Lifeboat Foundation

VideoDisclaimer: The author of this article, Jason Belzer, is a member of rLoop and serves as the non-profit’s legal counsel. When billionaire entrepreneur Elon Musk proposed the Hyperloop — a futuristic transportation system capable of propelling passengers to supersonic speeds — back in 2013, it is unlikely that even he could have imagined that just a few years later his vision would be tantalizing close to reality. Yet ironically, Musk, who has helped build companies like Tesla Motors and SpaceX that are on the leading edge of technological innovation, will not receive the credit if the Hyperloop indeed becomes a reality. Instead, that honor will be bestowed upon on a small group of teams now working feverishly to construct a prototype that will be tested this summer at SpaceX headquarters in California.

Imagine tackling one of the most complex engineering projects in the history of the human race, requiring countless hours of collaboration and experimentation by some of the world’s most talented engineers, and never actually meeting the people you are working with in a physical setting. You might think it’s impossible, or you might be a member of rLoop — the only non student team to reach the final stage of the SpaceX Hyperloop Pod Competition.

Continue reading “Crowdsourcing The Hyperloop: How A Group Of Redditors Are Taking On Elon Musk’s Challenge” »

This looks very promising.

The human body is designed pretty well: Our muscles are able to switch between strength and dexterity, limbs stiffening when we do an energy-fueled task like lifting a bowling ball and softening when we do something delicate like painting with a brush. This ability is very rarely replicated in engineering systems, namely because it’s expensive, but also because it’s been damn hard to clone.

Continue reading “New Metal Can Become Soft and Stiff Just Like Human Muscles” »

Audi RSQ – a fantastic car. Certainly a design icon, but first of all, a movie star. The Audi RSQ was the first car we developed for a motion picture – with great success. This sporty coupé for the 2004 Hollywood science-fiction “I, Robot” was a visionary concept of what a car might look like in 2035. Four designers, ten model engineers, ten weeks, all creative liberties – that’s what it took to create this Audi of the future.

What was really unique and visionary about the Audi RSQ: It was the first Audi demonstrating piloted driving capabilities. Here is one of my favorite moments in the movie – a moment that tells you a lot about piloted driving:

Continue reading “Audi RSQ | Sporty Coupé for the 2004 ‘I, Robot’ | CES Asia 2015” »

NASA has commissioned engineers to design a new kind of jet that can travel faster than the speed of sound, but without the telltale sonic boom. Instead, the aircraft will produce a soft thump as it breaks the sound barrier, which the researchers are adorably calling a “supersonic heartbeat”.

It’s hoped that the new jet could eventually fill the commercial gap left by the retirement of the Concorde — which travelled at twice the speed of sound (Mach 2) and could get passengers from London to New York in just 3.5 hours — but without all the noise complaints.

From an engineering point of view, we’ve long had the ability to travel at supersonic speeds — which is generally anything over 1,234 km/h — but when we do, it triggers a sound explosion that can travel thousands of metres in a jet’s wake, rattling houses and cars as it goes. As you can imagine, not exactly ideal for heavily trafficked flight paths.

Continue reading “NASA’s designing a passenger jet that’ll break the sound barrier WITHOUT the boom” »

UK is getting serious about Quantum especially in their universities; all £204 million worth.

Universities and Science minister Jo Johnson has announced two major investments in science and engineering research totaling £204 million.

Forty UK universities will share in £167 million that will support doctoral training over a two year period, while £37 million will be put into developing the graduate skills, specialist equipment and facilities that will put UK Quantum Technologies research at the forefront of the field.

Continue reading “Minister announces £204 million investment in doctoral training and Quantum Technologies science” »

The knock on superheroes is that they’re unrealistic. This isn’t fair. Many superheroes have powers that we are close to or will be capable of engineering for ourselves. What’s unrealistic is the way those powers are doled out. Radioactive spiders aren’t going to make anyone strong any time soon.

Throw away those old origin stories and replace them with new scientific narratives and you’ve got something closer to the truth, which is this: We’re all going to have superpowers. Here’s the order in which we’re going to get them.

Superhuman Marksmanship

Continue reading “In the Future You’ll Be a Superhero and Here’s How You’ll Get Your Superpowers” »

K-Glass, smart glasses reinforced with augmented reality (AR) that were first developed by the Korea Advanced Institute of Science and Technology (KAIST) in 2014, with the second version released in 2015, is back with an even stronger model. The latest version, which KAIST researchers are calling K-Glass 3, allows users to text a message or type in key words for Internet surfing by offering a virtual keyboard for text and even one for a piano.

Currently, most wearable head-mounted displays (HMDs) suffer from a lack of rich user interfaces, short battery lives, and heavy weight. Some HMDs, such as Google Glass, use a touch panel and voice commands as an interface, but they are considered merely an extension of smartphones and are not optimized for wearable smart glasses. Recently, gaze recognition was proposed for HMDs including K-Glass 2, but gaze is insufficient to realize a natural user interface (UI) and experience (UX), such as user’s gesture recognition, due to its limited interactivity and lengthy gaze-calibration time, which can be up to several minutes.

As a solution, Professor Hoi-Jun Yoo and his team from the Electrical Engineering Department recently developed K-Glass 3 with a low-power natural UI and UX processor to enable convenient typing and screen pointing on HMDs with just bare hands. This processor is composed of a pre-processing core to implement stereo vision, seven deep-learning cores to accelerate real-time scene recognition within 33 milliseconds, and one rendering engine for the display.

We’ve talked a lot about sending people to Mars, but what about Earth’s sister? NASA engineering are planning to send HAVOC airships to Venus.

Just as the single-crystal silicon wafer forever changed the nature of electronics 60 years ago, a group of Cornell researchers is hoping its work with quantum dot solids – crystals made out of crystals – can help usher in a new era in electronics.

The multidisciplinary team, led by Tobias Hanrath, associate professor in the Robert Frederick Smith School of Chemical and Biomolecular Engineering, and graduate student Kevin Whitham, has fashioned two-dimensional superstructures out of single-crystal building blocks. Through directed assembly and attachment processes, the lead selenide quantum dots are synthesized into larger crystals, then fused together to form atomically coherent square superlattices.

Continue reading “Quantum dot solids: This generation’s silicon wafer?” »