A new product from PocketCake, called VRSCA (for Virtual Reality Simulation Converter Assembly), is three times more powerful than the average high-performance computer and allows for up to eight people to experience a virtual reality simulation at the same time.
VR enables users to experience immersive, computer-generated 3D environments through the use of specialized headsets and state of the art modeling software. Since the price of VR headsets and software has dropped significantly in recent years, developers are limited only by their imaginations and processing efficiency.
PocketCake is releasing a new product, the VRSCA (for Virtual Reality Simulation Converter Assembly), to remove the limits on processing power and setting developers' imaginations free.
Most computers are not equipped to handle the massive volume of data contained in a typical VR simulation file. A high performance laptop computer can process the data necessary to simulate a 25,000 square-foot building at a frequency of 25 frames per second.
By contrast, VRSCA processes the same model at 80 frames per second. A 100,000-square-foot model with defined interior and dynamic lighting would crash the average high-powered computer. VRSCA, on the other hand, runs the simulation with ease: no lag; no overheating.
VRSCA allows for up to eight people, wearing headsets such as the Oculus Rift, to experience a virtual reality simulation in the same room at the same time.
Virtual reality simulations for multiple viewers
VRSCA is available in four models: a single viewer, a dual viewer, a 4-person viewer and an 8-person viewer. The single, dual and 4-person viewers are portable. Each VRSCA is capable of hosting as many as 58 viewers remotely. This means simulations can be viewed simultaneously by 58 viewers in different locations.
VRSCA can be equipped with options such as a controller that allows for easy navigation through a simulation and the ability to change spawn points and control lighting.
Stanford graduate and hardware engineering manager for QuEST Rail, Matt Rogge PhD, EE is overseeing design and production of VRSCA. Dr. Rogge's knowledge and experience in railroad control electronics and digital systems provides a key element to the VRSCA project's success.
For more information, visit: www.pocketcake.com/vr.html.
Related Stories
| Feb 1, 2012
New ways to work with wood
New products like cross-laminated timber are spurring interest in wood as a structural material.
| Feb 1, 2012
Blackney Hayes designs school for students with learning differences
The 63,500 sf building allows AIM to consolidate its previous two locations under one roof, with room to expand in the future.
| Feb 1, 2012
Two new research buildings dedicated at the University of South Carolina
The two buildings add 208,000 square feet of collaborative research space to the campus.
| Feb 1, 2012
List of Top 10 States for LEED Green Buildings released?
USGBC releases list of top U.S. states for LEED-certified projects in 2011.
| Feb 1, 2012
ULI and Greenprint Foundation create ULI Greenprint Center for Building Performance
Member-to-member information exchange measures energy use, carbon footprint of commercial portfolios.
| Feb 1, 2012
AEC mergers and acquisitions up in 2011, expected to surge in 2012
Morrissey Goodale tracked 171 domestic M&A deals, representing a 12.5% increase over 2010 and a return to levels not seen since 2007.
| Jan 31, 2012
AIA CONTINUING EDUCATION: Reroofing primer, in-depth advice from the experts
Earn 1.0 AIA/CES learning units by studying this article and successfully completing the online exam.
| Jan 31, 2012
28th Annual Reconstruction Awards: Modern day reconstruction plays out
A savvy Building Team reconstructs a Boston landmark into a multiuse masterpiece for Suffolk University.
| Jan 31, 2012
Chapman Construction/Design: ‘Sustainability is part of everything we do’
Chapman Construction/Design builds a working culture around sustainability—for its clients, and for its employees.
| Jan 31, 2012
Fusion Facilities: 8 reasons to consolidate multiple functions under one roof
‘Fusing’ multiple functions into a single building can make it greater than the sum of its parts. The first in a series on the design and construction of university facilities.
