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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 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...

  • 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.

  • 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). ...

  • 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.

  • To discover how evolution acts on materials properties in microbial systems. Use experiments,  simulations, and analytical theory to elucidate how biological fitness and function emerge from physical principles.

  • 2022 French Arts and Media VIP focuses on the French novel and musical Les Miserables by Victor Hugo. ...

  • At Georgia Tech, we live in an incubator for problem solving, scientific inquiry, and technological innovation, but the public at large is surprisingly ignorant about the STEM disciplines. We will build the Georgia Tech Mobile STEM Laboratory - a sustainable and continually growing infrastructure we’ll use to measurably impact this ignorance regionally and nationally. Ultimately, we’ll have...

  • The first goal of the project is to curate the large volumes of data collected by higher education institutions. The team will then develop dashboards and other tools that enable users and decision makers to analyze, understand, and act on...

  • To improve health outcomes, nutrition, and general living conditions in developing nations and resource-limited environments through a variety of key technologies. These solutions include: sensors for sanitation in challenging environments, improving access to...

  • With an approval from the Georgia Tech IRB, we are in the process of building and transcribing a corpus of recorded audio interviews with Georgia Tech students. (So far, we have recorded and transcribed 25 interviews, but we aim for over 100 to get enough data for each of the different demographic and political affiliations that interest us.)  We use phonetic software to measure the...

  • 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...

  • 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...

  • 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. ...

  • 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...

  • 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....

  • 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.

  • This concept builds on a broader notion of psychological resilience or positive adaptation to adverse situations.