使用树状分层深度卷积神经网络和 ASRNN 双向 LSTM 自动制作视频字幕

IF 3.3 3区 计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS
N. Kavitha, K. Ruba Soundar, R. Karthick, J. Kohila
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引用次数: 0

摘要

由于监控视频、个人视频数据等海量视频数据的增加,亟需开发自动视频理解技术。此前已有多种方法用于自动视频字幕制作。但是,现有的方法都存在一些问题,比如在处理大量帧的过程中耗时较长,而且还存在过度拟合的问题。这是视频字幕自动处理过程中的一个难点。因此,它会影响最终结果(字幕)的准确性。为了克服这些问题,本文提出了使用树状分层深度卷积神经网络和注意分段递归神经网络-双向长短期记忆(ASRNN-bi-directional LSTM)进行自动视频字幕制作。字幕制作部分包括两个阶段:特征编码器和解码器。在特征编码器阶段,树状分层深度卷积神经网络(Tree CNN)对视频的向量表示进行编码,并提取三种特征。在解码器阶段,注意力分段递归神经网络(ASRNN)将向量解码为文本描述。基于 ASRNN 的方法会遇到长期依赖性问题。为了解决这个问题,我们将重点放在双向 LSTM 和字幕生成器生成的所有单词上,以提取字幕生成器隐藏状态所呈现的局部和未完成的全局上下文信息。因此,我们利用金鹰优化技术来增强 ASRNN 权重参数。提出的方法在 Python 中执行。与现有方法相比,拟议技术的准确率分别提高了 34.89%、29.06% 和 20.78%,平均平方误差分别降低了 23.65%、22.10% 和 29.68%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Automatic video captioning using tree hierarchical deep convolutional neural network and ASRNN-bi-directional LSTM

Automatic video captioning using tree hierarchical deep convolutional neural network and ASRNN-bi-directional LSTM

The development of automatic video understanding technology is highly needed due to the rise of mass video data, like surveillance videos, personal video data. Several methods have been presented previously for automatic video captioning. But, the existing methods have some problems, like more time consume during processing a huge number of frames, and also it contains over fitting problem. This is a difficult task to automate the process of video caption. So, it affects final result (Caption) accuracy. To overcome these issues, Automatic Video Captioning using Tree Hierarchical Deep Convolutional Neural Network and attention segmental recurrent neural network-bi-directional Long Short-Term Memory (ASRNN-bi-directional LSTM) is proposed in this paper. The captioning part contains two phases: Feature Encoder and Decoder. In feature encoder phase, the tree hierarchical Deep Convolutional Neural Network (Tree CNN) encodes the vector representation of video and extract three kinds of features. In decoder phase, the attention segmental recurrent neural network (ASRNN) decode vector into textual description. ASRNN-base methods struck with long-term dependency issue. To deal this issue, focuses on all generated words from the bi-directional LSTM and caption generator for extracting global context information presented by concealed state of caption generator is local and unfinished. Hence, Golden Eagle Optimization is exploited to enhance ASRNN weight parameters. The proposed method is executed in Python. The proposed technique achieves 34.89%, 29.06% and 20.78% higher accuracy, 23.65%, 22.10% and 29.68% lesser Mean Squared Error compared to the existing methods.

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来源期刊
Computing
Computing 工程技术-计算机:理论方法
CiteScore
8.20
自引率
2.70%
发文量
107
审稿时长
3 months
期刊介绍: Computing publishes original papers, short communications and surveys on all fields of computing. The contributions should be written in English and may be of theoretical or applied nature, the essential criteria are computational relevance and systematic foundation of results.
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