LANS: A Layout-Aware Neural Solver for Plane Geometry Problem
This addresses geometry problem solving for AI systems, offering an incremental improvement by enhancing layout awareness in neural solvers.
The paper tackles the challenge of geometry problem solving by introducing a layout-aware neural solver (LANS) that improves representation of geometry diagrams, achieving superior performance over existing solvers on datasets Geometry3K and PGPS9K.
Geometry problem solving (GPS) is a challenging mathematical reasoning task requiring multi-modal understanding, fusion, and reasoning. Existing neural solvers take GPS as a vision-language task but are short in the representation of geometry diagrams that carry rich and complex layout information. In this paper, we propose a layout-aware neural solver named LANS, integrated with two new modules: multimodal layout-aware pre-trained language module (MLA-PLM) and layout-aware fusion attention (LA-FA). MLA-PLM adopts structural-semantic pre-training (SSP) to implement global relationship modeling, and point-match pre-training (PMP) to achieve alignment between visual points and textual points. LA-FA employs a layout-aware attention mask to realize point-guided cross-modal fusion for further boosting layout awareness of LANS. Extensive experiments on datasets Geometry3K and PGPS9K validate the effectiveness of the layout-aware modules and superior problem-solving performance of our LANS solver, over existing symbolic and neural solvers. The code will be made public available soon.