A fully automated drilling machine for printed circuit boards with superior path optimization
Mohamed Mamdouh, Ahmed Khalid, Reem Mahmoud, Osama Desouki, Sameh O. Abdellatif

TL;DR
This paper introduces an AI-driven automated drilling machine for PCBs that improves drilling efficiency and precision.
Contribution
A fully automated drilling system with advanced path optimization algorithms for PCB manufacturing.
Findings
The system achieves a 13-fold improvement in routing efficiency compared to manual methods.
Case studies confirm successful continuity tests and high-quality PCB finishes.
Automation reduces production time and drilling errors.
Abstract
This paper addresses a critical challenge in Printed Circuit Board (PCB) manufacturing by proposing an AI-driven, fully automated drilling machine that employs sophisticated path-planning techniques. Current methodologies often fail to adequately assess designs with varying hole sizes, diverse component placements, and complex geometries, leading to compromised precision and increased manufacturing times. Our innovative approach leverages advanced algorithms to intelligently analyze PCB designs and optimize drilling paths, significantly reducing production time and minimizing errors. By automating the drilling process, we enhance overall productivity while ensuring precise hole placement, essential for maintaining high-quality circuit boards. Utilizing KiCAD EDA software, we automate the generation of Gerber files and G-Codes, demonstrating a remarkable 13-fold improvement in routing…
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Taxonomy
TopicsVLSI and FPGA Design Techniques · Advanced Manufacturing and Logistics Optimization · Advanced Surface Polishing Techniques
