Yilun Zhou

I am a fifth-year Ph.D. student at MIT Department of Electrical Engineering and Computer Science (EECS), advised by Prof. Julie Shah. I received a Master of Science degree in EECS in 2019. Before that, I received a Bachelor of Science in Engineering degree from Duke University, with double major in Computer Sciene and Electrical & Computer Engineering. I worked with Prof. George Konidaris and Prof. Kris Hauser on my undergraduate research on robotics.

I work broadly on trustworthy and responsible machine learning. Specifically, I seek answers to questions such as: How to ensure that a black-box model is working correctly? How to develop a holistic understanding of both the intended and, more importantly, unintended model behaviors? What are the limits of human understanding into such complex reasoning processes? To this end, I develop models, algorithms and evaluations in interpretable machine learning for diverse domains including computer vision (CV), natural language processing (NLP) and robotics. In addition, I also explore the interplay between interpretability and other areas of responsible ML, such as fairness and robustness.

[Email: yilun@mit.edu] [CV (PDF)] [Google Scholar] [YouTube (paper summary videos)]

Publications

* Equal Contribution   Undergraduate Advisee    Journal    Conference    Workshop    Preprint    Main Research Theme  

The Solvability of Interpretability Evaluation Metrics
Yilun Zhou, Julie Shah
arXiv preprint, 2022
[Paper]
ExSum: From Local Explanations to Model Understanding
Yilun Zhou, Marco Tulio Ribeiro, Julie Shah
Annual Conference of the North American Chapter of the Association for Computational Linguistics - Human Language Technologies (NAACL-HLT), 2022
[Paper] [Code] [Video] [Website] [MIT News (Featured on 5/5/2022 MIT Homepage)]
Do Feature Attribution Methods Correctly Attribute Features?
Yilun Zhou, Serena Booth, Marco Tulio Ribeiro, Julie Shah
AAAI Conference on Artificial Intelligence (AAAI), 2022
Preliminary version in NeurIPS 2021 Workshop on Explainable AI Approaches for Debugging and Diagnosis
[Paper] [Poster] [Code] [Video] [Website] [MIT News]
The Irrationality of Neural Rationale Models
Yiming Zheng, Serena Booth, Julie Shah, Yilun Zhou
NAACL Workshop on Trustworthy Natural Language Processing (TrustNLP), 2022
[Paper] [Poster] [Code]
Long-Term Resource Allocation Fairness in Average Markov Decision Process (AMDP) Environment
Ganesh Ghalme*, Vineet Nair*, Vishakha Patil*, Yilun Zhou*
International Conference on Autonomous Agents and Multi-Agent Systems (AAMAS), 2022
[Paper] [Code] [Website]
Latent Space Alignment Using Adversarially Guided Self-Play
Mycal Tucker, Yilun Zhou, Julie Shah
International Journal of Human-Computer Interaction (IJHCI), 2022
[Paper]
RoCUS: Robot Controller Understanding via Sampling
Yilun Zhou, Serena Booth, Nadia Figueroa, Julie Shah
Conference on Robot Learning (CoRL), 2021
[Paper] [Poster] [Code] [Video] [Website]
Bayes-TrEx: a Bayesian Sampling Approach to Model Transparency by Example
Serena Booth*, Yilun Zhou*, Ankit Shah, Julie Shah
AAAI Conference on Artificial Intelligence (AAAI), 2021
Preliminary version in AAAI 2020 Workshop on Statistical Relational AI
[Paper] [Poster] [Code] [MIT News]
Towards Understanding the Behaviors of Optimal Deep Active Learning Algorithms
Yilun Zhou, Adithya Renduchintala, Xian Li, Sida Wang, Yashar Mehdad, Asish Ghoshal
International Conference on Artificial Intelligence and Statistics (AISTATS), 2021
[Paper] [Poster] [Code] [Video]
Learning Household Task Knowledge from WikiHow Descriptions
Yilun Zhou, Julie Shah, Steven Schockaert
International Joint Conference on Artificial Intelligence (IJCAI) Workshop on Semantic Deep Learning, 2019
[Paper] [Code]
Predicting ConceptNet Path Quality Using Crowdsourced Assessments of Naturalness
Yilun Zhou, Steven Schockaert, Julie Shah
The Web Conference (WWW), 2019
[Paper] [Code]
Representing, Learning, and Controlling Complex Object Interactions
Yilun Zhou, Benjamin Burchfiel, George Konidaris
Autonomous Robots (AuRo), 2018
Original version in Robotics: Science and Systems (RSS), 2016
[Paper] [Video]
6DOF Grasp Planning by Optimizing a Deep Learning Scoring Function
Yilun Zhou, Kris Hauser
Robotics: Science and Systems (RSS) Workshop on Revisiting Contact - Turning a Problem into a Solution, 2017
[Paper] [Poster]
Incorporating Side-Channel Information into Convolutional Neural Networks for Robotic Tasks
Yilun Zhou, Kris Hauser
IEEE International Conference on Robotics and Automation (ICRA), 2017
[Paper] [Code]
Asymptotically Optimal Planning by Feasible Kinodynamic Planning in a State-Cost Space
Kris Hauser, Yilun Zhou
IEEE Transactions on Robotics (TRO), 2016
[Paper] [Code] [Website]