AI Article Synopsis
- The study explored the recovery of flock fibres used as tracers in car exchange scenarios, aiming to optimize their use for forensic investigations.
- The research examined factors like fibre length, car upholstery, and trouser material on the transfer and persistence of these fibres through both lab and realistic field experiments.
- Results showed that while flock fibres initially experienced rapid loss during movement, they were still recovered in large quantities, supporting their effectiveness as invisible evidence for reconstructing events.
Article Abstract
This study assessed the recovery of flock fibres used as a tracer in a car exchange scenario. Flock fibres were deposited onto a car seat (or model thereof) and their transfer and persistence was investigated after a real or simulated car exchange. The overall aim of this study was to achieve an optimal use of flock fibres as tracers, i.e. to be able to select a fit-for-purpose flock fibre, to be able to predict the amount of flock fibres to be recovered from crime related items, and to be able to use these numbers to exclude accidental uptake. The effect of a number of variables on the transfer and persistence of flock fibres was studied, including flock fibre length, car upholstery, and trousers material. Laboratory based experiments were undertaken first, followed by realistic field based experiments. The flock fibres were captured in a non-destructive manner through fluorescence photography. A Matlab algorithm enabled fast automated counting of flock fibres on the images. Results indicate that an initial rapid loss of flock fibres from garments may be expected as a result of moderate movement. Although the amount of flock fibres to be recovered is affected by the flock fibre length, the type of car upholstery, and the type of trousers materials (if frictional force is taken into consideration), large numbers of flock fibres have been recovered from all target materials throughout the transfer route. These numbers are higher than the amount of flock fibres recovered due to accidental uptake. In conclusion, flock fibres can serve as invisible evidence to reconstruct a series of events.
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| http://dx.doi.org/10.1016/j.forsciint.2017.03.005 | DOI Listing |
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