Immerse yourself in the future of dance education as NYU Tandon School of Engineering leads a groundbreaking research project. With a $1.2 million grant from the National Science Foundation, they are revolutionizing the way we learn and experience dance through immersive three-dimensional (3D) video. This project aims to make Point-Cloud Video (PCV) technology easily streamable on standard Internet-connected devices, opening up a world of possibilities for education, business, healthcare, and entertainment. Join us as we delve into the exciting advancements and potential impact of this cutting-edge research.
Revolutionizing Dance Education with Point-Cloud Video
Discover the cutting-edge technology that is transforming dance education
Traditional dance education often relies on two-dimensional videos, limiting the depth and immersive experience for students. However, a groundbreaking research project led by NYU Tandon School of Engineering is changing the game with Point-Cloud Video (PCV) technology. This innovative 3D video format allows viewers to 'move' within an immersive video environment, providing a whole new level of engagement and understanding.
By making PCV technology suitable for streaming on standard Internet-connected devices, the NYU Tandon team aims to revolutionize dance education. Imagine being able to observe dancers from different angles and distances, enhancing your learning experience and allowing you to truly appreciate the intricacies of their movements.
The Power of Collaboration: NYU Tandon and Dance Organizations
Explore the collaboration that brings PCV technology to life in the world of dance
To test the streaming capabilities of PCV technology with human motion, the NYU Tandon team has partnered with the Mark Morris Dance Group and the Department of Dance at NYU Tisch School of the Arts. Together, they are pushing the boundaries of dance education and creative expression.
Through live and on-demand streaming of dancers' performances on a volumetric capture stage, students and enthusiasts alike can witness the magic of dance from various angles and distances. This collaboration not only enhances the learning experience but also showcases the potential and innovation that PCV technology brings to the world of dance.
Advancing PCV Technology: Strides in Compression, Streaming, and Delivery
Learn about the fundamental advancements driving PCV technology forward
The NYU Tandon research project aims to make fundamental strides in three key areas to advance PCV technology more broadly. The first area of focus is efficient PCV compression, aiming to reduce the bandwidth and computational power required for streaming PCVs.
The second area involves creating a progressive streaming framework, allowing for smoother and more seamless streaming experiences. This framework will enable users to access PCV content without the need for high bandwidth or computational resources.
The third area of focus is designing edge-based caching algorithms and delivery strategies to enhance PCV streaming efficiency and robustness. By optimizing the delivery process, PCV streaming systems can be deployed more widely across various domains, including education, business, healthcare, and entertainment.
NYU Tandon's Commitment to Emerging Technologies
Discover the school's dedication to advancing the field of emerging media
The NYU Tandon School of Engineering has a strong focus on building the next generation of wireless communications and media processing technologies. With extensive industry collaborations and partnerships, the school aims to bring research-grade emerging technology within reach of media, entertainment, and cultural institutions.
Through their work in wireless communications and media processing technologies, NYU Tandon is at the forefront of innovation. This commitment to advancing emerging technologies is what drives their groundbreaking research projects, such as the one revolutionizing dance education with immersive 3D video.
