PRASAD, Ponnapudi Durga, 2025. Surrogate-Driven Structural Optimization of a Vacuum-Compatible Robotic End-Effector Using ANSYS and a Python Digital Twin Framework. In: . 12 Dezember 2025.
Elsevier - Harvard (with titles)Prasad, P.D., 2025. Surrogate-Driven Structural Optimization of a Vacuum-Compatible Robotic End-Effector Using ANSYS and a Python Digital Twin Framework, in: . https://doi.org/10.1109/ICSSS66939.2025.11346262
American Psychological Association 7th editionPrasad, P. D. (2025, Dezember 12). Surrogate-Driven Structural Optimization of a Vacuum-Compatible Robotic End-Effector Using ANSYS and a Python Digital Twin Framework. https://doi.org/10.1109/ICSSS66939.2025.11346262
Springer - Basic (author-date)Prasad PD (2025) Surrogate-Driven Structural Optimization of a Vacuum-Compatible Robotic End-Effector Using ANSYS and a Python Digital Twin Framework
Juristische Zitierweise (Stüber) (Deutsch)Prasad, Ponnapudi Durga, Surrogate-Driven Structural Optimization of a Vacuum-Compatible Robotic End-Effector Using ANSYS and a Python Digital Twin Framework, 2025, .