I am… a final-year PhD student at MIT with Antonio Torralba and Phillip Isola. I work on machine learning, representation learning, and reinforcement learning.

Research. I am interested in inductive structures in machine learning and artificial intelligence, with a focus on useful structures for better perception and decision-making and learning such structures with neural nets (e.g., invariances to imperceptible changes, distances w.r.t. decision-making capabilities, task-specific factorizations of signal and noise).

Most of my works are related to these specific topics:

• Learning fundamental structures for better AI systems, with theoretical guarantees and empirical benefits.

• Analyzing and discovering useful structures, e.g., what structure an algorithm learns, what makes for a good training set.

Outside research, I spent my time on developing 1st offering of MIT’s Deep Learning course, open-source ML projects, organizing a NeurIPS workshop on Goal-Conditional RL, mentoring SGI students (blog), pro bono office hours (book me!), and with 😸😼.

On 2023-2024 faculty job market: YES ✅

Email: tongzhou _AT_ mit _DOT_ edu

Selected Publications (full list)

Learned structure for better agents

Analyze and discover useful structures

Optimal Goal-Reaching Reinforcement Learning via Quasimetric Learning [ICML 2023][Project Page] [arXiv] [Code] Tongzhou Wang, Antonio Torralba, Phillip Isola, Amy Zhang	Quasimetric Geometry + Novel Objective (Push apart s_start & goal while keeping local dists.) = Optimal Value $V^{\ast }$ AND High-Performing Goal-Reaching Agents
Improved Representation of Asymmetrical Distances with Interval Quasimetric Embeddings [NeurIPS 2022 NeurReps Workshop] [Project Page] [arXiv] [PyTorch Package for Quasimetric Learning] Tongzhou Wang, Phillip Isola
Denoised MDPs: Learning World Models Better Than The World Itself [ICML 2022] [Project Page] [arXiv] [code] Tongzhou Wang, Simon S. Du, Antonio Torralba, Phillip Isola, Amy Zhang, Yuandong Tian
On the Learning and Learnability of Quasimetrics [ICLR 2022] [Project Page] [arXiv] [OpenReview] [code] Tongzhou Wang, Phillip Isola
Learning to See by Looking at Noise [NeurIPS 2021] [Project Page] [arXiv] [code & datasets] Manel Baradad*, Jonas Wulff*, Tongzhou Wang, Phillip Isola, Antonio Torralba
Understanding Contrastive Representation Learning through Alignment and Uniformity on the Hypersphere [ICML 2020] [Project Page] [arXiv] [code] Tongzhou Wang, Phillip Isola	# bsz : batch size (number of positive pairs) # d : latent dim # x : Tensor, shape=[bsz, d] # latents for one side of positive pairs # y : Tensor, shape=[bsz, d] # latents for the other side of positive pairs def align_loss(x, y, alpha=2): return (x - y).norm(p=2, dim=1).pow(alpha).mean() def uniform_loss(x, t=2): return torch.pdist(x, p=2).pow(2).mul(-t).exp().mean().log() PyTorch implementation of the alignment and uniformity losses
Dataset Distillation [Project Page] [arXiv] [code] [DD Papers] Tongzhou Wang, Jun-Yan Zhu, Antonio Torralba, Alexei A. Efros