Under proactive government promotion, AccuteX Technologies has executed the "A+ Industrial Innovation R&D Program" (International Innovation R&D Collaboration) funded by the Department of Industrial Technology (DoIT), Ministry of Economic Affairs (MOEA). This Taiwan-Spain R&D collaboration spanned 31 months, from September 1, 2022, to March 31, 2025. During this period, AccuteX and its international partner, ONA (Spain), completed the development of the AZ Series, a new generation of Wire Electrical Discharge Machining (WEDM) products. These machines feature technical highlights designed to enhance quality, productivity, automation, sustainability, and advanced digital services. By leveraging ONA’s expertise in automation and the aerospace industry within the European market, this partnership has elevated AccuteX’s technical standards to meet EU certifications, further fostering bilateral commercial cooperation.

Electrical Discharge Machining (EDM) is a critical process in aerospace manufacturing. Traditionally, it has relied heavily on manual experience for parameter tuning, a tedious process that lacks real-time optimization, significantly impacting efficiency and precision. This study developed "AI-Optimized EDM Equipment for Aerospace," utilizing AI self-adaptive technology to pioneer the intelligent adjustment of EDM parameters, enabling real-time monitoring and compensation mechanisms. This innovation reduces finishing time by over 50% and enhances machining precision to within 5 μm. It drives the efficiency and precision upgrades of aerospace-grade components, representing a revolutionary breakthrough for high-end manufacturing. Furthermore, the equipment integrates AIoT centralized management for cross-border remote data monitoring and creates production logs to ensure stability and global supply chain responsiveness. The technology has been implemented by several manufacturers, including First EDM and Joemars, successfully applied to key aerospace engine components and the intelligent upgrading of high-end electric vehicle (EV) connector terminal molds.

If Generative AI serves as the "brain," responsible for understanding and reasoning, Agentic AI functions as the "executor" capable of perceiving, deciding, and taking action. Beyond 2026, aerospace manufacturing will evolve from Human-Machine Collaboration toward a more advanced model of Human–AI Symbiosis, with the Model Context Protocol (MCP) emerging as the critical protocol connecting everything. Unlike traditional AI systems that primarily provide recommendations (e.g., Suggesting tool replacement), Agentic AI operates through a closed-loop architecture encompassing Perception, Reasoning, Planning, and Action. When assigned a high-level objective—such as optimizing a weekly production schedule to minimize changeover time— Agentic AI can autonomously orchestrate and invoke multiple tools, systems, and data sources to execute the task.

Standing at the dawn of 2026, the global manufacturing sector is undergoing an unprecedented reconfiguration of its cognitive and operational frameworks. The aerospace industry, long the benchmark for precision engineering and uncompromising quality—now stands at the epicenter of this transformative wave. Aerospace Industrial Development Corporation (AIDC), a leader in the aerospace sector, is actively promoting its AIxWARE smart manufacturing services. This initiative provides a deep analysis of how the aerospace industry is transitioning from a traditional reliance on the "tacit knowledge" of seasoned craftsmen to a data-driven approach, moving further toward an era of autonomous execution powered by Agentic AI.