Journal of Jilin University(Engineering and Technology Edition) ›› 2024, Vol. 54 ›› Issue (7): 2026-2037.doi: 10.13229/j.cnki.jdxbgxb.20221229

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A text sentiment analysis method based on BiGRU and capsule network

Bai-you QIAO(),Tong WU,Lu YANG,You-wen JIANG   

  1. School of Computer Science and Engineering,Northeastern University,Shenyang 110169,China
  • Received:2022-09-23 Online:2024-07-01 Published:2024-08-05

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Abstract:

Most of the existing sentiment analysis methods based on commodity comments texts seldom consider the aspect features, and the related analysis models can′t consider both the long-term context dependence and the local text features, thus affecting the accuracy of sentiment analysis. To solve the problem, a sentiment analysis method based on bidirectional gated recurrent network (BiGRU) and capsule network is proposed. Firstly, the method uses the approach based on the word frequency statistics to extract the aspect features from the comment texts, and integrate them into the word vector representation to effectively improve the expression ability of the word vector. Then, the BiGRU network is used to extract the long-term context features of the texts, and Capsule Network is used to extract local features of the comment texts, thus realizing high-precision text sentiment analysis based on aspect. The experimental results on real datasets show that the proposed method is superior to bidirectional long-short term memory (BiLSTM), CNN-LSTM, TextCNN and other sentiment classification models in Accuracy, Precision, Recall and F1 score.

Key words: deep learning, aspect features, sentiment analysis, comment text

CLC Number: 

  • TP311.13

Fig.1

Text sentiment analysis framework based on BiGRU and Capsule Network"

Fig.2

An example of aspect feature representation"

Fig.3

ASP-BiGRU-CAPSULE model"

Table 1

Datasets"

情感极性积极中性消极
书籍评论10 6704 0343 740
手机评论12 9654 8505 321
酒店评论3 000-7 000

Fig.4

The effect of convolution kernel size on Capsule Network"

Fig. 5

The effect of the number of convolution kernels on Capsule Network"

Fig.6

The effect of regularization on GRU model"

Fig. 7

The effect of regularization on Capsule Network"

Fig.8

Experimental results of several models (Accuracy)"

Fig.9

Experimental results of several models (F1)"

Table 2

Compare experimental results with commonly used models"

模型AccuracyPRF1
LSTM79.1565.8765.4065.82
BiLSTM80.5365.6765.0165.33
CNN78.3565.5764.9765.27
TextCNN80.7866.9266.7566.97
CNN-LSTM83.1168.0367.9867.95
LSTM-CNN84.5768.8968.7468.46
caps-BiLSTM85.1268.9769.1669.06
ABCDM85.0369.2969.3768.32
ASP-BiGRU-CAPSULE85.6169.9169.6769.07
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