) 0% Bunch & Murphy (2003) 0% DeFrance (2003) 0% Thompson & Wyant (2003) 0.78% Smith (2005) 0% Orench (2005) 0% Hamby, Brundage, & Thorpe (2008) 0.0712% Lyons (2009) 1.2%
Five Prongs of Daubert- Error Rate
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Validity Study Error Rates (con’t.)
Giroux (2009) 0% Fadul (2011) .4% Fadul, et al (2012) >.1% Mayland & Tucker (2012) .927%
Five Prongs of Daubert- Error Rate
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Maintenance of Standards & Controls
The establishment and maintenance of operational guidelines/protocols for conducting analytical testing, monitoring quality assurance and controls.
Representative documents: Agency Technical Protocols SWGGUN Guidelines AFTE Technical Procedures Manual AFTE Theory of Identification AFTE Glossary AFTE Training Manual ASCLD/LAB Criteria Manual
Five Prongs of Daubert- Maintenance of Standards
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SummaryFirearm & Toolmark Identification meets the reliability standard put forth by the Daubert decision because it :
is Testable is Generally Accepted is Peer Reviewed has Known Error Rates maintains Standards & Controls
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Updated 6/8/2012