Teams

Results per page
Filter
  • 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 ACT (Autonomous and Connected Transportation) Lab is focused on understanding the interactions between drivers/travelers, emerging vehicular technologies, and novel infrastructure designs. To this aim, a high-fidelity full-cab driving simulator is employed for data collection. Based on the data collected in the simulated environment, as well as data from other sources, the research team ...

  • 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...

  • To develop an automotive LiDAR system in support of the emerging technical area of vehicle autonomy and increased safety.

  • The Bits of Good VIP team is closely linked to the Bits of Good student organization. In order to participate in the VIP, you will need to be a member of the BoG student organization, as this is where teams, roles, and training will take place. As a member of VIP, you will have some additional responsibilities to support the assignment of individual grades for the VIP. These may include:...

  • This VIP takes as its main focus Georgia Tech’s new Living Building – the Kendeda Building for Innovative Sustainable Design – and its efforts to advance social equity as a key part of building and operating a sustainable building. Within the Living Building Challenge (LBC), we focus on improving - and re-defining - the

  • The project will bring together students from diverse disciplinary backgrounds to work on a framework for community achiving projects. Depending on interests and aptitudes, students will be asked to develop relationships with local communities, design archives that prioritize the wants and needs of these communities, design and implement technical solutions that help communities discover and...

  • The objective of this program is to develop tools and methods for designing and securely using configurable computing in embedded systems.

  • Advance the fundamental science in the assessment of natural and man-made hazards (e.g. earthquakes, landslides, liquefaction, sea-level rise, hazards in tailing dams, heap leach pads, coal ash facilities) through novel developments in performance-based and risk engineering. ...

  • There is a need for the development of new techniques to aide in the conservation of wildlife to prevent extinction and the decrease of biodiversity. Examples of such techniques include the use of drones to mitigate rhino poaching or low-cost equipment that can deter elephants...

  • 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...

  • 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 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...

  • 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...