Crime Scene Reconstruction Using a Fully Geomatic Approach

This paper is focused on two main topics: crime scene reconstruction, based on a geomatic approach, and crime scene analysis, through GIS based procedures. According to the experience of the authors in performing forensic analysis for real cases, the aforesaid topics will be examined with the specific goal of verifying the relationship of human walk paths at a crime scene with blood patterns on the floor. In order to perform such analyses, the availability of pictures taken by first aiders is mandatory, since they provide information about the crime scene before items are moved or interfered with. Generally, those pictures are affected by large geometric distortions, thus - after a brief description of the geomatic techniques suitable for the acquisition of reference data (total station surveying, photogrammetry and laser scanning) - it will be shown the developed methodology, based on photogrammetric algorithms, aimed at calibrating, georeferencing and mosaicking the available images acquired on the scene. The crime scene analysis is based on a collection of GIS functionalities for simulating human walk movements and creating a statistically significant sample. The developed GIS software component will be described in detail, showing how the analysis of this statistical sample of simulated human walks allows to rigorously define the probability of performing a certain walk path without touching the bloodstains on the floor.

[1]  Pierre Grussenmeyer,et al.  ARCHITECTURAL PHOTOGRAMMETRY: Basic theory, Procedures, Tools , 2002 .

[2]  Hsiao-Yu Lee,et al.  Development of a quantitative assessment system for correlation analysis of footprint parameters to postural control in children , 2006, Physiological measurement.

[3]  Clive S. Fraser,et al.  Developments in Close-Range Photogrammetry for 3D Modelling: the iWitness Example , 2004 .

[4]  Fulvio Rinaudo,et al.  Multiple scan registration in LIDAR close-range applications , 2003 .

[5]  Eva Savina Malinverni,et al.  PHOTOINTERPRETATION AND SMALL SCALE STEREOPLOTTING WITH DIGITALLY RECTIFIED PHOTOGRAPHS WITH GEOMETRICAL CONSTRAINTS 1 , 2001 .

[6]  G. Karras,et al.  SIMPLE CALIBRATION TECHNIQUES FOR NON-METRIC CAMERAS , 2001 .

[7]  Charles Q. Little,et al.  Forensic 3D scene reconstruction , 2000, Applied Imaging Pattern Recognition.

[8]  Didier Meuwly,et al.  Institut de Police Scientifique et Criminologie, , 1998 .

[9]  New application field for the HandyScan 3D: the Res Gestae Divi Augustiof the Augustus Temple (Ankara). A restoration survey , 2007 .

[10]  Toby Howard,et al.  Interactive reconstruction of virtual environments from photographs, with application to scene-of-crime analysis , 2000, VRST '00.

[11]  Clive S. Fraser,et al.  Close-range photogrammetry for accident reconstruction , 2005 .

[12]  Edward M. Robinson,et al.  Crime Scene Photography , 2007 .

[13]  H. S. Wolff,et al.  iRun: Horizontal and Vertical Shape of a Region-Based Graph Compression , 2022, Sensors.

[15]  Jin-Woo Jung,et al.  Dynamic-footprint based person identification using mat-type pressure sensor , 2003, Proceedings of the 25th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (IEEE Cat. No.03CH37439).

[16]  Cs Fraser,et al.  Analytical Photogrammetric Operations , 2004 .