Teams

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  • This VIP offers data to understand English as spoken by diverse populations in Georgia.  We produce academic articles and presentations about regional and ethnic language variation; change over time; and accents as signifiers of identity and attitudes.  Students develop skills in human subjects research, sociolinguistic theory, phonetic measurements, statistics, data science, and...

  • 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).

  • The purpose of the Living Building Science team is to evaluate the impact of the Kendeda Building for Innovative Sustainable Design on the non-human living and nonliving environment using sustainable scientific methods.

  • To discover physical principles of how animals move in complex, challenging environments. Use tools from physics, neuroscience, biomechanics, and robotics to extract mechanism of how animal and engineered systems move, especially with respect to stability, agility, and robustness.

  • 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...

  • NASA, Georgia Tech, and GTRI are developing energy technologies to support future missions to Mars. The VIP M.A.R.S. Team will research, develop, and test renewable energy systems in collaboration with scientists and engineers at NASA’s Kennedy Space Center in Florida. The Moon and Mars offer difficult challenges to NASA’s ambitious plan for exploration, including acquisition of reliable and...

  • The team explores financial markets with machine learning tools. Machine learning (ML) techniques are heavily employed in quantitative trading strategies to predict or price stocks and other asset markets such as bonds, options and other derivatives, commodities, etc. Students will not only do research in these areas, but they will also learn how to use ML tools to better understand and...

  • The Natural Language Processing (NLP) for Financial Markets team works on the development and application of NLP models for Financial Markets Including but not limited to Equity Market, Bond Market, and Cryptocurrency...

  • This VIP project aims to create physically-based neural graphics algorithms that can generate visually appealing computer animations depicting various natural phenomena and physical processes. Our research is at the intersection of computer graphics, computational physics, neural representation, and machine learning.

  • Quantum engineering is a new interdisciplinary domain that focuses on the realization of quantum technologies, such as quantum computing, quantum information science, quantum network, and quantum sensing. The objective of this VIP is to train future engineers and scientists to gain the knowledge and skills of quantum information science and technology to solve difficult problems.

  • Modern electronic devices are powerful but uninspiring; they are ubiquitous but ephemeral. We will design and fabricate devices for music production, gaming, and computing sparked by real-world designs from the past as well as fictional formulations of imagined futures. The black-and-white, utilitarian minimalism of modern laptops and cell phones that blight the aisles of Best Buy with boredom...

  • The EPIC (Exoskeleton and Prosthesis Intelligent Controls) Lab research areas include automation & mechatronics and bioengineering with a focus on the control of powered robotic prostheses and exoskeletons to assist human movement. We implement biological signal processing, intent recognition, and control systems based on EMG and mechanical sensors to improve human-machine capabilities....

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

  • This VIP class integrates United Nation Sustainable Development Goals (SDGs) 9 and 16. Building resilient Infrastructure, promoting inclusive and sustainable Industrialization, and fostering Innovation are the themes for SDG9. The SDG16 promotes peaceful and inclusive societies for sustainable development and building inclusive institutions at all levels. This VIP will bring together ideas,...

  • To produce novel, creative media about recent scientific discoveries and engineering innovations. These include but are not limited to: interactive museum-style exhibitions, online articles and videos, and festival exhibits. Specifically, the team will create one exhibit or demo per semester, and each team member will publish bi-weekly in the online science magazine Charged. ...

  • To design digital hardware which is highly resistant to: (i) reverse engineering and (ii) attacks by side channels, by malicious hardware or by software.

  • To develop smart city infrastructure health and safety condition monitoring, assessment, and diagnosis with the use of emerging sensor technologies (e.g. smart phones, 2D imaging, 3D laser scanning, 3D LiDAR, 3D printing, UAV, GPS, Telematics, CV/AV, etc.) with machine learning, computer vision, artificial intelligence, pattern recognition, signal processing, multi-source/scale/frequency...

  • Research, design and deploy smartphone apps/games, websites, databases, wireless networks, and sensor networks to gather, process, and deliver game and venue information to football fans in the stadium on game days.

  • To study soft, biocompatible materials to design low-profile, unobtrusive wearable and implantable electronics for advancing human healthcare and wellness.

  • Development of an intelligent system to manage and maintain makerspaces.

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