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Incorporating Graph Attention Mechanism into Geometric Problem Solving Based on Deep Reinforcement Learning

Authors :
Zhong, Xiuqin
Yan, Shengyuan
Lin, Gongqi
Fu, Hongguang
Xu, Liang
Jiang, Siwen
Huang, Lei
Fang, Wei
Zhong, Xiuqin
Yan, Shengyuan
Lin, Gongqi
Fu, Hongguang
Xu, Liang
Jiang, Siwen
Huang, Lei
Fang, Wei
Publication Year :
2024

Abstract

In the context of online education, designing an automatic solver for geometric problems has been considered a crucial step towards general math Artificial Intelligence (AI), empowered by natural language understanding and traditional logical inference. In most instances, problems are addressed by adding auxiliary components such as lines or points. However, adding auxiliary components automatically is challenging due to the complexity in selecting suitable auxiliary components especially when pivotal decisions have to be made. The state-of-the-art performance has been achieved by exhausting all possible strategies from the category library to identify the one with the maximum likelihood. However, an extensive strategy search have to be applied to trade accuracy for ef-ficiency. To add auxiliary components automatically and efficiently, we present deep reinforcement learning framework based on the language model, such as BERT. We firstly apply the graph attention mechanism to reduce the strategy searching space, called AttnStrategy, which only focus on the conclusion-related components. Meanwhile, a novel algorithm, named Automatically Adding Auxiliary Components using Reinforcement Learning framework (A3C-RL), is proposed by forcing an agent to select top strategies, which incorporates the AttnStrategy and BERT as the memory components. Results from extensive experiments show that the proposed A3C-RL algorithm can substantially enhance the average precision by 32.7% compared to the traditional MCTS. In addition, the A3C-RL algorithm outperforms humans on the geometric questions from the annual University Entrance Mathematical Examination of China.

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1438539140
Document Type :
Electronic Resource