On improving knowledge graph facilitated simple question answering system

Leveraging knowledge graph will benefit question answering tasks, as KG contains well-structured informative data. However, training knowledge graph-based simple question answering systems is known computationally expensive due to the complex predicate extraction and candidate pool generation. Moreover, the existing methods based on convolutional neural network (CNN) or recurrent neural network (RNN) overestimate the importance of predicate features thus reduce performance. To address these challenges, we propose a time-efficient and resource-effective framework. We use leaky n-gram to balance recall and candidate pool size in candidate pool generation. For predicate extraction, we propose a soft-histogram and self-attention (SHSA) module which serves the role of preserving the global information of questions via feature matrices. And this leads to reduce the RNN module as the simple feedforward network in predicate representation. We also designed a Hamming lower-bound label encoding algorithm to encode the label representations in lower dimensions. Experiments on benchmark datasets show that our method outperforms the competitive work for end-tasks and achieves better recall with a significantly pruned candidate space.

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@article{DBLP:journals/nca/LiZYWZLW21,
  author    = {Xin Li and
               Hongyu Zang and
               Xiaoyun Yu and
               Hao Wu and
               Zijian Zhang and
               Jiamou Liu and
               Mingzhong Wang},
  title     = {On improving knowledge graph facilitated simple question answering
               system},
  journal   = {Neural Comput. Appl.},
  volume    = {33},
  number    = {16},
  pages     = {10587--10596},
  year      = {2021},
}