F.L. N-Nagy
Papers
3
Total Citations
159
H-Index
3
About
F.L. N-Nagy is a foundational figure in robotic engineering, whose work bridges theoretical principles and practical implementation. His seminal textbook, *Robotic Engineering: An Integrated Approach* (1989, 86 citations), remains a cornerstone reference for students and practitioners, offering a comprehensive framework that unifies kinematics, dynamics, control, and system design. N-Nagy’s research also pioneered the application of artificial neural networks to robotics, as demonstrated in his influential paper “Inverse Robot Calibration Using Artificial Neural Networks” (1996, 58 citations), which introduced a data-driven method to correct positioning errors in industrial robots—a critical advance for precision manufacturing. Earlier, his book *Engineering Foundations of Robotics* (1986, 15 citations) laid the groundwork for the field by systematically addressing the mathematical and mechanical underpinnings of robotic systems. With over 150 cumulative citations across his most-cited works, N-Nagy’s contributions have shaped both academic curricula and industrial practice. His integrated approach to robotics education and his innovative use of neural networks for calibration highlight a career dedicated to making complex robotic systems more accurate, accessible, and applicable to real-world challenges.
Research Focus
Key Achievements
Top Papers
- 1Robotic engineering: An integrated approach86 citations · 1989
- 2Inverse robot calibration using artificial neural networks58 citations · 1996
- 3Engineering foundations of robotics15 citations · 1986