As rail infrastructure ages and faces intensifying system stressors (e.g., flooding, icing, and extreme heat), agencies need to identify pathways to enhance the durability and operational reliability of their physical assets. However, there is a significant gap in available training material regarding Rail Infrastructure Asset Management (IAM) for both university students and current practitioners. Building upon the researcher’s ongoing research into adaptive capacity and international rail best practices, this project will translate rigorous research findings into accessible educational and research tools and practical decision-support systems. The project focuses on three primary technology transfer and workforce development initiatives:
1. Interactive Rail Asset Management Platform: The team will develop a web-based, interactive learning module (utilizing platforms such as Tigyog) targeting students and practitioners. This resource will cover the principles of IAM, condition assessment, and decision-making under uncertainty. It will feature "gamified" scenarios and narrative case studies drawn from the team's research, contrasting infrastructure failures (e.g., the East Palestine, Ohio derailment) with successful engineering adaptations (e.g., the Shinkansen automatic braking systems in Japan). Users will engage with a "build-your-own" asset management framework to apply these concepts in real-time.
2. University Teaching Packets: To address the lack of specialized rail engineering curricula, the team will create comprehensive teaching modules for instructors. These packets will draw from the team's six-country comparative analysis (U.S., Australia, Spain, Japan, Ghana, Argentina), providing lecture slides, assignment materials, and case-study evaluations. Topics will focus on identifying key asset vulnerabilities, institutional barriers to maintenance, and successful infrastructure hardening strategies.
3. Practitioner Decision Matrix: The team will develop a "Rail Hazard Mitigation Decision Matrix" for state agencies and rail operators.
This tool will synthesize data on geographic hazards, system ownership models, and cost-benefit ratios to help managers prioritize physical infrastructure improvements.