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  • To develop 2-D to 2-D tunneling structures to enable for smaller, faster, more capable microelectronic devices applied to a broad range of applications such as energy, RF, and sensing.

  • The ACT (Autonomous and Connected Transportation) Lab is focused on understanding the interactions between drivers/travelers, emerging vehicular technologies, and novel infrastructure designs. To this aim, a high-fidelity full-cab driving simulator is employed for data collection. Based on the data collected in the simulated environment, as well as data from other sources, the research team ...

  • Using artificial intelligence (AI)-based approaches (especially manifold learning) for understanding the delicate rules of nature and utilizing them for forming innovative software- and hardware-based tools for addressing the major challenges in a wide range of disciplines. ...

  • To develop a system that will be able to drive like an expert human driver. In order to achieve this, we will initially monitor the driving styles of several drivers using a high-fidelity driving simulator. Based on the measurements, we will be able to classify drivers according to their skill using graphical inference models. We will then develop suitable models for drivers’ actions and...

  • For students to learn the theory and gain the skills necessary to fabricate next-generation batteries for EVs, spacecraft, and Smart Cities infrastructure.

  • Future wireless communication devices will need to dynamically learn their environment and opportunistically exploit spectrum. The goal of this project is to integrate machine learning algorithms into communication architectures to achieve the agility required for the task. The team will participate to the DARPA Spectrum Collaboration Challenge (SC2) and test its solutions against other...

  • The Laboratory for Intelligent Decision and Autonomous Robots (LIDAR) at Georgia Tech focus on planning, control, and decision-making algorithms of highly dynamic, under-actuated, and human-cooperative robots in complex environments. The VIP Team will explore the challenging research topics in mechanical design, mechatronics, control algorithm design, and perception of dynamic legged...

  • Aquabots will explore new research in maritime robotics including navigation of underwater and surface vehicles, mapping and exploration underwater, and other challenging maritime robotic technologies.

  • This project brings together histories and concepts of visual culture and image making with explorations of technology and artificial intelligence. We are an artist and AI researcher exploring approaches to applying machine learning to create artistic images. Our team is analyzing the application of machine learning to the creative act of image making. Working collaboratively in the areas of...

  • To develop an automotive LiDAR system in support of the emerging technical area of vehicle autonomy and increased safety.

  • **Limited Admissions for the Spring 2021 Semester** ...

  • To create autonomous microrobots that can traverse biological barriers within the body by mimicking microorganisms.

  • This VIP takes as its main focus Georgia Tech’s new Living Building – the Kendeda Building for Innovative Sustainable Design – and its efforts to advance social equity as a key part of building and operating a sustainable building. Within the Living Building Challenge (LBC), we focus on improving - and re-defining - the

  • Green chemistry and engineering are creating a culture change for the future direction of industry. Flow chemistry will be an essential tool to sustainable and tailored chemical-based processes. This project will design, build, test, and evaluate prototypes of flow reactors for targeted chemical processes.

  • Although dialectology is an established field in linguistics, an interdisciplinary research on dialect drawing on cultural studies, media studies, literary theories, history, and other fields is just emerging. To facilitate scholarly research and teaching, our team aims to build a digital resource center of the interdisciplinary research on fangyan media, the media productions...

  • Model crack propagation, crack networks, particle crushing, and healing in salt rock; predict soil and rock THCM behavior during heat and fluid injection and extraction; design new geomaterials to optimize the fuel cycle; and recommend strategies for resource and waste management.

  • This team focuses on the effects that data are having in shaping education, on how new, rich, educational data sources can be used to improve content, instruction, and learning. Specifically, we look to the vast array of data that can be collected around educational opportunities at Georgia Tech and how those data shape educational practice.

  • Use design thinking and design behaviors in a team environment to: A: understand campus and community issues using an empathetic approach, B: engage with campus and external community members using a rapid prototyping methodology, and  C: implement change and design interventions that contribute to positive outcomes that create a novel world.

  • As the U.S. population ages, chronic diseases have become more prevalent. This has important implications for society in terms of healthcare costs and quality of life. One such chronic disease is diabetes, which is characterized by elevated levels of blood sugar.  Diabetes exhibits...

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