Research Information System
5th IEEE International Conference on Smart Information Systems and Technologies, SIST 2025, Astana, Kazakhstan, 14 - 16 May 2025, (Full Text)
This paper presents a comprehensive comparative analysis of Sliding Mode Control (SMC) and SMC-based back stepping Control for an Unmanned Aerial Vehicle (UAV) type quadrotor. The study evaluates both control strategies' performance, robustness, and efficiency in handling the dynamics of a quadrotor UAV. The UAV's complex dynamics and under actuated nature pose significant challenges, necessitating robust control techniques to ensure stability and accurate trajectory tracking.We first outline the fundamental principles of SMC and its implementation for quadrotor control. Subsequently, we introduce the Back stepping approach and its integration with SMC, highlighting the theoretical enhancements expected from this combination. Both control methods are then rigorously tested through simulations under various scenarios, including disturbances and model uncertainties.Simulation outcomes indicate that the integrated SMC-based Back stepping Control method delivers notably superior performance compared to the traditional SMC approach. Specifically, it achieves a reduction of up to 85% in roll angle error, a 66.7% improvement in altitude tracking, and approximately 60% error reduction along both the X and Y axes. Furthermore, the hybrid controller exhibits quicker recovery from external disturbances and enhanced robustness in the presence of system uncertainties.This comparative analysis underscores the potential benefits of integrating Back stepping techniques with traditional SMC for UAV applications, offering insights into their practical implications for advanced UAV control systems.