Robust Nonlinear Control design for 2D Suspended Cable-Driven Parallel Robots under constraints and Dynamic Uncertainties

Key Points

• Dynamic uncertainties challenge the performance of cable-driven parallel robots, affecting their stability.
• Robust control design leads to enhanced reliability in system performance across varying conditions.
• The analysis focuses on 2D suspended cable-driven robots to explore stability under dynamic constraints.
• Findings may indicate a need for adaptive control methods in engineering applications involving these robots.