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

  • 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:...

  • 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.

  • 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.

  • As the U.S. population ages, chronic diseases have become more prevalent. This has important implications for society in terms of healthcare costs and quality of life. One such chronic disease is diabetes, which is characterized by elevated levels of blood sugar.  Diabetes exhibits...

  • 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.

  • 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...

  • Creation and analysis of a repository of humor collected via crowdsourcing and social network integration.

  • 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...

  • The goal of this VIP course is to get students engaged in the design and deployment of low-cost air quality sensors on the Georgia Tech campus and around Atlanta, in the analysis of the resulting data streams, and in the development of new policies and practices to address poor air quality on campus and beyond. Throughout the VIP, we focus on building strong collaborative research skills,...

  • To study soft, biocompatible materials to design low-profile, unobtrusive wearable and implantable electronics for advancing human healthcare and wellness.

  • The built environment plays a fundamental role in hour daily life. It impacts our health, performance, stress levels, social relations, and even the contagion of COVID-19. This project explores expanding the Building Performance Analytics towards a dynamic spatiotemporal framework, studying the characteristics of spaces combined with human activities and organizational processes that...

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