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  • Airavata 2.0 is a cutting-edge project that aims to revolutionize computational experiments. Students interested in contributing to a groundbreaking initiative at the intersection of technology and science should consider this project. ...

  • 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 design and instantiate autonomous mobile robots capable of performing non-trivial tasks in support of people, in life and in work. Emphasis is on task-driven autonomy and underlying algorithms needed to realize it.

  • To develop a framework that fundamentally alters the development of algorithms. We desire to create an automated method that starts with the best human algorithms and then dispassionately develops hybrid algorithms that outperform existing methods. Next, we prove that these algorithms can also be studied by humans for inspiration in development of new algorithm and optimization methods. ...

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

  • The drone industry has grown to the point where larger, more robust applications are feasible. These applications include firefighting, planting seedlings to fight deforestation, and supplying first aid to areas that lack the infrastructure to support conventional aircraft. This VIP project fills this gap by creating a universal hybrid drone platform for students to use as a base for further...

  • Leverage advances in machine learning and data analytics to enable faster and more accurate calculations of chemical properties using quantum-mechanical techniques such as density functional theory (DFT). ...

  • Our goal is to create a new division of VIP undergraduate students focused on developing biomedical technology to contribute to vascular health monitoring and disease diagnosis. They will work in a multidisciplinary setting to gain hands-on experience and confidence in designing, fabricating, testing and analyzing devices. We aim to design teams to work on a variety of sub-projects so...

  • The Bits of Good VIP team is closely linked to the Bits of Good student organization. In order to participate in the VIP, you will need to be a member of the BoG student organization, as this is where teams, roles, and training will take place. As a member of VIP, you will have some additional responsibilities to support the assignment of individual grades for the VIP. These...

  • Goals: To build a suite of mobile applications for iOS and Android devices that will be used to administer and collect data from individuals who have suffered brain traumas with lingering effects (e.g., stroke leading to Aphasia, Alzheimer’s, etc.).

  • 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 one of seven key performance areas in the Living Building Challenge. Students in this class work closely with community partners to support the...

  • The goal of the chemical equity VIP team is to explore chronic chemical exposures in occupations tangentially using chemicals, such as agriculture, transportation, constructions sectors. The team will be analyzing state and federal data leveraging molecular understanding of the chemicals reactivity, physical properties and toxicity profiles. Relationships between chemical exposure and...

  • Due to ITAR and other access restrictions this project is limited to US citizens only.

  • We aim to establish an integrated, collaborative learning environment that explores cinematic filmmaking in the Unreal Engine and offers hands-on experience in film development, production, distribution, and exhibition. Our diverse project teams allow students to work alongside industry professionals to design, fundraise, write, shoot, edit, and market original content while cultivating...

  • The Climate Innovations VIP (formerly National Parks: Diversity & Sustainability) will explore technologies and practices to assess the impacts of climate, man-made and natural events on regional ecosystems. Building on the foundational research of diverse teams from prior US national park and Patagonia sustainability and outreach projects, the class will utilize tools including AI and...

  • GOALS: To examine the problem of concussion from a multidisciplinary view that includes neuroscience, clinical assessment, sports engineering, health informatics, and societal issues.

  • The objective of this program is to develop tools and methods for designing and securely using configurable computing in embedded systems.

  • Cyber-physical systems (CPSs) integrate computational components with physical processes, e.g., robotics, automobiles, factories. Students in this course will learn CPS concepts such as design fundamentals through hands-on development and verification, as well as red-teaming for vulnerability discovery and mitigation. Students will address issues involving design complexity, security, and...

  • 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.

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