Scientific Discovery

Scientific discovery is increasingly being automated through the development of AI agents capable of performing the entire scientific workflow, from hypothesis generation to experimental design and analysis. Current research focuses on developing and evaluating these agents using benchmarks and novel algorithms, including large language models (LLMs), neural networks (e.g., recurrent convolutional neural networks, variational autoencoders), and evolutionary computation methods, often applied to specific scientific domains like materials science and biological research. This automation promises to accelerate the pace of scientific discovery across various fields by handling large datasets, complex simulations, and the synthesis of information from diverse sources, ultimately leading to more efficient and impactful research.

Papers

May 18, 2024

Discovering Physics-Informed Neural Networks Model for Solving Partial Differential Equations through Evolutionary Computation
Bo Zhang, Chao Yang
Physic Informed Neural Network Partial Differential Equation Scientific Discovery Neural Network Model Evolutionary Computation

May 16, 2024

May 12, 2024

On Discovery of Local Independence over Continuous Variables via Neural Contextual Decomposition
Inwoo Hwang, Yunhyeok Kwak, Yeon-Ji Song, Byoung-Tak Zhang, Sanghack Lee
Scientific Discovery Conditional Independence Continuous Variable Local Independence Decomposition Network Context Specific Independence

May 7, 2024

Opportunities for machine learning in scientific discovery
Ricardo Vinuesa, Jean Rabault, Hossein Azizpour, Stefan Bauer, Bingni W. Brunton, Arne Elofsson, Elias Jarlebring, Hedvig Kjellstrom, Stefano Markidis, David Marlevi, Paola Cinnella, Steven L. Brunton
Machine Learning Emerging Opportunity Scientific Discovery

April 25, 2024

Automating the Discovery of Partial Differential Equations in Dynamical Systems
Weizhen Li, Rui Carvalho
Dynamical System Partial Differential Equation Scientific Discovery Sparse Model Adaptive Lasso

April 16, 2024

OSR-ViT: A Simple and Modular Framework for Open-Set Object Detection and Discovery
Matthew Inkawhich, Nathan Inkawhich, Hao Yang, Jingyang Zhang, Randolph Linderman, Yiran Chen
Object Detector Scientific Discovery Open Set Modular Framework ViT Lens Open Set Object

April 15, 2024

Shape Arithmetic Expressions: Advancing Scientific Discovery Beyond Closed-Form Equations
Krzysztof Kacprzyk, Mihaela van der Schaar
Scientific Discovery Symbolic Regression Generalized Additive Model Mathematical Expression Shape Function Closed Form Solution

April 8, 2024

Automated discovery of symbolic laws governing skill acquisition from naturally occurring data
Sannyuya Liu, Qing Li, Xiaoxuan Shen, Jianwen Sun, Zongkai Yang
Raw Data Scientific Discovery Neural Network Model Skill Learning Training Datasets Unobservable State

April 7, 2024

Skill Transfer and Discovery for Sim-to-Real Learning: A Representation-Based Viewpoint
Haitong Ma, Zhaolin Ren, Bo Dai, Na Li
Scientific Discovery Skill Discovery Quadrotor Control Skill Transfer Skill Representation Sim to Real Learning

March 28, 2024

Sparse Feature Circuits: Discovering and Editing Interpretable Causal Graphs in Language Models
Samuel Marks, Can Rager, Eric J. Michaud, Yonatan Belinkov, David Bau, Aaron Mueller
Language Model Strong Generalization Causal Graph Scientific Discovery Interpretable Feature Language Model Behavior Scalable Interpretability

March 24, 2024

Pose-Guided Self-Training with Two-Stage Clustering for Unsupervised Landmark Discovery
Siddharth Tourani, Ahmed Alwheibi, Arif Mahmood, Muhammad Haris Khan
Self Supervised Scientific Discovery Diffusion Feature Pose Code Multi Stage Clustering

March 23, 2024

Boarding for ISS: Imbalanced Self-Supervised: Discovery of a Scaled Autoencoder for Mixed Tabular Datasets
Samuel Stocksieker, Denys Pommeret, Arthur Charpentier
Self Supervised Learning Supervised Autoencoder Variational Autoencoders Tabular Data Scientific Discovery Data Imbalance

March 18, 2024

February 25, 2024

Building Flexible Machine Learning Models for Scientific Computing at Scale
Tianyu Chen, Haoyi Zhou, Ying Li, Hao Wang, Chonghan Gao, Rongye Shi, Shanghang Zhang, Jianxin Li
Reinforcement Learning Visual Analogue Scale Scientific Discovery Scientific Computing Multi Physic Simulation

February 20, 2024

Towards accelerating physical discovery via non-interactive and interactive multi-fidelity Bayesian Optimization: Current challenges and future opportunities
Arpan Biswas, Sai Mani Prudhvi Valleti, Rama Vasudevan, Maxim Ziatdinov, Sergei V. Kalinin
Active Learning Bayesian Optimization Scientific Discovery Multi Fidelity Bayesian Optimization Current Challenge Adaptive Exploration

February 15, 2024

Toward a Team of AI-made Scientists for Scientific Discovery from Gene Expression Data
Haoyang Liu, Yijiang Li, Jinglin Jian, Yuxuan Cheng, Jianrong Lu, Shuyi Guo, Jinglei Zhu, Mianchen Zhang, Miantong Zhang, Haohan Wang
Scientific Discovery Data Science Gene Expression Data Team Dynamic Gene Disease Association

February 6, 2024

Discovery of the Hidden World with Large Language Models
Chenxi Liu, Yongqiang Chen, Tongliang Liu, Mingming Gong, James Cheng, Bo Han, Kun Zhang
Scientific Discovery Causal Relation Causal Discovery Method Underlying Causal

February 5, 2024

Trillion Parameter AI Serving Infrastructure for Scientific Discovery: A Survey and Vision
Nathaniel Hudson, J. Gregory Pauloski, Matt Baughman, Alok Kamatar, Mansi Sakarvadia, Logan Ward, Ryan Chard, André Bauer, Maksim Levental, Wenyi Wang, Will Engler, Owen Price Skelly, Ben Blaiszik, Rick Stevens, Kyle Chard, Ian Foster
Deep Learning Timely Survey Technical Challenge Vision Paper Scientific Discovery Billion Parameter

Scientific Discovery

Papers

Discovering Physics-Informed Neural Networks Model for Solving Partial Differential Equations through Evolutionary Computation

KnowledgeHub: An end-to-end Tool for Assisted Scientific Discovery

LLM and Simulation as Bilevel Optimizers: A New Paradigm to Advance Physical Scientific Discovery

On Discovery of Local Independence over Continuous Variables via Neural Contextual Decomposition

Opportunities for machine learning in scientific discovery

Automating the Discovery of Partial Differential Equations in Dynamical Systems

OSR-ViT: A Simple and Modular Framework for Open-Set Object Detection and Discovery

Shape Arithmetic Expressions: Advancing Scientific Discovery Beyond Closed-Form Equations

Automated discovery of symbolic laws governing skill acquisition from naturally occurring data

Skill Transfer and Discovery for Sim-to-Real Learning: A Representation-Based Viewpoint

Sparse Feature Circuits: Discovering and Editing Interpretable Causal Graphs in Language Models

Pose-Guided Self-Training with Two-Stage Clustering for Unsupervised Landmark Discovery

Boarding for ISS: Imbalanced Self-Supervised: Discovery of a Scaled Autoencoder for Mixed Tabular Datasets

Accelerating Scientific Discovery with Generative Knowledge Extraction, Graph-Based Representation, and Multimodal Intelligent Graph Reasoning

LogicalDefender: Discovering, Extracting, and Utilizing Common-Sense Knowledge

Building Flexible Machine Learning Models for Scientific Computing at Scale

Towards accelerating physical discovery via non-interactive and interactive multi-fidelity Bayesian Optimization: Current challenges and future opportunities

Toward a Team of AI-made Scientists for Scientific Discovery from Gene Expression Data

Discovery of the Hidden World with Large Language Models

Trillion Parameter AI Serving Infrastructure for Scientific Discovery: A Survey and Vision