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.
Enable the creation of augmented-reality applications and experiences using a wide range of delivery platforms and AR technologies. Current projects use Argon, an augmented reality software suite developed at Georgia Tech that is both a Javascript/HTML5 framework and a set of browsers and tools.
GOALS: To collect and analyze big data about bee-flower interactions on the Georgia Tech campus and beyond to inform property owners and policy makers about how land use can support pollinator health.
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.
Goals: To build a suite of mobile applications for iOS and Android devices that will be used to administer and collect data from individuals who have suffered brain traumas with lingering effects (e.g., stroke leading to Aphasia, Alzheimer’s, etc.).
GOALS: To examine the problem of concussion from a multidisciplinary view that includes neuroscience, clinical assessment, sports engineering, health informatics, and societal issues.
To develop course materials and software for teaching hands-on, inquiry-based introductory physics in a Massive Online Open Course (MOOC). We will use a novel combination of open-source software, calibrated peer review, and interactive online lectures to
EnerCage system is a new scientific instrument that creates a smart wirelessly powered experimental arena for a wide variety of long term physiology, neuroscience, and genetic experiments on small freely behaving animal subjects, such as rats and mice.
Develop small, portable, and inexpensive experimental platforms and simple projects for teaching students fundamental engineering concepts and design principles.
To enhance spectrum utilization, enable improved use of smart devices (smartphones, tablets), and create intelligent mechanisms for debugging, monitoring, policing and enhancing all types of wireless communications through the use of software defined radi
Analyze the performance and energy efficiency of existing transportation scheduling algorithms, and then design and implement better ones, for the Tech Trolley and other systems at and around Georgia Tech.
Design, test, and use systems to enhance student learning in Tech courses by applying techniques that include video and data mining, artificial intelligence, machine learning, and human-computer interfaces.
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).
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.
Design and deploy smartphone apps/games, websites, wireless networks, and sensor networks to gather and deliver game and venue information to football fans in the stadium on gameday.
To develop human guided robotic technologies that enhance/facilitate the work at construction sites. The goal is to design semi-autonomous robots that construction workers could control to execute the initial construction phases of a building, such as digging (earth-forming) and foundation construction.
