This project addresses this question: can we adapt representations of computer code to characterize metabolic processes? How can we use those representations to better understand these processes? This idea stems from previous work in Big Code Analytics, under the hypothesis that methods developed for code repair and finding bugs and vulnerabilities in computer programs can be applied to metabolic processes.

Algorithmic Fairness

In collaboration with the Philosophy department at UST, in this project we are working on the creation of a framework for ensuring that Algorithms used in analytics, machine learning and Artificial Intelligence are created, trained, deployed and evaluated taking into consideration fairness and bias. This is a growing area of interest and our approach is Socio-technical in nature, that is, we consider all the contexts: technical, societal, ethical and legal.

911 Analytics

Analyzing 911 calls to predict resource allocation, in case of unexpected events.

City Challenges

Levering the Open Data Initiative of the City of Houston to develop analytics and visualization tools for investigating phenomena and answering questions related to the City of Houston (e.g. transportation, zoning, traffic, etc.).

C5-Celts Computing Club - City Challenges

As advisor to the UST Celts Computing Club, we are working with students on developing tools, software and methods for addressing challenges in the City of Houston.

Nautical Archaeology

In collaboration with Texas A&M Ship Reconstruction Lab and the Center for the Study of Digital Libraries, this project seeks to create methods for assisting in ship reconstruction.

Digital Humanities

Investigating the application of Computing and Visualization Technologies to diverse disciplines in the Humanities such as Art History, Literature and others.