Developing fundamental movement skills (FMS) as the building blocks of complex sports skills and daily physical activity is crucial. The mechanically optimal performance can be determined by qualitative changes in the sensitive aspects of the skill. Accurate scoring of this process is time-consuming and requires minimum training and experience. Thus, this study was designed to evaluate the feasibility of using wearable inertial units (IMUs) based on artificial intelligence algorithms (AIA) for objective assessment of catching and throwing skills.Thirteen children aged ۴ to ۱۰ years (age = ۷±۱.۸۴) (boys = ۵۳%) were asked to do at least ten repetitions of two hands ball catch and underhand throw according to the Test of Gross Motor Skills Development- third edition (TGMD-۳). Trials were captured with video recording and three IMUs, simultaneously. Dynamic Time Warping (DTW) and K-Nearest Neighbor (KNN) artificial intelligence algorithms automatically classified IMU signals. The intraclass correlation coefficient (ICC) was calculated between expert scores and the artificial intelligence algorithm. All tests were done at a ۹۵% confidence interval. The classification accuracy of the KNN algorithm (k=۷) for two hand catch was ۷۳%, ICC =۰.۵۱ (CI=۰.۲۵-۰.۶۹), and for underhand throw was ۷۰%, ICC= ۰.۵۵۹, (CI=۰.۳۱۴-۰.۷۱۷). The algorithm accuracy when using lower back sensor data was ۷۲% for the tow-hand catch and ۷۸% for the underhand throw. The scoring time was reduced from ۵ minutes per skill (in an expert-oriented way) to less than ۳۰ seconds (using artificial intelligence). A close examination of the artificial intelligence classification revealed several aspects of performance that did not play an influential role in trials but were artificially consistent with the TGMD-۳. Locating the sensor in the waist area for these two skills will save the cost and time in screening plans. This instrument assessment provides instant feedback, is portable, economical and easy-to-use, and is suitable for educational setting. In the future, more research should be conducted on IMUs' real-world applications by teachers, researchers, clinicians, and coaches.