I'm Joshua Pickard, a Eric and Wendy Schmidt Center postdoc at the Broad Institute of Harvard and MIT. I work with the Center for Integrated Solutions to Infectious Disease (CISID) and collaborators across Mass General Brigham and Harvard to develop control theory methods and AI-based digital twins of sepsis and crticial care patients.
Previously, I trained with Indika Rajapakse at the University of Michigan, studying bioinformatics and digital biology for cellular reprogramming. I am passionate about investigating dynamic biomedical systems across a wide range of data and scales π.
Below you can find updates on my work and research areas.
- Jan. 2026 β Organized the AI4ID Symposium and led a primer session on AI architectures.
- Dec. 2025 β Our paper HIF: The Hypergraph Interchange Format for Higher-Order Networks is available online in Network Science.
- Oct. 2025 β Our paper Dynamic Sensor Selection for Biomarker Discovery is available online in PNAS
- Sep. 2025 β Started as a Postdoctoral Fellow at the Eric and Wendy Schmidt Center at the Broad Institute.
- Oct. 2025 β Nominated for the U-M ProQuest Distinguished Dissertation Award by the Bioinformatics Graduate Program.
- June 2025 β Defended my PhD thesis at the University of Michigan.
- May 2025 β Our paper Automatic biomarker discovery and enrichment with BRAD is available online in Bioinformatics
- Mar. 2025 β Nominated for the U-M Medical School Excellence in Teaching Award by the Bioinformatics Graduate Program.
- Sep. 2024 β Our paper Kronecker Product of Tensors and Hypergraphs: Structure and Dynamics is available online in SIAM Journal of Matrix Analysis and Application (SIMAX)
- Aug. 2024 β Our paper Continuous sepsis trajectory prediction using tensor-reduced physiological signals is available online in Scientific Reports
- June 2023 β Our paper HAT: Hypergraph Analysis Toolbox* is available online in PLOS Computational Biology
- Sep. 2022 β Our paper Deciphering multi-way interactions in the human genome is available online in Nature Communications
- π€LLM Powered Digital Biology: AI isnβt just changing what we know but how we work. My Bioinformatics Retrieval Augmented Digital assistant (BRAD) agentic chatbot leverages language models to automate workflows like information retrieval (online), software execution (local), and document search (RAG) to accelerate digital biology research.
- πBiomarker Observability: With recent and rapic advancements in experimental methods, data processing has become a bigger challenge than acquisition. Iβm working on observability-based methods to identify meaningful biomarkers in genomic data π§¬.
- πHigher Order Networks: Biological data often needs unconventional analysis techniques. I develop methods and tools like the Hypergraph Analysis Toolbox to study group interactions within genomic networks and beyond.
Thanks for stopping by my profile! Feel free to reach out (π«jpic@umich.edu) if youβre interested in discussing research or have a cool idea to share.