The Python programming language together with the object-oriented programming paradigm are used to write an application using the Matplot library in Python. Using the quiver graphical concept a vector representation of the mechanism is given while the trajectory results in a format that can be used later in trajectory classifications of the four-bar linkage mechanism.

Plitea, N.; Hesselbach, J.; Pisla, D.; Raatz, A.; Vaida, C.; Wrege, J.; Burisch, A. Innovative Development of Parallel Robots and Microrobots. Acta Teh. Napoc. Ser. Appl. Math. Mec. 2006, 49, 5–26.

Vaida, C.; Pisla, D.; Schadlbauer, J.; Husty, M.; Plitea, N. Kinematic analysis of an innovative medical parallel robot using study parameters. In New Trends in Medical and Service Robots. Mechanisms and Machine Science; Wenger, P., Chevallereau, C., Pisla, D., Bleuler, H., Rodić, A., Eds.; Springer: Cham, Switzerland, 2016; Volume 39.

Tucan, P.; Vaida, C.; Horvath, D.; Caprariu, A.; Burz, A.; Gherman, B.; Iakab, S.; Pisla, D. Design and Experimental Setup of a Robotic Medical Instrument for Brachytherapy in Non-Resectable Liver Tumors. Cancers 2022, 14, 5841. https://doi.org/10.3390/cancers14235841

Rus, G.; Andras, I.; Vaida, C.; Crisan, N.; Gherman, B.; Radu, C.; Tucan, P.; Iakab, S.; Hajjar, N.A.; Pisla, D. Artificial Intelligence-Based Hazard Detection in Robotic-Assisted Single-Incision Oncologic Surgery. Cancers 2023, 15, 3387. https://doi.org/10.3390/cancers15133387

https://www.python.org/

https://docs.anaconda.com/

https://docs.sympy.org/latest/modules/ physics/mechanics/examples/four_bar_linkage_example.html

Sun M. Design and Kinematic Analysis of Planar Four-Bar Linkages with an Object Oriented Python Program. AMR 2014;1046:174–6. https://doi.org/10.4028/ www.scientific.net/amr.1046.174.

https://github.com/kevin-hannegan/4-Bar-Linkage-Simulator

Wang B, Du X, Ding J, Dong Y, Wang C, Liu X. The Synthesis of Planar Four-Bar Linkage for Mixed Motion and Function Generation. Sensors. 2021; 21(10):3504. https://doi.org/10.3390/s21103504.

G. Asaeikheybari, A. S. Lafmejani, A. Kalhor and M. T. Masouleh, Dimensional synthesis of a four-bar linkage mechanism via a PSO-based Cooperative Neural Network approach, 2017 Iranian Conference on Electrical Engineering (ICEE), Tehran, Iran, 2017, pp. 906-911, doi: 10.1109/IranianCEE.2017.7985168.

ANTAL, T .A., Programming AutoCAD using JAWIN from Java in JDeveloper, Acta Technica Napocensis, Series: Applied Mathemathics and Mechanics, ISSN 1221-5872, 53(3), p.481-486, Cluj-Napoca, 2010.

ANTAL, T. A., Java - Iniţiere - îndrumător de laborator, Editura UTPRE, ediţia a II-a, Editura RISOPRINT, 2006, p.264, ISBN 973-751-349-5.

ANTAL, T. A., Elemente de Java cu JDeveloper - îndrumător de laborator, Editura UTPRES, 2013, p.150, ISBN: 978-973-662-827-6.

ANTAL, T. A., Mechanism displacement analysis with AutoLisp in AutoCAD. Acta Technica Napocensis, Series: Applied Mathematics and Mechanics, ISSN 1221-5872, 45, p. 19-24, Cluj-Napoca, 2002.

ANTAL, Tiberiu Alexandru. About the transformation of a structured code to a library in Java. ACTA TECHNICA NAPOCENSIS - Series: Applied Mathematics, Mechanics, and Engineering, v. 67, n. 1, mar. 2024. ISSN 2393–2988.

Vaida, C.; Plitea, N.; Pisla, D.; Gherman, B. Orientation module for surgical instruments—A systematical approach. Meccanica 2013, 48, 145–158.

Nurahmi, L.; Caro, S.; Wenger, P.; Schadlbauer, J.; Husty, M. Reconfiguration analysis of a 4-RUU parallel manipulator. Mech. Mach. Theory 2015, 96, 269–289.

Pisla, D.; Plitea, N.; Videan, A.; Prodan, B.; Gherman, B.; Lese, D. Kinematics and design of two variants of a reconfigurable parallel robot. In Proceedings of the ASME/IFToMM International Conference on Reconfigurable Mechanisms and Robots, London, UK, 24 July 2009.