Decoding Millennia-Old Inscriptions Using Advanced Neural Networks and Data-Driven Methods in Philology

Deciphering ancient inscriptions has long been a critical challenge in philology, requiring extensive manual analysis and expert interpretation. Recent advancements in artificial intelligence have paved the way for automated approaches to analyzing and reconstructing lost or damaged texts. Traditional inscription analysis methods rely heavily on linguistic expertise and statistical models, which are often insufficient for handling incomplete or ambiguous characters. These approaches struggle with scalability, accuracy, and the ability to infer missing textual components. To address these limitations, this research proposes a Data-Driven Neural Network (DD-NN) framework that integrates deep learning and linguistic pattern recognition. The DD-NN model leverages vast historical datasets and context-aware algorithms to reconstruct missing or degraded inscriptions with high precision. By training on labeled corpora of ancient scripts, the framework improves predictive text completion and semantic understanding in historical document interpretation. The proposed method utilizes convolutional and recurrent neural networks to process visual and textual patterns, enabling automated transcription and contextual restoration. Additionally, it incorporates transformer-based models to enhance language reconstruction by learning syntactic and morphological patterns from diverse inscription datasets. Experimental results demonstrate that DD-NN significantly improves accuracy in deciphering incomplete inscriptions, outperforming traditional philological techniques. The framework enhances text restoration, linguistic structure recognition, and semantic alignment, providing a robust tool for archaeologists and historians. This research establishes a new paradigm in computational philology, enabling more efficient and reliable interpretation of ancient texts.

Hali tarjima qilinmagan