Introduction to Our Laboratory: Pioneering the Technological Transformation of AI and Intelligent Control
In an era where Artificial Intelligence (AI), AI-enabled Internet of Things (AIoT), and intelligent control technologies are evolving at a rapid pace, technology is reshaping industry models and societal operations at an unprecedented speed. Our laboratory, part of the Department of Electrical Engineering at National Taipei University of Technology, is driven by AI at its core. By integrating intelligent control, deep learning, big data analytics, and intelligent sensing technologies, we are dedicated to advancing adaptive intelligent systems and forging a future that is more efficient, secure, and intelligent.
We focus on the essence of technology, grounded in scientific rigor and thorough engineering practice, to explore the potential of AI in areas such as intelligent monitoring, autonomous control, edge computing, and smart decision-making. We firmly believe that genuine technological breakthroughs arise from profound reflection and relentless experimentation, rather than the pursuit of short-lived trends.
About Professor Huang You-Ping: An International Leader in Intelligent Control and AI Technologies
Professor Huang You-Ping, who earned his Ph.D. in Electrical Engineering from Texas Tech University, currently serves as a distinguished chair professor at our institution. He is internationally recognized in the academic community, holding titles such as IEEE Fellow, IET Fellow, and CACS Fellow, and is a member of the IEEE SMCS Board of Governors (System, Man, and Cybernetics Society). His efforts are instrumental in promoting the global development of intelligent control and AI systems.
Professor Huang’s research philosophy extends beyond theoretical innovation; he emphasizes practical implementation and industrial transformation. His work focuses on AI-empowered intelligent control technologies—leveraging data-driven decision-making systems, edge computing architectures, and intelligent monitoring techniques—to drive profound changes in industry and society. This represents not only a technological revolution but also a redefinition of the future value of technology.
Research Directions: Integrating AI and Intelligent Control to Build Adaptive Intelligent Systems
Our research transcends a mere aggregation of technologies—it embodies a holistic approach to intelligent systems. We are committed to developing systems capable of adapting to change, making decisions, and learning autonomously, encompassing the following core areas:
• Intelligent Control and Adaptive Decision-Making – Developing high-efficiency control technologies to advance autonomous robotics and smart manufacturing.
• AIoT and Edge Intelligence – Exploring the deep integration of AI with the Internet of Things to optimize smart monitoring and predictive maintenance.
• Computer Vision and Intelligent Analytics – Combining deep learning with pattern recognition to foster advancements in smart security and precision monitoring.
• Big Data-Driven Intelligent Applications – Utilizing data mining and AI technologies to enhance decision-making capabilities and adaptability in smart systems.
Our research methodology emphasizes systematic and verifiable approaches, avoiding superficial technological layering. Instead, we strive to ensure that AI becomes a true catalyst for problem-solving and efficiency enhancement.
Technological Applications and Industry Integration: From Academic Innovation to Practical Impact
Our laboratory is not solely focused on academic inquiry; we also value the tangible impact of our technological innovations. Our goal is not to follow established paradigms but to create new possibilities through technological breakthroughs. Collaborating closely with academic institutions and industry partners both domestically and internationally, we promote the practical application of AI in smart monitoring, autonomous systems, smart security, and industrial automation. Through forward-looking technologies and interdisciplinary integration, we aim to realize more efficient and intelligent future systems that deliver genuine value to industry and society.
We believe that the true value of technology is measured not by its complexity, but by its capacity to effect real change. True innovators do not settle for superficial smart solutions; they seek the deeper, transformative impact behind the technology.
Research Environment and Resources
Our laboratory is located in Rooms 509 and 514B of the Integrated Science Building, equipped with state-of-the-art computing facilities and an advanced AI development platform, providing our students with an exceptional research environment.
Join Us in Exploring the Infinite Possibilities of Intelligent Technology
We believe that technological development should extend beyond theoretical exploration to drive innovation, implement practical applications, and effectively address industrial and societal challenges. The value of our research stems not only from technological breakthroughs but also from its profound impact on the future.
Our laboratory is dedicated to cultivating talent with a forward-thinking vision and strong practical skills. We encourage deep reflection and emphasize hands-on technological practice. If you are interested in artificial intelligence, intelligent control, AIoT, or deep learning—and if you aspire to leverage technology to shape the future—we warmly invite you to join us.