g i r f t y

Wide-Area Visualization Environment (WAVE) system at UC Merced Awarded the 2017 Innovations in Networking Award for Research Applications

· University of California, RENS & NRENS
Tags: prpdigital dividecenicaward

In recognition of its power to enable members of the UC Merced community to conduct research, experience the world, and deepen their learning through an immersive environment, the Wide-Area Visualization Environment (WAVE) system at UC Merced has been selected by CENIC as the recipient of the 2017 Innovations in Networking Award for Research Applications. Individuals critical to the development of WAVE and named in the award include Greg Dawe, Principal Development Engineer, CalIT2, UCSD; Rachel Hadley, Senior Administrative Analyst, Design and Construction, UC Merced; Nicola Lercari, PhD, Assistant Professor of World Heritage in the School of Social Sciences, Humanities and Arts, UC Merced; and Jeffrey Weekley, Director of Cyberinfrastructure and Research Computing, Office of Information Technology, UC Merced.

The Wide-Area Visualization Environment (WAVE) at UC Merced is one of many projects enabled by the Pacific Research Platform. This massive display, consisting of twenty 4k resolution screens, provides student and faculty researchers at UC Merced to work with the cutting-edge of virtual reality hardware. WAVE is an exciting example of a tool that can reduce the gap between data collection and interpretation and the dissemination of that data to researchers and the public. 

“The WAVE at UC Merced is the highest resolution walk-in virtual environment on earth, using twenty 4K 3D screens. It is better than 20/20 visual acuity and matches the display to human eyesight, making it often look better than being there. It complements the original WAVE at UC San Diego, and the four library CAVEkiosks at UC Berkeley, UC Los Angeles, UC Merced, and UC San Diego, all tied together for daily telepresence over CENIC and the Pacific Research Platform,” said Tom DeFanti, Research Scientist at Calit2, University of California San Diego. 

The WAVE grows out of a multi-school collaboration and aspires to draw wide participation across disciplines not historically served by this kind of infrastructure, especially humanities disciplines. This virtual reality system also provides opportunities for community engagement and is currently being used by teachers and students in the Mariposa County Unified School District.

“We are delighted that the WAVE is part of the Pacific Research Platform (PRP), which connects the UC campuses with other research universities to create a high-speed network for collaborative science and scholarship. It is the kind of application that all partners in CENIC and the PRP were hoping would be developed,” said Louis Fox, President & CEO of CENIC.
 
Innovations in Networking Awards are presented each year by CENIC to highlight exemplary innovations that leverage ultra-high bandwidth networking, particularly where those innovations have the potential to transform the ways in which instruction and research are conducted or where they further the deployment of broadband in underserved areas.

[**About the Pacific Research Platform •  prp.ucsd.edu**](http://prp.ucsd.edu)
From biomedical sciences to particle physics, today nearly all research and data analysis involves remote collaboration. In order to work effectively and efficiently on multi-institutional projects, researchers depend heavily on high-speed access to large datasets and computing resources. To meet the needs of researchers in California and beyond, the National Science Foundation (NSF) has awarded a five-year, $5 million grant to fund the Pacific Research Platform (PRP). The PRP integrates Science DMZs, an architecture developed by the U.S. Department of Energy’s Energy Sciences Network (ESnet), into a high-capacity regional “freeway system.” This system makes it possible for large amounts of scientific data to be moved between scientists’ labs and their collaborators’ sites, supercomputer centers or data repositories, without performance degradation.