ballistics identification

Cartridge Case Signature Identification Using Topography Measurements and Correlations. Unification of Microscopy and Objective Statistical Methods

A comparison microscope employing the standard optical comparison method and confocal microscopy with subsequent cross correlation topography analysis were used to correctly identify cases fired from a set of ten (10) consecutively made pistol slides. The mathematical identifications were based on the breech face impression without the firing pin aperture shear marks. Fifteen (15) unknown cartridge cases were compared to test fired cartridge case sets from the consecutively manufactured slides.

Bullet Signature Identification Using Topography Measurements and Correlations. Unification of Microscopy and Objective Statistical Methods

Current firearm identification is based on image comparisons using optical comparison microscopes. The ability to produce an accurate identification depends on image quality which is largely affected by lighting conditions. Because ballistic signatures are geometrical micro-topographies by nature, the main objective is to demonstrate the usefulness of surface topography measurement techniques for firearm identification. Additionally, an objective mathematically based acquisition and comparison method would help demonstrate the foundation of the science of firearm and toolmark identification. 

Establishing a Traceability and Quality System for U.S. Ballistics Identification Using NIST SRM Standard Bullets and Cartridge Cases

Positive results of introduction of project NBIС conducted by NIST in conjunction with ATF. The project is designed to ensure the quality of ballistic identification ballistic laboratories in the USA.