Amir Niaraki

Papers

1

Total Citations

5

H-Index

1

About

Amir Niaraki is a researcher at the intersection of robotics, reinforcement learning, and energy-aware autonomous systems. His work focuses on enabling unmanned aerial vehicles to perform complex visual exploration tasks while intelligently managing power constraints. In his highly cited 2019 paper, "Visual Exploration and Energy-aware Path Planning via Reinforcement Learning," Niaraki tackles a critical challenge in field robotics: how disturbances like wind affect both a drone’s energy consumption and camera performance. By proposing a reinforcement learning framework that jointly optimizes path planning and sensor data collection, he offers a practical solution for long-duration autonomous missions. This work, garnering 5 citations, lays foundational groundwork for more resilient and efficient aerial robots. Niaraki’s contributions are particularly relevant for environmental monitoring, search-and-rescue, and precision agriculture, where adaptive, energy-aware navigation is essential. His research demonstrates a keen ability to bridge theoretical reinforcement learning with real-world robotic constraints, making him a promising voice in the next generation of autonomous systems engineers.

Research Focus

Key Achievements

1
H-Index
1
Papers
5
Total Citations
5
Avg Citations/Paper
🏆 Most Cited Paper
Visual Exploration and Energy-aware Path Planning via Reinforcement Learning
5 citations · 2019
📈 Most Prolific Year: 2019 (1 Papers)
🤝 Key Collaborators: 2

Top Papers

  1. 1

Key Collaborators

Contact & Links

Available for collaboration
Content generated · 4 days ago