universityoftexasataustin
Latest
Uber partners with UT Austin and US Army Research Labs on flying cabs
Uber has added the University of Texas at Austin to its list of partners as it tries to turn its flying taxis into a reality. The company is also working with the US Army Research Laboratory on a project to develop rotor technology for the vehicles. Uber wants to start testing UberAIR cabs by 2020 and have commercial service in its launch cities of Dallas-Fort Worth, Los Angeles and Dubai by 2023.
Genetic 'glue' helps make 3D-printed organs
No, you're not looking at a dessert gone horribly wrong -- that might just be the future of synthetic organ transplants. Scientists at the University of Texas at Austin have developed a genetic "glue" that forms gels useful for 3D printing organic tissues. The key is using custom-designed, complementary DNA strands that bond just the way you'd like them. This flexibility would let hospitals and labs create organs that grow in a specific way, and take on specific structures. In short, it'd be relatively easy to print the exact organ you need, and even customize it for the recipient if necessary.
NVIDIA unveils Tesla K40 accelerator, teams with IBM on GPU-based supercomputing
NVIDIA's Tesla GPUs are already mainstays in supercomputers that need specialized processing power, and they're becoming even more important now that the company is launching its first Tesla built for large-scale projects. The new K40 accelerator only has 192 more processing cores than its K20x ancestor (2,880, like the GeForce GTX 780 Ti), but it crunches analytics and science numbers up to 40 percent faster. A jump to 12GB of RAM, meanwhile, helps it handle data sets that are twice as big as before. The K40 is already available in servers from NVIDIA's partners, and the University of Texas at Austin plans to use it in Maverick, a remote visualization supercomputer that should be up and running by January. As part of the K40 rollout, NVIDIA has also revealed a partnership with IBM that should bring GPU-boosted supercomputing to enterprise-grade data centers. The two plan on bringing Tesla GPU support to IBM's Power8-based servers, including both apps and development tools. It's not clear when the deal will bear fruit, but don't be surprised if it turbocharges a corporate mainframe near you.
University of Texas gaming academy to be led by execs behind Deus Ex, Warcraft
Whatever value you see in game development schools, it's clear that few of them tout gaming industry veterans who can lead by example. The University of Texas' upcoming Denius-Sams Gaming Academy could solve this discrepancy by tapping two executives whose work many of us know by heart. Both legendary designer Warren Spector and Blizzard COO Paul Sams will guide (and sometimes teach) year-long post-baccalaureate certificate programs at the Academy that focus on creative leadership and game company management -- yes, that means instruction from gurus behind the Deus Ex and Warcraft franchises, among other classics. The programs will also emphasize that all-important ability to finish a game, rather than mastering skills in isolation. The first students join the Academy's ranks in fall 2014, although they'll need to be exceptional to stand a chance of getting in -- just 20 spots will be open in the first year. [Image credits: Nightscream, Wikipedia; Rob Fahey, Flickr]
Hume: the bipedal 'Parkour' robot (video)
A future threatened by wild robotic rottweilers with no humanoid dog-walkers to keep them in check? That must not happen. Fortunately, we'll have a fleet-footed droid named "Hume" to keep us safe: he's the work of engineers at Meka Robotics and the University of Texas at Austin, who want to be the first to build a bipedal robot with Parkour skills, aka rough terrain free-running or "Human-Centered Hyper-Agility". Sure, they still have some way to go, but watch the video after the break, then imagine it without the wobbly coat stand, and then re-imagine it from the POV of an angry pup.
Project Blox is like any other toy that comes with 300 pages of documentation (video)
If your kid (or inner kid) turns their nose up at those delectable Sifteo Cubes, it'll obviously be because they want open source smart building blocks instead. So oblige the budding geek with Project Blox, courtesy of electrical engineering students at the University of Texas at Austin. Every toddler-friendly block has its own LCD and touch panels, plus motion sensors and wireless comms that let it interact with other blocks in weird and wonderful ways -- like the maze game you'll see in the video after the break. Project Blox is still very much a project, unfortunately, but its creators have put all their code and schematics online so baby Einstein can have a go at building his own.
Gaming gets immersive thanks to union of pico projector and eye tracking camera (video)
Although in the earliest stages of development, this virtual reality gaming rig already looks pretty intriguing. Engineered by clever kids at the University of Texas at Austin, it hot-wires an eye tracking camera to a motorised pico projector with the result that the player literally can't take their eyes off the screen. Wherever they look, that is where their view of the gaming world is projected. The rig makes most sense in a first-person shooter, although the students have also tried it in a flight simulator where the player uses their head to roll and pitch the aircraft. Yes, it looks rather similar to the Microvision PicoP laser projection gun we wielded at CES, but there's a key difference: the player does not need to hold anything or have anything attached to their body. This unencumbered Kinect-esque approach could potentially allow a greater sense of freedom -- except that, for it to work, the player is forced to sit directly in front of the eye tracker. Find a way to fix this, dear Longhorns, and you could be onto something. Video after the break.
Texas researchers aim to solve wireless bandwidth bottleneck, hopefully before SXSW 2012
As anyone attempting to stream high-quality video on any major metropolitan subway has likely found, doing so often requires the patience of Job and a willingness to spend more time 'buffering' and less time 'enjoying.' It's a problem that's particularly evident at crowded events like the never-ending South by Southwest, and it's probably no coincidence that a team from The University of Texas at Austin are now spending their waking hours attempting to solve the looming wireless bandwidth crisis. Five faculty in the school's Electrical and Computer Engineering Department have been selected to receive a $900,000 gift from Intel and Cisco to "develop innovative and novel algorithms that could improve the wireless networks ability to store, stream and share mobile videos more efficiently." Their work is part of a five university tie-up, seeking to solve quandaries such as tower interference, selective compression (read: pixelating the areas you don't pay attention to in order to squeeze more out of the existing infrastructure), cell tower intelligence and data output redundancy. Hard to say if any of the major carriers will be implementing proposed solutions in the near future, but we can think of at least one company that's crossing its fingers in hopes of that very outcome.
Microwave process could cut cost of lithium-ion batteries
While there's plenty of folks out there focused on making lithium-ion batteries safer and longer-lasting, there's also thankfully some dedicated to making 'em cheaper, which is especially welcome when we're talking about the expensive batteries powering cars. Among those in the latter camp is University of Texas at Austin professor Arumugam Manthiram, who has devised a method of using microwaves to heat a concoction of commercially available chemicals, which ultimately results in the Rorschach test of rod-shaped particles of lithium iron phosphate pictured above. While the use of lithium iron phosphate instead of the more commonly used lithium cobalt oxide apparently cuts back on the total amount of energy the batteries can store, it is apparently particularly well-suited to delivering large bursts of power, which should make the batteries ideal for use in hybrid vehicles. What's more, while the actual cost of the materials may not be much cheaper than other solutions, the sheer speed at which Manthiram's process works could allow for higher production rates from the same amount of equipment, which should result in cheaper batteries by the time they roll off the assembly line.[Via Daily Tech]
