Abstract
Deep Learning algorithms have made great significant progress. Many model designs and methodologies have been tested to improve presentation in various fields of Natural Language Processing (NLP). NLP includes the domain of translation through the state-of-art process of machine interpretation. Deep learning refers to the use of neural networks with multiple layers to model complex patterns in data. In the context of NMT, deep learning models can capture the complex relationships between source and target languages, leading to more accurate and fluent translations. The encoder-decoder system is a framework for NMT that uses two neural networks, an encoder and a decoder, to translate input sequences to output sequences. The encoder network processes the input sequence and creates a fixed-length representation of it, while the decoder network generates the output sequence from the encoder's representation. Through the speech/text content process, the computer realizes and resembles the individual intervention known as machine translation. Besides a prominent study area, numerous methods, such as rule-based, quantitative, and even excellent illustration of machine translation supervision, are being established. In machine translation, neural networks have achieved considerable advancements. We reviewed various strategies involved with Encoding-Decoding for the Neural Machine Translation scheme in this research (NMT). Most of the neural machine translation (NMT) prototypes has built at a sequential framework of encoder-decoder that does not employ syntactic information.
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The researchers would like to acknowledge Deanship of Scientific Research, Taif University for funding this work.
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Ahammad, S.H., Kalangi, R.R., Nagendram, S. et al. Improved neural machine translation using Natural Language Processing (NLP). Multimed Tools Appl 83, 39335–39348 (2024). https://doi.org/10.1007/s11042-023-17207-7
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DOI: https://doi.org/10.1007/s11042-023-17207-7