Thesis Defence: Localization of Diversions in Buried High-Density Polyethylene Pipes Utilizing Preprocessed Zadoff-Chu Ultrasonic Guided Wave Reflections and Vision Transformer Architecture

Kyle Barnes, supervised by Dr. Anas Chaaban, will defend their thesis titled “Localization of Diversions in Buried High-Density Polyethylene Pipes Utilizing Preprocessed Zadoff-Chu Ultrasonic Guided Wave Reflections and Vision Transformer Architecture” in partial fulfillment of the requirements for the degree of Master of Applied Science in Electrical Engineering.

An abstract for Kyle Barnes’s thesis is included below.

Defences are open to all members of the campus community as well as the general public. Registration is not required for in-person defences.

---

Abstract

The detection of diversions in residential gas pipelines is critical to maintaining public safety, preventing unauthorized usage, and ensuring the integrity of distribution networks. To minimize service disruptions, non-intrusive and non-destructive sensing methods are preferred. This thesis proposes a technique for the localization of diversions in high-density polyethylene (HDPE) pipes using ultrasonic sensors, signal processing, and a vision transformer (ViT) architecture.

The approach specifically addresses the challenge of determining the distance from the measurement point to the diversion site. Zadoff-Chu modulated ultrasound signals are transmitted through the pipe using a custom-designed array of piezoelectric transmitters. Reflected signals, captured by a corresponding array of piezoelectric receivers, are processed and analyzed by a vision transformer to estimate diversion locations. Experimental validation carried out in buried pipeline setups demonstrates a localization accuracy of 11 cm under conditions that approximate real-world environments.