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.

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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 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...

  • Using artificial intelligence (AI)-based approaches (especially manifold learning) for understanding the delicate rules of nature and utilizing them for forming innovative software- and hardware-based tools for addressing the major challenges in a wide range of disciplines. ...

  • 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...

  • For students to learn the theory and gain the skills necessary to fabricate next-generation batteries for EVs, spacecraft, and Smart Cities infrastructure.

  • 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...

  • 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, a collaboration between Mark Leibert (LMC) and Betty Whitaker (GTRI), 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...

  • 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.

  • Model crack propagation, crack networks, particle crushing, and healing in salt rock; predict soil and rock THCM behavior during heat and fluid injection and extraction; design new geomaterials to optimize the fuel cycle; and recommend strategies for resource and waste management.

  • To create autonomous microrobots that can traverse biological barriers within the body by mimicking microorganisms.

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

  • To stimulate the development of advanced vehicle technologies that reduce the overall impact of transportation on the environment

  • Goals: Use engineering design and development skills for solving social problems and meeting social needs.

  • 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.

  • We are currently developing a drone delivery system that could be used to deliver small packages on Georgia Tech campus. Assembly of the drone and implementation of package pickup mechanism are nearly complete. Flight testing will begin soon. Upcoming tasks include development of consumer delivery app, construction of delivery station prototype, planning and performance of flight testing,...

  • Computing is changing - energy constraints and performance bottlenecks create new opportunities for unique and novel hardware designs. However, these new systems require new approaches for application development, management, and visualization. Our main goal for this project is to help interface new “post-Moore” hardware like neuromorphic field-programmable...

  • To design, build, defend, and race an open-wheel formula-style vehicle in the annual Formula SAE competition.

  • To design, build, defend, and race a high-performance off-road vehicle in the annual SAE BAJA competition.

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