Transformer-Based Large Language Models for Context-Aware Semantic Understanding and Domain-Specific Text Generation

Authors

  • Puneet Sharma Department of Computer Engineering & Applications, GLA University, Mathura.
  • T Ganga Bhavani Assistant Professor, Department of CSE (Cyber Security),Pragati Engineering College, ADB Road, Surampalem, near Peddapuram, Kakinada District, Andhra Pradesh, India – 533437.
  • Anitha K Associate Professor, Department of Management Studies, Meenakshi College of Arts and Science, Meenakshi Academy of Higher Education and Research.
  • Shaikh Sumaiya Assistant Professor, Department of Information Technology, Vardhaman College of Engineering, Shamshabad, Hyderabad, India - 501218.
  • Dr. Makineedi Raja Babu Department of Information Technology, Aditya University, Surampalem, Andhra Pradesh, Pin 533437.
  • Kapil Mundada Associate Professor, Instrumentation and Control Engineering, Vishwakarma Institute of Technology, Pune, Maharashtra, 411037.
  • Mohit Aggarwal School of Engineering &Technology,Noida international University, Uttar Pradesh 203201, India.
  • D. Akila Professor, Department of Computer Science and Applications, Faculty of Science and Humanities, SRM Institute of Science and Technology, Ramapuram Campus, Chennai, Tamil Nadu, India., Tamil Nadu ,India.

Keywords:

Transformer Models, Large Language Models, Semantic Understanding, Scientific Text Generation, BERT, NLP, Context-Aware Learning.

Abstract

Transformer-based large language models (LLMs) have reshaped the field of natural language processing by facilitating high-quality text generation and advanced contextual semantic understanding in a wide variety of applications; nonetheless, the generation of scientifically valid and context-aware domain-specific content is one of the biggest challenges because of semantic ambiguity, contextual inconsistency, and constraints of knowledge representation in a specialized form. This paper presents a framework of an encoder-transformer structure of context-sensitive semantic interpretation and text generation in domain using scientific literature corpora, gathered in publicly accessible archives like arXiv and PubMed. The posteriori framework is based on encoder transformer architecture to learn deep contextual representations, semantic representations, and domain-adaptive linguistic representations to enhance scientific text generation. Scientific article datasets train and fine-tune the model, and are assessed with several semantic understanding and text generation metrics, such as Accuracy, F1-Score, BLEU, ROUGE, METEOR, BERTScore, and Perplexity. The experimental findings indicate that the suggested framework performs better compared to traditional methods of LSTM, Bi-LSTM, GPT-2 and standard transformer frameworks in terms of preserving context, semantic coherence, technical consistency, and the quality of generated texts and the perplexity and linguistic fluency decreases. The suggested solution also helps build intelligent language scientific processing systems that can be used in the context of automated academic writing, technical summarization, semantic knowledge extraction, and other domain-specific applications of NLP.

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Published

2026-05-12

How to Cite

Sharma, P., Bhavani, T. G., K, A., Sumaiya, S., Babu, D. M. R., Mundada, K., … Akila, D. (2026). Transformer-Based Large Language Models for Context-Aware Semantic Understanding and Domain-Specific Text Generation. International Journal of Artificial Intelligence and Machine Learning, 6(2s), 568–584. Retrieved from https://svedbergopen.com/index.php/ijaiml/article/view/239

Issue

Vol. 6 No. 2s (2026): IJAIML_VOL.6_NO.2s 2026

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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