About Us
About Us
As industries strive to embrace smarter, more efficient, and eco-friendly systems, there is a growing need for collaboration among researchers, practitioners, and policymakers to share cutting-edge advancements and ideas.
To answer this call, International Conference on Innovation, Engineering, and Applied Technology (ICEATech) has been strategically organized under the theme “Smart, Digital, and Data-Driven Engineering Systems for Sustainable Development.”
ICEATech aims to provide an engaging platform for researchers, academics, and industry professionals to present their latest findings and foster interdisciplinary collaboration. The conference will cover a wide range of relevant topics, including automation systems and robotics, energy efficiency, and renewable energy all aligned with sustainable development goals.
Through dynamic discussions and knowledge exchange, ICEATech aspires to contribute to real-world solutions and inspire technological breakthroughs that address today’s environmental and industrial challenges.
We look forward to welcoming participants from around the world to share ideas, build networks, and shape the future of engineering and technology.
Focus and Scope
ICEATech 2026 welcomes original papers in (but not limited to):
Artificial Intelligence, Modeling, Simulation, and Data-Driven Engineering
Application of artificial intelligence, machine learning, modeling, simulation, and data analytics as enabling methods in engineering, including intelligent decision-making, optimization techniques, system modeling, digital twins, predictive modeling, and data-driven analysis for complex engineering systems.
Manufacturing Processes, Systems, and Production Engineering
Research on manufacturing processes, production systems, and production engineering, including process design, production planning and control, manufacturing system design, smart manufacturing applications, process optimization, automation and mechatronic integration, robotics and industrial automation, PLC and microcontroller-based systems, sensing and actuation, motion control, advanced control strategies, as well as materials related aspects in manufacturing such as metals and alloys, polymers, ceramics, composites, smart and functional materials for improved productivity, quality, and operational
efficiency.
Supply Chain and Industrial Systems Engineering
Supply chain, and industrial systems engineering, including system design, planning and optimization, performance analysis, decision support systems, and the application of digital and intelligent methods to industrial and logistics systems.