Eugene Liscio scite author profile

Three-dimensional (3D) technologies contribute greatly to bullet trajectory analysis and shooting reconstruction. There are few papers which address the errors associated with utilizing laser scanning for bullet trajectory documentation. This study examined the accuracy and precision of laser scanning for documenting trajectory rods in drywall for angles between 25° and 90°. The inherent error range of 0.02°-2.10° was noted while the overall error for laser scanning ranged between 0.04° and 1.98°. The inter- and intraobserver errors for trajectory rod placement and virtual trajectory marking showed that the range of variation for rod placement was between 0.1°-1° in drywall and 0.05°-0.5° in plywood. Virtual trajectory marking accuracy tests showed that 75% of data values were below 0.91° and 0.61° on azimuth and vertical angles, respectively. In conclusion, many contributing factors affect bullet trajectory analysis, and the use of 3D technologies can aid in reduction of errors associated with documentation.

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Calculating Point of Origin of Blood Spatter Using Laser Scanning Technology

Hakim

Liscio²

2015

Journal of Forensic Sciences

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The point of origin of an impact pattern is important in establishing the chain of events in a bloodletting incident. In this study, the accuracy and reproducibility of the point of origin estimation using the FARO Scene software with the FARO Focus(3D) laser scanner was determined. Five impact patterns were created for each of three combinations of distances from the floor (z) and the front wall (x). Fifteen spatters were created using a custom impact rig, scanned using the laser scanner, photographed using a DSLR camera, and processed using the Scene software. Overall results gave a SD = 3.49 cm (p < 0.0001) in the x-direction, SD = 1.14 cm (p = 0.9291) in the y-direction, and SD = 9.08 cm (p < 0.0115) in the z-direction. The technique performs within literature ranges of accepted accuracy and reproducibility and is comparable to results reported for other virtual stringing software.

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The accuracy of laser scanning technology on the determination of bloodstain origin

Lee

Liscio²

2015

Canadian Society of Forensic Science Journal

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A comparison of reverse projection and PhotoModeler for suspect height analysis

Liscio

Guryn

et al. 2021

Forensic Science International

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Automated reconstruction of cast-off blood spatter patterns based on Euclidean geometry and statistical likelihood

McCleary

Liscio²,

Brabanter

et al. 2021

Forensic Science International

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Suspect Height Estimation Using the Faro Focus^3D Laser Scanner

Johnson

Liscio²

2015

Journal of Forensic Sciences

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At present, very little research has been devoted to investigating the ability of laser scanning technology to accurately measure height from surveillance video. The goal of this study was to test the accuracy of one particular laser scanner to estimate suspect height from video footage. The known heights of 10 individuals were measured using an anthropometer. The individuals were then recorded on video walking along a predetermined path in a simulated crime scene environment both with and without headwear. The difference between the known heights and the estimated heights obtained from the laser scanner software were compared using a one-way t-test. The height estimates obtained from the software were not significantly different from the known heights whether individuals were wearing headwear (p = 0.186) or not (p = 0.707). Thus, laser scanning is one technique that could potentially be used by investigators to determine suspect height from video footage.

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The Accuracy and Repeatability of Reconstructing Single Bullet Impacts Using the 2D Ellipse Method

Walters

Liscio

2020

Journal of Forensic Sciences

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When a bullet punctures a surface, it leaves behind a bullet impact, which can be analyzed in order to determine the origin and trajectory path from which a bullet was discharged using many different scientific methods to reconstruct a shooting scene. The purpose of the research was to test the accuracy and repeatability of reconstructing the impact angle of single bullet impacts using the ellipse method. The research was conducted by firing various calibers of ammunition into drywall panels positioned at varying angles of incidence from 88° until ricochet occurred. This was done in order to determine which caliber type and angle of incidence are most accurate and precise for reconstructing a shooting scene. The study examined four caliber types fired into drywall panels, with 5 repeated shots for each of the 11 angles of incidence (n = 220). Furthermore, 31 participants partook in the study to estimate a bullet impact angle of incidence utilizing the ellipse method. The results show that the best performance (accuracy and repeatability) is seen with the measurements of the 0.45 caliber ammunition. When angle of incidences is low (<64°), the performance (accuracy and repeatability) was seen to be better in all caliber ammunitions. Overall, the data provided for single bullet impacts deposited in drywall show that the ellipse method is useful in providing measurements for most crime scene reconstruction purposes and has also demonstrated that results vary depending on the type of ammunition, firearm, and angle of incidence being examined.

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Eugene Liscio

A comparative study between FARO Scene and FARO Zone 3D for area of origin analysis

Accuracy and Repeatability of Trajectory Rod Measurement Using Laser Scanners

Calculating Point of Origin of Blood Spatter Using Laser Scanning Technology

The accuracy of laser scanning technology on the determination of bloodstain origin

A comparison of reverse projection and PhotoModeler for suspect height analysis

Automated reconstruction of cast-off blood spatter patterns based on Euclidean geometry and statistical likelihood

Suspect Height Estimation Using the Faro Focus^3D Laser Scanner

The Accuracy and Repeatability of Reconstructing Single Bullet Impacts Using the 2D Ellipse Method

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Eugene Liscio

A comparative study between FARO Scene and FARO Zone 3D for area of origin analysis

Accuracy and Repeatability of Trajectory Rod Measurement Using Laser Scanners

Calculating Point of Origin of Blood Spatter Using Laser Scanning Technology

The accuracy of laser scanning technology on the determination of bloodstain origin

A comparison of reverse projection and PhotoModeler for suspect height analysis

Automated reconstruction of cast-off blood spatter patterns based on Euclidean geometry and statistical likelihood

Suspect Height Estimation Using the Faro Focus3D Laser Scanner

The Accuracy and Repeatability of Reconstructing Single Bullet Impacts Using the 2D Ellipse Method

Contact Info

Product

Resources

About

Suspect Height Estimation Using the Faro Focus^3D Laser Scanner