Djemai Arar
Papers
2
Total Citations
10
H-Index
2
About
Djemai Arar is a control systems researcher whose work centers on the challenging domain of nonlinear control for mobile robotic systems. His research addresses some of the most persistent difficulties in autonomous robotics, particularly the trajectory tracking problem for nonholonomic wheeled mobile robots — systems constrained by physical limitations that prevent free movement in all directions. Arar's contributions focus on developing robust control strategies capable of handling uncertain system parameters, unmodeled dynamics, and external disturbances that commonly undermine real-world robotic performance. His 2016 work on robust nonlinear control, which has garnered 8 citations, demonstrates practical approaches to guaranteeing reliable trajectory tracking despite these inherent complexities, while his earlier 2014 investigation laid important groundwork for understanding nonholonomic constraints in wheeled platforms. Together, these publications reflect a coherent research agenda aimed at bridging theoretical control design with the practical demands of mobile robotics. Though early in citation impact, Arar's focus on robustness and nonlinear dynamics positions his work as a meaningful contribution to the growing field of autonomous and semi-autonomous ground vehicle control, relevant to researchers working on motion planning, adaptive control, and robotics engineering.
Research Focus
Key Achievements
Top Papers
- 1Robust Nonlinear Control of a Mobile Robot8 citations · 2016
- 2Nonlinear tracking control of a wheeled mobile robot2 citations · 2014