Teams

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  M.A.R.S: Martian Advanced Renewable Systems

  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...

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  National Parks: Diversity and Sustainability

  The 2020 Great American Outdoors Act allocates over $9 billion to support a backlog of National Park Service projects, equity outreach programs, and infrastructure needs. This VIP seeks to establish a Public Innovation Center where GT students collaborate with Atlanta based NPS staff to bring innovate research methodologies and practices to our state and federal agencies while helping build...

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  SDGs: Resilient Infrastructures and Sustainable Innovation

  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,...

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  Retrofuturistic Hardware: Music, Gaming and Computing

  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...

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  RoboSense

  To develop robotic sensing platforms for environmental and other monitoring tasks such as oil spill surveys, environmental clean-ups, etc. To develop autonomy solutions for airborne, maritime, and other mobile sensing networks.

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  Robotic Human Augmentation

  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....

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  Robotic Musicianship

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

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  STEMcomm

  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. ...

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  Smart City Infrastructure

  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...

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  Smart Stadium

  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.

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  Smart and Connected Bioelectronics

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

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  Smart^3 Makerspaces

  Development of an intelligent system to manage and maintain makerspaces.

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  Soccer, Community, Innovation, Politics (SCIP)

  The SCIP VIP leverages the beautiful game of soccer and other sports to understand and to accelerate community and youth transformation.  Teams study various forms of innovation, work with local organizations that use soccer to transform youth in the state of Georgia and beyond, produce children’s books and other media, generate resources for community development, create new soccer...

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  Spatiotemporal Modeling:COVID-19

  Post-pandemic: The built environment ...

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  Special Purpose Aircraft (SPA)

  Create, fabricate, and flight test unmanned air vehicles intended for a special purpose or technology demonstration.

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  Sports Performance Intelligence Platforms

  This team turns an athlete’s movements into measurements; their form into figures; and their strides into strategies. We store, analyze and effectively deliver the performance data of GT athletes to the players, trainers and coaches who use it to turn work into wins. ...

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  Subsurface Energy

  Energy has become one of the world's biggest engineering challenges. Current carbon-based energy supply faces conventional reserves depletion and climatic hurdles. The goal of this project is to address enhanced subsurface energy recovery and associated environmental mitigation from a geoengineering perspective. The team will study fundamental hydro-thermo-chemo-bio-mechanical properties of...

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  Team Phoenix-Cluster Competition Team (HPC)

  The Student Cluster Competition team will focus on putting together a proposal each Spring to compete in Supercomputing’s “Student Cluster Competition”. This competition brings togethers teams from around the world to complete a series of challenges related to high-performance computing within a set time limit and power budget...

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  The Future Esports Experience

  Electronic sports, known as esports, are experiencing a meteoric rise in popularity thanks in large part to technological advances in network connectivity, game engines, online streaming platforms, and novel fan experience engagements. Over 300 million fans have streamed more than 300 million hours on the Twitch platform alone, and global viewership is now expected to exceed 400 million....

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  The Robot Collective

  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.

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