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International Journal of Legal Medicine

Erschienen in:

18.10.2017 | Original Article

An eye tracking study of bloodstain pattern analysts during pattern classification

verfasst von: R. M. Arthur, J. Hoogenboom, R. D. Green, M. C. Taylor, K. G. de Bruin

Erschienen in: International Journal of Legal Medicine | Ausgabe 3/2018

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Abstract

Bloodstain pattern analysis (BPA) is the forensic discipline concerned with the classification and interpretation of bloodstains and bloodstain patterns at the crime scene. At present, it is unclear exactly which stain or pattern properties and their associated values are most relevant to analysts when classifying a bloodstain pattern. Eye tracking technology has been widely used to investigate human perception and cognition. Its application to forensics, however, is limited. This is the first study to use eye tracking as a tool for gaining access to the mindset of the bloodstain pattern expert. An eye tracking method was used to follow the gaze of 24 bloodstain pattern analysts during an assigned task of classifying a laboratory-generated test bloodstain pattern. With the aid of an automated image-processing methodology, the properties of selected features of the pattern were quantified leading to the delineation of areas of interest (AOIs). Eye tracking data were collected for each AOI and combined with verbal statements made by analysts after the classification task to determine the critical range of values for relevant diagnostic features. Eye-tracking data indicated that there were four main regions of the pattern that analysts were most interested in. Within each region, individual elements or groups of elements that exhibited features associated with directionality, size, colour and shape appeared to capture the most interest of analysts during the classification task. The study showed that the eye movements of trained bloodstain pattern experts and their verbal descriptions of a pattern were well correlated.

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Bloodstain patterns that result from an object striking liquid blood [22].

Accuracy is the difference between the true and measured gaze direction [25].

Precision is how consistent calculated gaze points are, when the true gaze direction is constant [25].

The smallest rectangle containing an element [3].

K-nearest-neighbour search method uses the Euclidean distance metric to find the nearest neighbour in X for each point in Y. Therefore, distances between each observation in Y and the corresponding closest observation in X can be retrieved [29].

A bloodstain resulting from a blood drop dispersed through the air due to an external force applied to a source of liquid blood [22].

A bloodstain pattern resulting from blood forced by airflow out of the nose, mouth, or a wound [22].

Each fixation that is made by a participant adds a value to the colour map that is proportional to its duration [30].

Arthur RM, Cockerton SL, de Bruin KG, Taylor MC (2015) A novel element-based approach for the objective classification of bloodstain patterns. Forensic Sci Int 257:220–228CrossRef

Bernstein, E. (2005). Science in bloodstain pattern analysis. International Association of Bloodstain Pattern Analysts News, 16–19

Arthur RM, Baiker M, Humburg PJ, Hoogenboom J, Taylor MC, de Bruin KG (2017) An image-processing methodology for extracting bloodstain pattern features. Forensic Sci Int 277:122–132. https://doi.org/10.1016/j.forsciint.2017.05.022 CrossRef

Linhares A, Chada DM (2012) What is the nature of the mind’s pattern-recognition process? New Ideas Psychol 31(2):1–4. https://doi.org/10.1016/j.newideapsych.2012.08.001

Simon HA (1986) The information processing explanation of Gestalt phenomena. Comput Hum Behav 2:241–255CrossRef

Buswell GT (1935) How people look at pictures: a study of the psychology of perception in art. The University of Chicago Press, Chicago, pp 1–144

Yarbus AL (1967) Eye movements and vision. Plenum Press, New York, pp 1–211CrossRef

Just MA, Carpenter PA (1976) Eye fixations and cognitive processes. Cogn Psychol 8:441–480CrossRef

Bojko, A., (2013). Eye tracking the user experience: a practical guide to research. Rosenfeld Media, pp 4–287

10.

Poole, A., & Ball, L.J. Eye tracking in Human-Computer Interaction and Usability Research: Current status and future prospects. Encyclopedia of Human-Computer Interaction. Pennsylvania: Idea Group, Inc, pp. 1–9

11.

Kundel HL, Nodine CF, Krupinsky EA, Mello-Thoms C (2008) Using gaze-tracking data and mixture distribution analysis to support a holistic model for the detection of cancers on mammograms. Acad Radiol 15(7):881–886CrossRef

12.

Nodine CF, Mello-Thoms C, Kundel HL, Weinstein SP (2002) Time course of perception and decision-making during mammographic interpretation. AJR 179(4):917–923CrossRef

13.

Matsumoto H, Terao Y, Yugeta A, Fukuda H, Emoto M, Furubayashi T, Ugawa Y (2011) Where do neurologists look when viewing brain CT images? An eye-tracking study involving stroke cases. PLoS One 6(12):e28928. https://doi.org/10.1371/journal.pone.0028928 CrossRef

14.

Charness N, Reingold EM, Pomplun M, Stampe DM (2001) The perceptual aspect of skilled performance in chess: evidence from eye movements. Mem Cog 29(8):1146–1152CrossRef

15.

Busey T, Yu C, Wyatte D, Vanderkolk J, Parada F, Akavipat R (2011) Consistency and variability among latent print examiners as revealed by eye tracking methodologies. J Forensic Identif 61(1):60–91

16.

Dyer A, Found B, Rogers D (2006) Visual attention and expertise for forensic signature analysis. J Forensic Sci 51(6):1397–1404CrossRef

17.

Merlino M (2015) Validity, reliability, accuracy and bias in forensic signature identification. Report no: 2010-DN-BX-K271, National Institute of Justice, U.S. Department of Justice

18.

Watalingam, R. (2016). Eye tracking to evaluate proficiency of crime scene investigators with varying levels of expertise: the ability to recognise evidence and to understand its significance. Unpublished master’s thesis, Eberly College of Arts and Sciences at West Virginia University, West Virginia

19.

Tobii Technology AB. (2010). Tobii eye tracking: an introduction to eye tracking and Tobii eye trackers. [whitepaper]. Retrieved September 20, 2015 from http://acuityets.com/downloads/Tobii/20Eye/20Introduction/20Whitepaper.pdf

20.

Rayner K (1995) Eye movements and cognitive processes in reading, visual search and scene perception. Stud Vis Inf Process 6:3–22. https://doi.org/10.1016/S0926-907X(05)80003-0

21.

Mackworth N, Morandi A (1967) The gaze selects informative details within pictures. Percept Psychophys 2(11):547–552CrossRef

22.

SWGSTAIN (2009) Scientific working group on bloodstain pattern analysis: recommended terminology, Forensic Science Communications, 11

23.

Image J, accessed July 2016, Public domain, http://imagej.nih.gov/ij

24.

Tobii Studio: User manual: calibration and calibration verification tool. Tobii technology, Stockholm, Sweden Retrieved 21 Sept 2015

25.

Holmqvist, K., Nyström, M., & Mulvey, F. (2012). Eye tracker data quality: what it is and how to measure it? Proceedings of the symposium on eye tracking research and applications, 45–52

26.

Tobii Studio: User Manual (version 3.2). Tobii Technology, Stockholm, Sweden Retrieved September 21, 2015 from http://www.tobiipro.com/siteassets/tobii-pro/user-manuals/tobii-pro-x2-60-eye-tracker-user-manual.pdf/?v=1.0.3

27.

Bevel T, Gardner RM (2008) Bloodstain pattern analysis with an introduction to crime scene reconstruction. CRC Press, Boca Raton, pp 37–87

28.

James, S., Kish, P., & Sutton, P. (2005). Principles of bloodstain pattern analysis: theory and practice (ed.). Florida: Taylor & Francis Group

29.

Friedman JH, Bentely J, Finkel RA (1977) An algorithm for finding best matches in logarithmic expected time. ACM TOMS 3(3):209–226CrossRef

30.

Bojko A (2009) Informative or misleading? Heatmaps deconstructed. In: Jacko JA (ed) Human-computer interaction. New trends. HCI 2009. Lecture notes in computer science, vol 5610. Springer, Berlin, Heidelberg, pp 30–39

31.

Loftus G, Mackworth N (1978) Cognitive determinants of fixation location during picture viewing. J Exp Psychol 4(4):565–572

32.

Balthazard, V., Piedlievre, R., Desoille, H., & DeRobert, L. (1939). Etude des gouttes de sang projete (study of projected drops of blood), in annual Medecine Legale Criminol police science toxicology, 22nd congress of forensic medicine: Paris, France pp 265-323

33.

Loftus G (1985) Picture perception: effects of luminance on available information and information-extraction. J Exp Psychol 114(3):342–356CrossRef

34.

Williams L (1966) The effect of target specification on objects fixated during visual search. Percept Psychophys 1:315–318CrossRef

Titel: An eye tracking study of bloodstain pattern analysts during pattern classification
verfasst von: R. M. Arthur
J. Hoogenboom
R. D. Green
M. C. Taylor
K. G. de Bruin
Publikationsdatum: 18.10.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: International Journal of Legal Medicine / Ausgabe 3/2018
Print ISSN: 0937-9827
Elektronische ISSN: 1437-1596
DOI: https://doi.org/10.1007/s00414-017-1711-6

Springer Medizin

An eye tracking study of bloodstain pattern analysts during pattern classification

Abstract

Neu im Fachgebiet Rechtsmedizin

Molekularpathologische Untersuchungen im Wandel der Zeit

Vergleichende Pathologie in der onkologischen Forschung

Gastrointestinale Stromatumoren

Personalisierte Medizin in der Onkologie

Springer Medizin

Abstract

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