We study the core ML topics such as agentic AI and its security issues, with a focus on the building novel agentic AI architecture, enabling the LLMs to automate and function in complex data scenarios. We also study the issues of its security, protecting AI from being maliciously used.
We study computational biology because every progress we make has the potential to free millions from suffering.
We are devoted to developing methods that help understand the genetic basis of human complex traits. Our previous studies mostly focus on Alzheimer's disease and cancer.
We develop softwares for two purposes: 1) we always seek to deliver our innovations for domain experts to use free of any technical barriers; 2) we believe scientific discovery topic is the best leveraged when there are actual users uing it, and generating real-world relevant hypothesis.
Updates |
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June. 2026 |
I co-organized the Midwest Machine Learning Symposium (MMLS 2026) at Purdue University, a regional workshop bringing together machine learning researchers to foster collaboration and showcase recent advances. [Website] |
June. 2026 |
We released TopCited AI, an AI-powered platform for discovering, analyzing, and exploring highly influential scientific papers. |
June. 2026 |
We released Heelo, a unified API that enables AI agents to perform real-world tasks such as ordering, booking, outreach, and social media posting through a single call. |
Mar. 2025 |
I gave a short talk at NIH CFDE meeting, titled "Spatially Varying Cell-specific Gene Regulation Network Inference" |
Dec. 2024 |
We received the Outstanding Paper Award at the FL@FM Workshop, NeurIPS 2024, for our paper "ZOOPFL: Exploring Black-box Foundation Models for Personalized Federated Learning". |
July. 2024 |
I gave an invited talk at NIH/NLM, titled "Towards LLM-Based Exploration of Gene Expression Data in Alignment with Bioinformaticians" [Slides] |
Dec. 2023 |
I gave an talk at Stanford AI+Health Seminar, titled "Understanding Structural Patterns for Early-Diagnosis of Alzheimer’s Disease" [Slides] |
Aug. 2023 |
We gave a Tutorial on Trustworthy Machine Learning at KDD 2023 [overview] |
June 2023 |
I gave a Tutorial on Trustworthy ML on Biomedical Computing at IEEE International Conference on Healthcare Informatics [Slides] |
March. 2022 |
We got "Best Paper Honorable Mention" at WSDM 2023 on our work Efficiently leveraging multi-level user intent for session-based recommendation via atten-mixer network |
Dec. 2022 |
I gave an talk at “Xia Peisu Young Scholars Forum” at Chinese Academy of Sciences Institute of Computing Technology, titled "Toward a Principled Understanding of Trustworthy Methods Machine Learning" [Slides] |
Aug. 2022 |
I started my appointment as an assistant professor at iSchool at UIUC |
Aug. 2022 |
We presented our work on learning robust and invariant representations with data augmentation at KDD 2022. [Slides][Poster] |
Aug. 2022 |
We presented our work on a unified theme of robust machine learning titled toward learning human-aligned robust models at UAI 2022. [Poster] |
July 2022 |
We released the initial version of our software, Robustar, a GUI software that helps the user to indentify spurious features [Video][Code] |
July 2022 |
I gave an invited talk on Trustworthy AI-diagnosis of Alzheimer's Disease from MRI by Stanford University CNS lab [Slides] |
July 2022 |
I gave an invited talk on A Principled Unverstanding of Robust Machine Learning Methods by RIKEN Center for Advanced Intelligence Project [Video][Slides] |
June 2022 |
We presented our work on The Two Dimensions of Worst-case Training and the Integrated Effect for OOD Generalization at CVPR 2022. [Poster] |
May 2022 |
We presented our work on Gene Set Prioritization Guided by Regulatory Networks with p-values through KMM at RECOMB 2022. [Slides][Software] |
April 2022 |
I'm recognized as one of the top 50 AI+X rising young scholars by Baidu. Inc. |
Dec. 2021 |
I gave an invited talk on Toward Trustworthy Machine Learning to Understand the Personalized Genetic Basis of Alzheimer's Disease by Department of Bioinformatics at University of Pittsburgh [Slides] |
Dec. 2021 |
I defended my thesis on Toward Robust Machine Learning by Countering Superficial Features at LTI CMU [Thesis][Slides] |
With #MLCB happening, I hope to share a line of work we’ve been developing over the past couple of years:
— Haohan Wang (@HaohanWang) September 10, 2025
🧬 Agentic AI systems for genomic discovery.
A series of algorithms, pipelines, frameworks, and tools. pic.twitter.com/lsC7jfM0Yf
Haohan Wang is an assistant professor in the School of Information Sciences at the University of Illinois Urbana-Champaign. His research focuses on the development of trustworthy machine learning methods for computational biology and healthcare applications, such as decoding the genomic language of Alzheimer's disease. In his work, he uses statistical analysis and deep learning methods, with an emphasis on data analysis using methods least influenced by spurious signals. Wang earned his PhD in computer science through the Language Technologies Institute of Carnegie Mellon University where he works with Professor Eric Xing. In 2019, Wang was recognized as the Next Generation in Biomedicine by the Broad Institute of MIT and Harvard because of his contributions in dealing with confounding factors with deep learning.
The Chinese spelling of the name is 汪浩瀚