For questions regarding your VIP team's operations this Fall, please see our VIP policy for Fall 2020 and Notes from instructors on delivery modes. For information on returning to campus, please visit GA Tech's Moving Foward page.

Teams

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  • This project brings together students of diverse backgrounds and disciplines to tell the story of Atlanta as a global city, and to increase access to global citizenship at Georgia Tech and nationally. We want to document and connect with the individuals and communities that are transforming Atlanta into a global metropolis, such as heritage and immigrant communities, foreign-born residents...

  • The main goal of the ACT (Autonomous and Connected Transportation) Lab is to understand interactions between drivers/travelers, emerging vehicular technologies related to connectivity and autonomy, and novel infrastructure designs using a driving simulator environment, analytical modeling, and field test tracks. Using the collected data, we seek to develop analytical models and perform data...

  • 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...

  • 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...

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

  • 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...

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

  • Students will be asked to produce a research project or creative project on a topic related to French Arts and Media, broadly defined. This could be a research article to be published in a scholary journal, a translation of a French short story or short essay, an analysis of French & Francophone films, a short documentary on social movements in France, etc. Transnational/comparative...

  • ** Previous experience with this team is required **

  • This VIP employs the sidekick model of global social entrepreneurship to leverage market forces to accomplish 3 critical objectives.  The first is to identify superhero local leaders in the global south who have a long track record of success in transforming their communities with social innovation.  The second is to inspire the world about these largely unknown change agents and...

  • Develop, evaluate and deploy health analytics applications that can help doctors and patients to make better and healthy decisions.

  • Internet of things (IOT) has the potential to revolutionize the healthcare industry. Thus far, most IOT applications focus on improving monitoring and physiological sensing of healthcare and patient care; however, the next generation of healthcare technologies will focus on multiplexed points of care testing, diagnostics, and treatment. The goal of this course is to engage students to explore...

  • To build airborne observation platforms equipped with cameras and electromagnetic sensors, to observe lightning and other electrical activity in the atmosphere from high altitude (100,000 ft).

  • To examine how small, low cost unmanned aerial vehicles can be used to deliver items, operate in constrained environments, and maximize efficiency.  To achieve this, we will develop electromechanical designs, avionics, and algorithms for small, low cost, aerial vehicles.  We will first focus on developing gliding vehicles that are catapult launched.  Once the platforms are...

  • Develop creative robots that can listen to, play, and improvise music.

  • To create a collective of autonomous robots capable of physically collaborating on tasks such as: moving objects; constructing structures; playing sports; assisting human participants. The robot collective should operate autonomously with minimal intervention for long periods and learn from their operation and interactions over time.