Luque-Vega, Luis F.Lizarraga, Jorge A.Navarro, Dulce M.Navarro, José R.Carrasco-Navarro, RocíoLopez-Neri, EmmanuelNava-Pintor, Jesús A.García-Vázquez, FabiánGuerrero-Osuna, Héctor A.2025-10-062025-10-062025-09Luque-Vega, L. F.; Lizarraga, J. A.; Navarro, D. M.; Navarro, J. R.; Carrasco-Navarro, R.; Lopez-Neri, E.; Nava-Pintor, J. A.; García-Vázquez, F., & Guerrero-Osuna, H. A. (2025). Workspace Definition in Parallelogram Manipulators: A Theoretical Framework Based on Boundary Functions. Technologies, 13(9), 404. https://doi.org/10.3390/technologies130904042227-7080https://hdl.handle.net/11117/11893Robots with parallelogram mechanisms are widely employed in industrial applications due to their mechanical rigidity and precise motion control. However, the analytical definition of feasible workspace regions free from self-collisions remains an open challenge, especially considering the nonlinear and composite nature of such regions. This work introduces a mathematical model grounded in a collision theorem that formalizes boundary functions based on joint variables and geometric constraints. These functions explicitly define the envelope of safe configurations by evaluating relative positions between critical structural components. Using the MinervaBotV3 as a case study, the symbolic joint-space boundaries and their corresponding geometric regions in both 2D and 3D are computed and visualized. The feasible region is refined through centroid-based scaling to introduce safety margins and avoid singularities. The results show that this framework enables analytically continuous workspace representations, improving trajectory planning and reliability in constrained environments. Future work will extend this method to spatial mechanisms and real-time implementations in hybrid robotic systems.enghttps://creativecommons.org/licenses/by-nc/4.0/deed.esFeasible WorkspaceParallelogram MechanismsSelf-collision ConstraintsBoundary FunctionsSymbolic ModelingMinervaBotV3Trajectory PlanningGeometric Workspaceinfo:eu-repo/semantics/article