DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING
Elghitany, M. (2025). DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING. EKB Journal Management System, (), -. doi: 10.21608/astj.2025.398977.1084
Mohamed Nabil Elghitany. "DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING". EKB Journal Management System, , , 2025, -. doi: 10.21608/astj.2025.398977.1084
Elghitany, M. (2025). 'DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING', EKB Journal Management System, (), pp. -. doi: 10.21608/astj.2025.398977.1084
Elghitany, M. DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING. EKB Journal Management System, 2025; (): -. doi: 10.21608/astj.2025.398977.1084

DESIGN, FABRICATION AND CONTROL OF DELTA ROBOT FOR SORTING, PICKING AND PLACING

Advanced Sciences and Technology Journal
Articles in Press, Accepted Manuscript, Available Online from 22 August 2025  XML
Document Type: Original Article
DOI: 10.21608/astj.2025.398977.1084
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Author
Mohamed Nabil Elghitany email orcid
Mechatronics, Faculty of Engineering, Ain Shams University, Cairo, Egypt
Abstract
Delta robots are high-speed, high-precision parallel manipulators widely adopted in industrial automation for tasks such as pick-and-place operations, assembly, and surgical procedures. Their three-arm parallel kinematic structure offers superior rigidity, minimal moving mass, and high positional accuracy. This paper presents the design, implementation, and experimental validation of a multifunctional, vision-guided Delta robot prototype aimed at low-cost, adaptive automation. The development process integrated CAD modeling in SolidWorks, structural analysis using ANSYS 2022, and system-level simulation within the Robot Operating System (ROS) framework.
A physical prototype was fabricated featuring three actuated biceps and a gripper-based end-effector, coordinated via an open-source vision system. The control architecture incorporated a real-time camera module for color-based object detection, classification, and spatial localization using image segmentation techniques. A red reference marker was used to define a consistent workspace origin, enabling accurate frame alignment. Kinematic modeling and trajectory planning, including forward and inverse solutions, were performed in MATLAB. Experimental trials demonstrated sub-millimeter manipulation accuracy and adaptive performance across varying object configurations. The results validate the effectiveness of the proposed system as a scalable, flexible platform for educational, research, and constrained industrial applications.
Keywords
Delta Robot; Vision-Based Control; Kinematic Analysis; Pick-and-Place Automation; ROS Integration
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