Paper ID: 2411.05836

Prion-ViT: Prions-Inspired Vision Transformers for Temperature prediction with Specklegrams

Abhishek Sebastian, Pragna R

Fiber Specklegram Sensors (FSS) are widely used in environmental monitoring due to their high sensitivity to temperature fluctuations, yet the complex, nonlinear nature of specklegram data poses significant challenges for conventional predictive models. This study introduces a novel Prion-Vision Transformer (Prion-ViT) model, inspired by biological prion memory mechanisms, to enhance long-term dependency modeling for accurate temperature prediction using FSS data. By leveraging a persistent memory state, the Prion-ViT effectively retains and propagates essential features across multiple layers, thereby improving prediction accuracy and reducing mean absolute error (MAE) to "0.52 Degree Celsius" outperforming traditional models like ResNet, Inception Net V2, and existing transformer-based architectures. The study addresses the specific challenges of applying Vision Transformers (ViTs) to FSS data and demonstrates that the prion-inspired memory mechanism offers a robust solution for capturing complex optical interference patterns in specklegrams. These findings establish Prion-ViT as a promising advancement for real-time industrial temperature monitoring applications, with potential applicability to other optical sensing domains.

Submitted: Nov 6, 2024