A preliminary study of stability in elite and novice 10 meter air pistol shooters

Abstract

Introduction Numerous processes are involved in 10 meter air pistol performance such as physiological (Tremayne and Barry 2001), sensorimotor (Cheng et al. 2017), or psychological (Baeck et al. 2012). From a biomechanical point of view, the posture stability has been investigated through the athlete's center of pressure (CoP) (Ko et al. 2017) as well as the upper-limb motion (Kevin et al. 2003). A high stability, reflected by a low CoP excursion and velocity, has been related to a high performance (Ko et al. 2017). To understand how to maximize the shooter's stability, several postural features have been discussed. For instance, (Hawkins and Sefton 2011) pointed out that the higher the stance width, the higher the CoP excursion and velocity, and the poorer the shoot performance. Under this framework, a detailed description of the CoP/Posture relationship may be noteworthy to understand shoot performance. For this purpose, although most studies focused on the whole-body CoP, we hypothesize that getting more insight into the CoP evolution under each foot may be valuable to improve performance. The objective of the present study is therefore to compare the CoP under each foot for elite and novice shooters. 2. Methods 2.1. Experimental procedure Thirteen participants, all right-handed, were involved in this study in line with the ethical agreements (2019-A00836-51). Participants were grouped according to their level: three Elite participants from the French team, and ten Novice participants. Prior to the experiment, the Novice participants received a training at the National Institute of Sport, Expertise, and Performance (INSEP). An optoelectronic shooting system (SCATT Electronics, Moscow, Russia) was used to simulate the shots. To avoid fatigue, Elite and Novice participants performed a series of ten and eight shots, respectively. Elite participants used their own pistol while a same pistol was used by the Novice participants. For each shot, ground reaction forces were measured under each foot with two force plates (OR6 BP600600, AMTI, USA, 1000Hz). Simultaneously, a microphone was used to detect shots and synchronize the force platform signals along with the shot performance. 2.2. Descriptors computation The SCATT system provided information regarding the shot (results, aiming time, and trace length). The CoP under each foot was obtained through force plates and the origin was chosen at each foot's heel. The CoP displacement was normalized by the foot length and width for the antero-posterior (AP) and the mediolateral (ML) components, respectively. Finally, the amplitude A COP along the AP and ML directions was computed. Further, the percent of forces applied under each foot with respect to the total forces applied to the ground was computed and is referred to as Fad. Regarding the low number of Elite participants, descriptors were averaged for each Elite participant separately, while they were averaged for entire the Novice group. Consequently, the followings will describe trends and not objective results. 3. Results and discussion 3.1. Shoot performance As expected, performances were better for the Elite than the Novice participants (Table 1). Although the aiming time was shorter for the Novice participants, the length of the pistol trace on the target was more than twice as the Elite participants' ones. These results suggest more patience combined with a higher pistol stability for the Elite than the Novice participants. 3.2. Postural stability Figure 1(a) illustrates that Fad was mostly concentrated under the right foot, especially for the two first Elite participants. This observation is likely to be related to the pistol which is held in the right hand. Figure 1(b) indicates that A COP was always lower than 5% and 10% of the foot dimension for the Elite and Novice participants, respectively. This result is in accordance with (Ko et al. 2017) who indicated a higher CoP motion for the Novice than the Elite shooters. Interestingly, although it is commonly stated that the CoP motion is higher a ong the AP than the ML direction (Ko et al. 2017), Figure 1(b) revealed two different behaviours depending on the foot. For the right foot, i.e., the pistol side, A COP was indeed higher along the AP than the ML direction. Conversely, for the left foot, A COP was similar along the two directions. This result may suggest an asymmetric control of the posture, most probably induced by the need of stability on the pistol side. 4. Conclusions This study presented preliminary outcomes regarding stability in 10 meter air pistol shooters with respect to their level. Beyond the expected differences in terms of performance and stability, this investigation suggested an asymmetric control of the posture for both groups. It confirmed the interest of studying each feet separately through the CoP under each of them. This study will eventually lead to specific recommendations regarding muscular strengthening and proprioception.