Engineering: Poster Sessions

Here is What’s Possible: Grid strength aware IBR control and optimization for increased power contribution from distributed energy resources to the grid.

Here is What’s Possible: By replacing flammable organic solvents with tetrachloro-metal salt solutions, my research provides a safer, more sustainable strategy for regenerating PFAS-laden ion-exchange resins, reducing operational risks and environmental impacts in drinking water treatment.

Here is What’s Possible: This research establishes the practical limits of Ground Penetrating Radar (GPR) for detecting subgrade or embankment failure in moisture-sensitive fine-grained soils, while opening the path toward integrated, multi-method approaches that combine GPR with intrusive testing and calibration to more reliably diagnose and mitigate longitudinal cracking in highway embankments and pavements.

Here is What’s Possible: Enable a new generation of security models to detect fine-grained, content-based vulnerabilities and mitigate codebase information breaches.

Here is What’s Possible: Acute liver failure, a rapid and life-threatening condition with limited treatment options, could be addressed more effectively using a rapid conduction device that enables scalable, high-viability cryopreservation of hepatocyte spheroids, overcoming the limitations in bioartificial liver treatments.

Here is What’s Possible: This research opens the possibility of systematically selecting LLM prompt strategies — rather than models — to maximize the diversity of failure modes discovered during automated robustness testing of distributed software systems.

Here is What’s Possible: My research opens up a path to the development of a debris-flow specific model, which can potentially help us tell where and when debris flows happen.

Here is What’s Possible: My research enables accurate evaluation of real-world accessibility by modeling how people reach services through road networks, helping identify locations that maximize effective access.

Here is What’s Possible: Provides critical evidence supporting engineered nanoparticles as an innovative non-antibiotic strategy against antimicrobial resistance.