For all the successes of modern weather forecasting, where hurricanes, blizzards, and even notoriously unpredictable tornadoes are routinely detected before they strike, reliably predicting one aspect of nature’s fury has eluded us: earthquakes. The development of plate tectonic theory in the middle of the 20th century and the construction of a worldwide network of seismic sensors gave geologists the tools to understand how earthquakes happened, and even provided the tantalizing possibility of an accurate predictor of a coming quake. Such efforts had only limited success, though, and enough false alarms that most efforts to predict earthquakes were abandoned by the late 1990s or so.
It may turn out that scientists were looking in the wrong place for a reliable predictor of coming earthquakes. Some geologists and geophysicists have become convinced that instead of watching the twitches and spasms of the earth, the state of the skies above might be more fruitful. And they’re using the propagation of radio waves from both space and the ground to prove their point that the ionosphere does some interesting things before and after an earthquake strikes.
Considering that it’s only existed for around a decade, the commercial desktop 3D printing market has seen an exceptional amount of turnover. But then, who could resist investing in an industry that just might change the world? It certainly didn’t hurt that the MakerBot Cupcake, arguably the first “mass market” desktop 3D printer, was released the same month that Kickstarter went live. We’ve long since lost count of the failed 3D printer companies that have popped up in the intervening years. This is an industry with only a handful of remaining veterans.
One of the few that have been with us since those heady early days is LulzBot, founded in 2011 by parent company Aleph Objects. Their fully open source workhorses are renowned for their robust design and reliability, though their high prices have largely kept them off the individual hacker’s bench. LulzBot was never interested in the race to the bottom that gave birth to the current generation of sub-$200 printers. Their hardware was always positioned as a competitor to the likes of Ultimaker and MakerBot, products where quality and support are paramount above all else.
NASA’s modified LulzBot
While LulzBot printers never made an impact on the entry-level market, there are institutions willing to purchase a highly dependable American-made 3D printer regardless of cost. The United States Marines used LulzBot printers to produce replacement Humvee door handles in the field, and some of the modifications that were necessary to meet their stringent requirements eventually resulted in updates to the consumer version of the printer. NASA used a highly modified LulzBot TAZ 4 to print PEI at temperatures as high as 500°C, producing parts far stronger than anything that had previously been made on a desktop 3D printer.
Yet despite such auspicious customers, LulzBot has fallen on difficult times. Consumers have made it abundantly clear they aren’t willing to pay more than $1,000 for a desktop printer, and competition above that price point is particularly fierce. Last month we started hearing rumblings in the Tip Line that the vast majority of LulzBot staff were slated to be let go, and we soon got confirmation and hard numbers from local media. Of the company’s 113 employees, only 22 would remain onboard to maintain day-to-day operations. Production on their flagship models would continue, albeit at a reduced pace, and all existing warranties would be honored. But the reduction in staff and limited cash flow meant that the development of future products, such as the LulzBot Bio tissue printer, would be put on hold.
LulzBot wasn’t quite dead, but it was hard to see this as anything but a step on the road to insolvency. A number of insiders we spoke to said they had heard a buyout was expected, and today we can report that the sale of Aleph Objects to Fargo Additive Manufacturing Equipment 3D (FAME 3D) is official. Production of the current LulzBot models is expected to continue, and some of the 91 laid off employees are likely to be hired back, but continuing Aleph Objects CEO Grant Flaharty says the details are still being finalized.
This new financial backing, provided by a venture capitalist, is certainly good news. But it would be naive to think this is the end of LulzBot’s troubles. The market has spoken, and unless the company is willing to introduce a vastly cheaper version of their printer to entice the entry-level customer as Prusa Research has recently done, it’s unclear how an infusion of cash will do anything but delay the inevitable.
For what it’s worth, we hope LulzBot finds some way to thrive. The ideal of building fully open source printers is something near and dear to the heart of Hackaday, but after the loss of PrintrBot, we’re all keenly aware of how difficult it is for small American companies to compete in the modern 3D printing market.
People who were subscribed to updates on the Alexa Connect Kit (ACK) would recently have received an email informing that this kit is now available for sale. Last time we covered the ACK was back in September of 2018, the ‘release’ moniker meant ‘preview’ and there wasn’t any hardware one could actually purchase.
Over a year a later it seems that we can now finally get our grubby mitts on this kit that should enable us to make any of our projects Alexa-enabled. What this basically seems to mean is that one can spend close to 200 US dollars on an Arduino Zero and an Arduino shield-mounted WM-BN-MT-52 module from USI (though not listed on their site, but similar to the WM-BN-BM-22?) that integrates a 192 MHz Cortex-M MCU and a WiFi/Bluetooth module, as summarized on the Amazon Developer page for the ACK.
The most notable of the home computer and console hardware from the 8-bit golden era didn’t get their impressive sound and graphics from off-the-shelf silicon, instead they relied on secretive custom chipsets to get the edge over their competitors. Unfortunately for vintage gaming aficionados, those chips are now long out of production and in many cases there’s little information to be had about their operation.
Which makes discovery of the schematics (PDF link) for the “Tia Maria” graphics chip found in the Atari 7800 console an unusual occurrence, and one which should be of special interest to the emulation community. They can be found alongside the rest of the Atari Museum’s 7800 information.
That such a useful document is available at all is due to a lucky find in a dumpster following the demise of Atari, when a treasure trove of documents was discarded. It seems that the existence of these schematics has been known within the Atari community for some time, and we expect before long this information will find its way into FPGA implementations of the 7800; especially since the system features nearly complete backwards compatibility with the massively successful Atari 2600.
As the world gets more connected and computerized, it is easy to have an unintended consequence pop up and bite you. Especially because, so much of the time, today, things just work. The days of fretting over how to connect two computers, or how to store reasonable amounts of data are gone. Most of us never have to sift through assembly language programs finding three extra bytes to add a feature. Some Russian scientists recently found out about unintended consequences the hard way.
In the United States, the Eagle was long on the endangered species list, but apparently they have a similar problem in Russia. Scientists put a tracker on some migrating eagles in southern Russia and Kazakhstan. A few decades ago, this would have been a big technical challenge, but now you just use cellular technology and have the tracker text its location, right?
We’ve seen a lot of cubic LED creations recently, but this one takes it a bit further. The BouLED is a work-in-progress icosahedric LED display, a globe-like sphere made of 20 flat triangular LED-lit faces. When combined with sensors inside the display, it will be able to stabilize the image. In other words: you can pick it up and rotate it, but the image will stay steady. It is created as part of their degree work by [Matthias Rabault], [Lucas Lebailly] and [Hichem Ghandri] who are students at the Télécom Paris school.
The Takata airbag case has become the largest product recall in history, caused over 20 deaths, and cost many billions of dollars. Replacement efforts are still ongoing, and sadly, the body count continues to rise. Against this backdrop, further recalls have been announced affecting another type of Takata airbag.
As these airbags were produced before the switch to ammonium nitrate, they have thus far escaped scrutiny as part of existing recalls. Two recent incidents of airbag misdeployments in Australia led to the recall, causing a death and a serious injury. BMW Australia have advised owners not to drive affected vehicles, and are offering loan or hire cars to affected vehicles. Given the age of the affected vehicles, the company is considering a buyback program in the event that suitable replacement parts cannot be made available.
This development is foreboding, as it suggests yet more cars, originally considered safe, are now at risk of injuring or killing occupants in the event of a crash. It’s not yet clear exactly which makes are effected by this recall, but expect the numbers of vehicles to continue to climb.
