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  • 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...

  • 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...

  • Robotics has the potential to revolutionize inspection and harvesting tasks on commodity farms (corn, soybeans, and wheat) and high-value specialty farms (fruits and nuts). This is true from the standpoints of labor, economics, early disease detection, and crop assessment. Specialty farms stand to benefit the most because the tending and harvesting of their crops still require significant...

  • 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...

  • The reliability of electric power grids is challenged by the rapidly increasing frequency and severity of natural disasters. To better design and operate power grids during natural disasters and build public acceptance for the disruptive actions needed to mitigate their impacts, this project will develop and publicize video game style simulations that put the player in the role of a power...

  • 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 address the unique clinical needs of resource-limited environments through the development of equipment and apps that support (and can be maintained by) local hospitals. A key design constraint will be the use of equipment and technologies that can be maintained and repaired by the hospitals that use them.This includes using locally sourced equipment and developing apps that can run on...

  • This VIP employs the sidekick model of global social entrepreneurship to leverage market forces to accomplish 3 critical objectives.  The first is to identify superhero local leaders in the global south who have a long track record of success in transforming their communities with social innovation.  The second is to inspire the world about these largely unknown change agents and...

  • Develop, evaluate and deploy health analytics applications that can help doctors and patients to make better and healthy decisions.

  • The project is an ongoing project focused on designing a hip hop-based innovation archive of educational resources and online courses that is accessed/experienced in three ways: 1) a subscription-based portal of downloadable materials, online courses, and webinars that offer hip hop-based educational resources for use in secondary and post...

  • 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...

  • 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 radio techniques, machine learning, and a cognitive systems architecture.

  • To develop and implement new approaches with cognitive reasoning modules and advanced data and knowledge visualization to enhance the experience and usefulness of crowdsourced problem-solving.

  • 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.

  • Internet of things (IOT) has the potential to revolutionize the healthcare industry. Thus far, most IOT applications focus on improving monitoring and physiological sensing of healthcare and patient care; however, the next generation of healthcare technologies will focus on multiplexed points of care testing, diagnostics, and treatment. The goal of this course is to engage students to explore...

  • 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 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).

  • 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 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...

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