https://scholars.lib.ntu.edu.tw/handle/123456789/161019
Title: | Forensic Applications of Infrared Imaging for the Detection and Recording of Latent Evidence | Authors: | Lin, Apollo Chun-Yen Hsieh, Hsing-Mei Tsai, Li-Chin Linacre, Adrian Lee, James Chun-I |
Keywords: | forensic science;infrared (IR);bloodstains;tire prints;gunshot residue (GSR);burned documents | Issue Date: | 2007 | Journal Volume: | v.52 | Journal Issue: | n.5 | Start page/Pages: | 1148-1150 | Source: | JOURNAL OF FORENSIC SCIENCES | Abstract: | We report on a simple method to record infrared (IR) reflected images in a forensic science context. Light sources using ultraviolet light have been used previously in the detection of latent prints, but the use of infrared light has been subjected to less investigation. IR light sources were used to search for latent evidence and the images were captured by either video or using a digital camera with a CCD array sensitive to IR wavelength. Bloodstains invisible to the eye, inks, tire prints, gunshot residue, and charred document on dark background are selected as typical matters that may be identified during a forensic investigation. All the evidence types could be detected and identified using a range of photographic techniques. In this study, a one in eight times dilution of blood could be detected on 10 different samples of black cloth. When using 81 black writing inks, the observation rates were 95%, 88% and 42% for permanent markers, fountain pens and ball-point pens, respectively, on the three kinds of dark cloth. The black particles of gunshot residue scattering around the entrance hole under IR light were still observed at a distance of 60 cm from three different shooting ranges. A requirement of IR reflectivity is that there is a contrast between the latent evidence and the background. In the absence of this contrast no latent image will be detected, which is similar to all light sources. The use of a video camera allows the recording of images either at a scene or in the laboratory. This report highlights and demonstrates the robustness of IR to detect and record the presence of latent evidence. |
URI: | http://ntur.lib.ntu.edu.tw//handle/246246/87945 |
Appears in Collections: | 法醫學科所 |
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