Boeing’s Starliner Fails To Reach Space Station

December 20, 2019 by Tom Nardi 89 Comments

After a decade in development, the Boeing CST-100 “Starliner” lifted off from pad SLC-41 at the Cape Canaveral Air Force Station a little before dawn this morning on its first ever flight. Officially referred to as the Boeing Orbital Flight Test (Boe-OFT), this uncrewed mission was intended to verify the spacecraft’s ability to navigate in orbit and safely return to Earth. It was also planned to be a rehearsal of the autonomous rendezvous and docking procedures that will ultimately be used to deliver astronauts to the International Space Station; a capability NASA has lacked since the 2011 retirement of the Space Shuttle.

Unfortunately, some of those goals are now unobtainable. Due to a failure that occurred just 30 minutes into the flight, the CST-100 is now unable to reach the ISS. While the craft remains fully functional and in a stable orbit, Boeing and NASA have agreed that under the circumstances the planned eight day mission should be cut short. While there’s still some hope that the CST-100 will have the opportunity to demonstrate its orbital maneuverability during the now truncated flight, the primary focus has switched to the deorbit and landing procedures which have tentatively been moved up to the morning of December 22nd.

While official statements from all involved parties have remained predictably positive, the situation is a crushing blow to both Boeing and NASA. Just days after announcing that production of their troubled 737 MAX airliner would be suspended, the last thing that Boeing needed right now was another high-profile failure. For NASA, it’s yet another in a long line of setbacks that have made some question if private industry is really up to the task of ferrying humans to space. This isn’t the first time a CST-100 has faltered during a test, and back in August, a SpaceX Crew Dragon was obliterated while its advanced launch escape system was being evaluated.

We likely won’t have all the answers until the Starliner touches down at the White Sands Missile Range and Boeing engineers can get aboard, but ground controllers have already started piecing together an idea of what happened during those first critical moments of the flight. The big question now is, will NASA require Boeing to perform a second Orbital Flight Test before certifying the CST-100 to carry a human crew?

Let’s take a look at what happened during this morning’s launch.

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What’s An Exciton?

December 19, 2019 by Al Williams 15 Comments

If you read the scientific literature, you see the familiar subatomic particles you learned about in school: protons, neutrons, and electrons. If you are young enough, you see others you probably heard about, too, like quarks and gluons. But recently there has been a lot of buzz about excitons and even some transistor circuits demonstrated that use them. But what is an exciton?

It actually sounds like a subatomic particle, but it is a little more complicated than that. An exciton is a bound state of an electron and an electron hole and is technically a boson. You are probably familiar with the idea of an electron hole from semiconductor physics. Technically, it is a quasiparticle. The reason scientists are interested in the beast is that it can transport energy without transporting net electric charge. That is, the state itself is neutral, but also contains energy. Continue reading “What’s An Exciton?” →

This Machine Is Poised To Join The Fight Against Cancer

December 17, 2019 by Kristina Panos 40 Comments

Can you imagine a near future where your family doctor can effectively prick your finger and test you for a dozen or so types of cancer? Currently, cancer detection is a time-consuming and expensive process. Existing methods of screening for cancer usually involve taking a whole lot of blood and running tests that cost thousands of dollars. But Toshiba has created a cancer-detecting machine that sounds like something straight out of science fiction.

A researcher tests the Toray method. Image via Nikkei Asian Review

The machine is about the size of a small office copier, and it looks like one, too. But this small machine can do some powerful tricks. Toshiba claims that the machine can detect 13 types of cancer from a single drop of blood with 99% accuracy. What’s more impressive is that it can do this under two hours, as opposed to days or weeks depending on laboratory backlog. Most importantly, they are aiming to do this entire battery of tests for about $180. Ideally, this machine will do everything that current blood cancer detection equipment does, just better, faster, and with fewer resources.

Some of the cancers the machine can test for have been previously difficult to detect, like ovarian, pancreatic, and esophageal cancer. But this machine can screen for all three of these — great news for early detection of these ravaging cancers — as well as breast, prostate, gastric, colon, liver, biliary tract, bladder, lung, brain, and sarcoma. The only catch is that the machine can’t pinpoint which cancer exactly, it only knows if microRNA one or more of the 13 came up.

Image source: Toshiba Corporate Reserach Center

So, how does it work? Cancer cells secrete certain types of microRNA into the bloodstream that healthy cells don’t. The machine works by assessing the different types of microRNA that show up in the sample drop, and studying their concentrations. Their work builds on that of Toray Industries, who announced earlier this year that they had made a cancer-detection chip based on microRNA accumulation that is 95% accurate. Development of this chip follows on the heels of research that finds testing for microRNA in bloodwork has the potential to detect cancers in earlier stages, and in some cases like for bowel cancer, with a much less invasive testing procedure.

Toshiba, in partnership with the National Cancer Center Research Institute and Tokyo Medical University will conduct a trial of the machine next year. If the trial is successful, they hope to commercialize it soon after.

Modulated Pilot Lights Anchor AR To Real World

December 17, 2019 by Dan Maloney 26 Comments

We’re going to go out on a limb here and say that wherever you are now, a quick glance around will probably reveal at least one LED. They’re everywhere – we can spot a quick half dozen from our desk, mostly acting as pilot lights and room lighting. In those contexts, LEDs are pretty mundane. But what if a little more flash could be added to the LEDs of the world – literally?

That’s the idea behind LightAnchors, which bills itself as a “spatially-anchored augmented reality interface.” LightAnchors comes from work at [Chris Harrison]’s lab at Carnegie Mellon University which seeks new ways to interface with computers, and leverages the ubiquity of LED point sources and the high-speed cameras on today’s smartphones. LightAnchors are basically beacons of digitally encoded data that a smartphone can sense and decode. The target LED is modulated using amplitude-shift keying and each packet contains a data payload and parity bits along with a pre- and post-amble sequence. Software on the phone uses the camera to isolate the point source, track it, and pull the data out of it, which is used to create an overlay on the scene. The video below shows a number of applications, ranging from displaying guest login credentials through the pilot lights on a router to modulating the headlights of a rideshare vehicle so the next fare can find the right car.

An academic paper (PDF link) goes into greater depth on the protocol, and demo Arduino code for creating LightAnchors is thoughtfully provided. It strikes us that the two main hurdles to adoption of LightAnchors would be convincing device manufacturers to support them, and advertising the fact that what looks like a pilot light might actually be something more, but the idea sure beats fixed markers for AR tracking.

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.NET To FPGA With Hastlayer

December 15, 2019 by Al Williams 18 Comments

There are lots of ways to use FPGAs. One way is to convert compute-bound software into hardware. This can increase speed and — in some cases — reduce power consumption. Typically, you’ll do this by writing in a subset of C, but Hastlayer can convert .NET assemblies into FPGA configurations with some limitations.

The Hungarian company behind Hastlayer claims they’ll eventually have to charge money for something but for now, the tool is free and they are promising to always have some free option. The interesting thing is that the .NET assemblies are essentially object code so you aren’t compiling source but rather an intermediate language that you can generate with many different language tools.

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This Week In Security: VPNs, Patch Tuesday, And Plundervault

December 13, 2019 by Jonathan Bennett 11 Comments

An issue in Unix virtual private networks was disclosed recently, where an attacker could potentially hijack a TCP stream, even though that stream is inside the VPN. This attack affects OpenVPN, Wireguard, and even IPSec VPNs. How was this possible? Unix systems support all manner of different network scenarios, and oftentimes a misconfiguration can lead to problems. Here, packets sent to the VPNs IP address are processed and responded to, even though they are coming in over a different interface.

The attack initially sounds implausible, as an attacker has to know the Virtual IP address of the VPN client, the remote IP address of an active TCP connection, and the sequence and ACK numbers of that connection. That’s a lot of information, but an attacker can figure it out one piece at a time, making it a plausible attack. Continue reading “This Week In Security: VPNs, Patch Tuesday, And Plundervault” →

Code The Classics Is Coming

December 11, 2019 by Al Williams 6 Comments

We feel sorry for youth of today. If you spend a few hours playing a modern video game and decide you want to write your own, there’s a big job ahead of you. Games now are as much performances as programs, with cinematic 3D renderings, polyphonic sound and music tracks, and detailed storylines. That wasn’t true 40 years ago, when you could play Pong and then think about writing your own version. The Raspberry Pi people must agree as they are taking preorders for a book called “Code the Classics.” In it, they interview designers of several classic arcade games and then show Python versions of the games you can run — and hack — yourself. You can see their video about the title, below.

The code is from Raspberry Pi founder [Eben Upton] and as you might expect the games aren’t necessarily faithful reproductions but inspired by the old arcade standards.

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