Yendo Hu

University of California San Diego

Papers

2

Total Citations

5

H-Index

2

About

Yendo Hu is a pioneering researcher in adaptive control and reinforcement learning for dynamic robotic systems. His work focuses on developing algorithms that enable robots to operate effectively in unpredictable, real-world environments—a critical challenge in modern robotics. Hu’s foundational 1996 paper on reinforcement learning for dynamic robotic systems (3 citations) introduced adaptive algorithms as the key to solving control problems in unknown or changing conditions, laying groundwork for autonomous reactive controllers. His 2002 study on efficient adaptive input quantizers for resetable robotic systems (2 citations) further advanced this field by addressing how reinforcement learning agents can simultaneously learn long-term reward functions and search for optimal control policies using only environmental failure signals. Though his citation counts are modest, Hu’s contributions are notable for their conceptual depth and foresight, anticipating later developments in robot autonomy. His research bridges theoretical reinforcement learning and practical robotic control, offering solutions that bring laboratory robots closer to real-world deployment. For students and researchers, Hu’s work exemplifies how foundational ideas in adaptive systems continue to shape the future of intelligent robotics.

Research Focus

Key Achievements

2
H-Index
2
Papers
5
Total Citations
3
Avg Citations/Paper
🏆 Most Cited Paper
Reinforcement learning for dynamic robotic systems
3 citations · 1996
📈 Most Prolific Year: 1996 (1 Papers)
🤝 Key Collaborators: 1
🏛 Institutions: University of California San Diego

Top Papers

  1. 1
  2. 2

Key Collaborators

Contact & Links

Available for collaboration
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