Introduction to Mobile Augmented Reality
Mobile augmented reality (MAR) apps are changing the best way we interact with the world. These apps use the cameras on our tablets and smartphones to create an interactive experience that blends the digital and real worlds. With the assistance of artificial intelligence, MAR apps can perform complex tasks, making them highly engaging and useful. However, there’s a major challenge: the limited resources of mobile devices can result in short battery life and poor user experience, which hinders the expansion of this technology.
The Importance of Energy Efficiency
To make sure the success of MAR, it’s crucial to develop high energy efficiency in these apps. This not only involves conducting novel research but in addition educating the long run workforce on the very best practices for energy-efficient mobile software design. Marco Brocanelli, an assistant professor of computer science at Wayne State University, emphasizes this need. He believes that by specializing in energy efficiency, we will unlock the total potential of MAR and make it more accessible and enjoyable for users.
A Project to Enhance Energy Efficiency
Brocanelli is working on a project titled "Enhancing Energy Efficiency in Mobile Augmented Reality Apps," which has been awarded a National Science Foundation Faculty Early Career Development (CAREER) award. This prestigious award recognizes up-and-coming researchers and provides them with the support they should pursue revolutionary projects. The grant, price $576,099, might be used over five years to develop an MAR framework that improves energy efficiency by utilizing scalable algorithms on edge servers and mobile devices.
The Potential Impact of the Project
The proposed research has the potential to significantly speed up the expansion of the MAR market, which is anticipated to succeed in $185 billion by 2030. By making MAR apps more energy-efficient, this project may also help increase the adoption of augmented reality in various sectors, including healthcare, retail, tourism, and more. Brocanelli believes that the project is not going to only enhance the entertainment value of MAR but in addition contribute to its practical applications in numerous industries.
Integrating Research and Education
The NSF CAREER award emphasizes the mixing of research and education, aiming to construct a robust foundation for leadership. Brocanelli’s project will stimulate the creation of recent graduate-level courses, research opportunities for undergraduate students, and summer camps for K-12 students. The results of the project might be published in top-tier conferences and journals, and the source code of the proposed algorithms might be made available as open source, promoting collaboration and further innovation.
About Marco Brocanelli
Brocanelli joined Wayne State University in 2018, bringing with him a wealth of experience and knowledge. He received his Ph.D. in electrical and computer engineering from Ohio State University and holds a B.S. and M.S. on top of things engineering from the University of Rome Tor Vergata in Italy. His background and expertise make him a great candidate to guide this project and contribute to the advancement of MAR technology.
Conclusion
In conclusion, the project "Enhancing Energy Efficiency in Mobile Augmented Reality Apps" has the potential to revolutionize the MAR industry by addressing the critical issue of energy efficiency. With the support of the NSF CAREER award, Brocanelli and his team can develop revolutionary solutions that make MAR apps more accessible, enjoyable, and practical for users. As the MAR market continues to grow, projects like this may play a major role in shaping the long run of augmented reality and its applications in various sectors. By specializing in energy efficiency and integrating research and education, we will unlock the total potential of MAR and explore recent possibilities for this exciting technology.
