MAPS: Advancing Multi-Modal Reasoning in Expert-Level Physical Science
Keywords: multi-modal reasoning, scientific reasoning, physical simulation
TL;DR: improving multi-modal scientific reasoning capability with physics perception model and simulation assistance
Abstract: Pre-trained on extensive text and image corpora, current Multi-Modal Large Language Models (MLLM) have shown strong capabilities in general visual reasoning tasks.
However, their performance is still lacking in physical domains that require understanding diagrams with complex physical structures and quantitative analysis based on multi-modal information.
To address this, we develop a new framework, named **M**ulti-Modal Scientific Re**A**soning with **P**hysics Perception and **S**imulation (**MAPS**) based on an MLLM.
MAPS decomposes expert-level multi-modal reasoning task into physical diagram understanding via a Physical Perception Model (PPM) and reasoning with physical knowledge via a simulator.
The PPM module is obtained by fine-tuning a visual language model using carefully designed synthetic data with paired physical diagrams and corresponding simulation language descriptions.
At the inference stage, MAPS integrates the simulation language description of the input diagram provided by PPM and results obtained through a Chain-of-Simulation process with MLLM to derive the underlying rationale and the final answer.
Validated using our collected college-level circuit analysis problems, MAPS significantly improves reasoning accuracy of MLLM and outperforms all existing models.
The results confirm MAPS offers a promising direction for enhancing multi-modal scientific reasoning ability of MLLMs.
We will release our code, model and dataset used for our experiments upon publishing of this paper.
Primary Area: applications to physical sciences (physics, chemistry, biology, etc.)
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Submission Number: 11154
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