Papers
3
Total Citations
11
H-Index
2
About
Ahmed Chaibet is a researcher whose work spans two compelling domains of modern engineering: autonomous vehicle systems and aerial robotics. His research has made meaningful contributions to the simulation and control of complex mechanical and electromechanical systems, with a particular focus on bridging theoretical models and real-world experimental validation. In the field of ground vehicle automation, Chaibet developed innovative electric simulators capable of reproducing the mechanical behavior of vehicle transmission chains coupled to dynamic longitudinal models. This work, published between 2008 and 2009, provides engineers with practical tools for validating automated driving technologies without requiring full physical prototypes — a significant advancement for the automotive testing community. Chaibet also extended his expertise into aerial robotics, contributing to robust control strategies for miniature helicopters. His 2014 study demonstrated both simulation and experimental results in automating helicopter flight, addressing the growing demand for reliable unmanned aerial vehicle control systems enabled by advances in computing and sensor technology. With citations accumulated across multiple publications, his work reflects steady engagement with critical challenges in transportation and robotics automation. His research is particularly valuable for students and engineers working at the intersection of control theory, vehicle dynamics, and autonomous systems design.
Research Focus
Key Achievements
Top Papers
- 1
- 2
- 3A Vehicle Transmission Simulator Applied to the Automated Driving2 citations · 2009
Key Collaborators
Related papers
- Dynamic and Static Obstacles Avoidance Strategies Using Parallel Elliptic Limit-Cycle Approach for Autonomous Robots
- Obstacle Avoidance Using Model Predictive Control: An Implementation and Validation Study Using Scaled Vehicles
- Static Obstacles Avoidance of Autonomous Mobile Robots Based on Limit Cycle Approach
- Dynamic Simulation and Kinematic Control for Autonomous Driving in Automobile Robots
- Simulation of Robotic Inspections Based on Systematic Data Acquisition and Analysis
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