A comparison of Expert and Novice marksmanship performance and postural mechanics using inertial measurement units (IMUs) during dynamic live-fire shooting.

Marksmanship is a foundational Soldier skill required for all active-duty military personnel regardless of duty position. This research compared shooting performance and underlying postural mechanics of Expert and Novice marksmen during a dynamic, live-fire shooting task. Eighteen military personnel volunteered to participate in this study (n = 9 Experts and n = 9 Novices).

Females and males use different hip and knee mechanics in response to symmetric military-relevant loads.

The purpose of this study was to determine if females and males use different hip and knee mechanics when walking with standardized military-relevant symmetric loads. Fifteen females and fifteen males walked on a treadmill for 2-min at a constant speed under three symmetric load conditions (unloaded: 1.71 kg, medium: 15 kg, heavy: 26 kg).

Load Carriage and Physical Exertion Influence Cognitive Control in Military Scenarios.

Introduction: Physical exertion has both beneficial and detrimental effects on cognitive performance, particularly cognitive control. Research into physical exertion under conditions of load carriage is particularly important given that military personnel and first responders must perform optimally under such combinatorial physical stressors. The present work sought to characterize cognitive control as a function of physical exertion and load carriage in a military operational scenario.

Spatiotemporal Parameters are not Substantially Influenced by Load Carriage or Inclination During Treadmill and Overground Walking.

Influences of load carriage and inclination on spatiotemporal parameters were examined during treadmill and overground walking. Ten soldiers walked on a treadmill and overground with three load conditions (00 kg, 20 kg, 40 kg) during level, uphill (6% grade) and downhill (-6% grade) inclinations at self-selected speed, which was constant across conditions. Mean values and standard deviations for double support percentage, stride length and a step rate were compared across conditions.

Lower limb flexion posture relates to energy absorption during drop landings with soldier-relevant body borne loads.

Fifteen military personnel performed 30-cm drop landings to quantify how body borne load (light, ∼6 kg, medium, ∼20 kg, and heavy, ∼40 kg) impacts lower limb kinematics and knee joint energy absorption during landing, and determine whether greater lower limb flexion increases energy absorption while landing with load. Participants decreased peak hip (P = 0.002), and knee flexion (P = 0.