Research in the Systems cluster takes an interdisciplinary approach in using technology advances to explore the real-world problems, and sometimes threats, faced by organizations and individuals in the ever-evolving technological landscape. Read more
Computer science education is an interdisciplinary field of research that leverages advances in theories and methods from education, psychology, computer science, and engineering. Read more
The Big Data Analytics, Artificial Intelligence and Machine Learning research cluster tackles important problems and develops real-life applications, harnessing… Read more
Through collaboration with colleagues in areas such as Computer Science, Biology, Oceanography and Statistics, researchers in the Algorithms and Bioinformatics cluster develop tools that have gained widespread use nationally and internationally. Read more
Software engineering professionals and researchers need better measures of code quality. Professionals need better indicators of the effects of their changes on overall system quality. Read more
Peer review—the foundation of science—is ineffective, unreliable, prejudiced, and opaque. It can only be fixed by transitioning to more structured review processes in which reviewers evaluate papers against specific acceptance criteria tailored to a paper’s individual research methodology (e.g. Read more
Most software companies are either considering a hybrid workforce strategy (employees work partly remotely, partly on-site) or have already adopted one. Read more
Source code analysis, code quality issue identification, and refactoring have been explored extensively in the last two decades. Despite the progress, the existing methods and tools lack efficiency, rigor, extensible support for issue identification, and comprehensive support for potential refactorings. Read more
It is common for training systems, simulators, and digital twins to use VR. However, VR has hardware and software limitations, potentially resulting in mis-learning. Read more
In this project, we explore how spatial analysis techniques traditionally used in architecture and urban planning can support authoring, implementing, and evaluating building-scale immersive augmented reality experiences. . Read more
Electron microscopy is vital for many of todays advanced technologies and for the advancement our understanding of the nano- and micro-world, from biological systems to advanced materials and for the semiconductor devices that are vital to our communication and computational systems. Read more
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