Alvin Zhu

B.S. Computer Engineering (2023-2026) · University of California, Los Angeles

Incoming AI-Robotics PhD student at the University of California, Berkeley, and currently a researcher at the University of California, Los Angeles, advised by Dennis Hong and Yusuke Tanaka at RoMeLa. Over the past two years, my research has spanned robotics hardware, robot learning, simulation, and perception, developing a unified interest in physical intelligence for real-world robot behavior. Late at night, you may find me making apps to optimize workflow or playing poker with friends.

Curriculum Vitae

Updates

Jan 2026: My paper AURA on cross-embodiment, autonomously generated curricula for RL has been accepted to ICRA 2026!
Jul 2025: My paper on mechanical-intelligent curriculum RL for robots with parallel actuation got accepted to Humanoids 2025!
Jun 2025: Started my internship at NVIDIA Isaac working on multi-robot collaboration using VLMs.
Jan 2025: Two of my papers got accepted to ICRA 2025! Cycloid QDD with Learning-based Torque Estimation and Multi-Modal End-Effector with Force Sensing using Gated Networks.
Earlier updates (before 2025)
- Nov 2024: My paper on variable inertial attitude control for quadrupeds jumping through space got accepted to AeroConf 2025!
- Jul 2024: I became the 2024 RoboCup world champions with RoMeLa's humanoid robot soccer team!

Selected Publications

Publication List

ICRA

AURA: Autonomous Upskilling with Retrieval-Augmented Agents

Alvin Zhu*, Yusuke Tanaka*, Andrew Goldberg, Dennis Hong

Accepted to 2026 IEEE International Conference on Robotics and Automation (ICRA). Presented at 2025 Conference on Robot Learning (CoRL) Workshops.

Paper Website

Humanoids

Mechanical Intelligence-Aware Curriculum Reinforcement Learning for Humanoids with Parallel Actuation

Alvin Zhu*, Yusuke Tanaka*, Quanyou Wang, Yeting Liu, Dennis Hong

Presented at 2025 IEEE-RAS International Conference on Humanoid Robots (Humanoids).

Paper Website

ICRA

Cycloidal Quasi-Direct Drive Actuator Designs with Learning-based Torque Estimation for Legged Robotics

Alvin Zhu*, Yusuke Tanaka*, Fadi Rafeedi, Dennis Hong

Presented at 2025 IEEE International Conference on Robotics and Automation (ICRA).

Paper Website

ICRA

Mechanisms and Computational Design of Multi-Modal End-Effector with Force Sensing using Gated Networks

Alvin Zhu*, Yusuke Tanaka*, Richard Lin, Ankur Mehta, Dennis Hong

Presented at 2025 IEEE International Conference on Robotics and Automation (ICRA).

Paper Website

Selected Projects

Full Projects Page

Robust Robotic Perception System for Humanoid Soccer

I developed the full perception stack for the humanoid robot ARTEMIS, enabling full spatial awareness in dynamic soccer environments. Deep learning models combined with classical CV and pure depth map detection fail-safes allowed ARTEMIS to score 45 goals in 6 seated matches, overthrowing the reigning champions 6 goals to 1.

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Object Segmentation using Vision Transformers and Deep Learning models

I integrated the Segment Anything Model (SAM) vision transformer with custom YOLOv8 detection weights to provide 95% accurate segmentation of slide handles and stairs. The segmented object's positions are extracted from the Intel RealSense D435 camera's point cloud for use in simultaneous locomotion and grasping.

Cost Efficient 3D Printed Robot Dog

The robot dog project involved designing and developing a fully functional quadruped robot. I 3D modeled and manufactured the upgraded big dog, ensuring a compact and efficient mechanical design optimized for strength and cost efficiency. I implemented a PID control system integrated with an IMU to enable real-time balance and stability.

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