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April 1, 2026Open Access

A Reproducible Computational Framework for Integrated Kinematic Analysis of Serial Robotic Manipulators

Key Points

The aim is to develop a computational framework for integrated kinematic analysis of robotic manipulators.
Developed a structured computational system for kinematic analysis.
Implemented forward and inverse kinematics along with workspace sampling.
Conducted trajectory analysis on a 4-DOF serial manipulator using DH parameterization.
Evaluated over 10,000 workspace configurations.
Reconstructed a multi-frame trajectory with a cumulative path length of approximately 1012 mm.
Successfully demonstrated real-time visualization of kinematic data.

Abstract

This work presents a reproducible computational framework for integrated kinematic analysis of serial robotic manipulators. The framework reconstructs a multi-sheet workbook into a structured computational system supporting forward kinematics, inverse kinematics, workspace sampling, trajectory analysis, and real-time visualization. The demonstrator system is a 4-DOF serial manipulator with DH parameterization. The framework evaluates 10,530 workspace configurations and reconstructs a multi-frame trajectory with a cumulative path length of approximately 1012 mm. This work emphasizes computational transparency, reproducibility, and educational interpretability, bridging the gap between symbolic kinematics and geometric intuition. This manuscript is released as a preprint and is currently being prepared for submission to a peer-reviewed journal.

A Reproducible Computational Framework for Integrated Kinematic Analysis of Serial Robotic Manipulators

Key Points

Abstract

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