T. E. Krikochoritis
Papers
4
Total Citations
55
H-Index
3
About
T. E. Krikochoritis has made foundational contributions to the control and locomotion of autonomous robotic systems, with a particular focus on bipedal walking and flexible-joint manipulation. His most influential work, "Robust Sliding-mode Control of Nine-link Biped Robot Walking" (1997, 42 citations), introduced a robust control framework that enabled stable, dynamic gait for multi-link biped robots—a critical step toward humanoid mobility. Expanding on this, his research in "Control of flexible joint robots using neural networks" (2001, 8 citations) addressed the challenging problem of elastic joint dynamics, proposing a novel neural-network-based controller that relaxed restrictive modeling assumptions, thereby improving real-world applicability. Krikochoritis also explored omnidirectional mobile robots (2000, 3 citations) and dynamic modeling for biped locomotion (1999, 2 citations), demonstrating a sustained commitment to advancing robot autonomy. His work is notable for bridging theoretical robustness with practical implementation, influencing subsequent research in legged robotics and adaptive control. With a career spanning the late 1990s to early 2000s, Krikochoritis’s contributions remain a reference point for engineers developing resilient, human-like robotic systems.
Research Focus
Key Achievements
Top Papers
- 1Robust Sliding-mode Control of Nine-link Biped Robot Walking42 citations · 1997
- 2Control of flexible joint robots using neural networks8 citations · 2001
- 3Modeling and Control of an Omnidirectional Mobile Robot3 citations · 2000
- 4Dynamic Modelling and Locomotion Control of Biped Autonomous Robots2 citations · 1999