Published December 13, 2024 | Version v1
Conference paper Open

CTD2023: Novel Approaches for ML-Assisted Particle Track Reconstruction and Hit Clustering

  • 1. High-Energy Physics department, Radboud University, the Netherlands
  • 2. ROR icon National Institute for Subatomic Physics
  • 3. SURF, the Netherlands
  • 4. IDAL, Department of Electronic Engineering, ETSE-UV, University of Valencia, Spain
  • 5. Valencian Graduate School and Research Network of AI (ValgrAI), Spain
  • 6. Instituto de Física Corpuscular, University of Valencia, Spain
  • 7. University of Twente, the Netherlands

Description

Track reconstruction is a vital aspect of High-Energy Physics (HEP) and plays a critical role in major experiments. In this study, we delve into unexplored avenues for particle track reconstruction and hit clustering. Firstly, we enhance the algorithmic design effort by utilising a simplified simulator (REDVID) to generate training data that is specifically composed for simplicity. We demonstrate the effectiveness of this data in guiding the development of optimal network architectures. Additionally, we investigate the application of image segmentation networks for this task, exploring their potential for accurate track reconstruction. Moreover, we approach the task from a different perspective by treating it as a hit sequence to track sequence translation problem. Specifically, we explore the utilisation of Transformer architectures for tracking purposes. Our preliminary findings are covered in detail. By considering this novel approach, we aim to uncover new insights and potential advancements in track reconstruction. This research sheds light on previously unexplored methods and provides valuable insights for the field of particle track reconstruction and hit clustering in HEP.

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