A comparative study of conducted electrical weapon incapacitation during a goal-directed task

AbstractConducted electrical weapons (CEW) are ubiquitous in law enforcement given their unique ability to physically incapacitate violently resisting subjects. Early use of animal models to study CEW incapacitation effectiveness (e.g. porcine model with 4-limb strain gauges) proved to be poorly predictive of human incapacitation effectiveness. In a previously published human study, we developed a methodology for the prospective assessment of the incapacitation effectiveness of CEWs in highly motivated human subjects. Here we use this methodology in Part 1 to compare the incapacitation effectiveness of the newly released Axon ® (formerly TASER® International) T(ASER) 7 to the TASER X26E, the “gold standard”, and the TASER X2, a current model. The T7 has a new “adaptive cross-connect” technology that may improve incapacitation effectiveness in the scenario of small spreads between probe pairs, a common cause of weapon “failure” in the field. In Part 2, we use our methodology to test the functionality of the T7 cross-connect technology by comparing different bay and probe configurations. This is the first published study in the literature comparing different CEW models using this human model. For Part 1 , 29 subjects completed the study and had data available for analysis. For Part 2, 21 subjects completed the study and had data available for analysis. The subjects were motivated to complete the task of reaching a suspended martial arts dummy 3.4 m (11 ft) away ...
Source: Forensic Science, Medicine, and Pathology - Category: Forensic Medicine Source Type: research