By harnessing the power of light and oxygen, Carbon3D has created a new 3D printing process that is between 25-100 times faster than traditional 3D printing.Unlike traditional 3D printers which print the object layer by layer, Carbon3d’s Continuous Liquid Interface Production technology (CLIP) allows for the printing of a true 3D object.
Just like Michelangelo, who is famous for saying, “The best artist has that thought alone which is contained within the marble shell; the sculptor's hand can only break the spell to free the figures slumbering in the stone.” The CLIP technology works by harnessing the power of light and oxygen to cure a photosensitive resin.In other words, a projector beams the image to be printed into the pool of photosensitive resin.Then, oxygen is introduced in the unneeded areas.The oxygen creates dead zones which prevent the resin from curing in the unneeded areas and like Michelangelo; the build platform frees the printed object fully formed from the liquid.
As Dr. Joseph DeSimone, CEO and Co-Founder, Carbon3D said, “Current 3D printing technology has failed to deliver on its promise to revolutionize manufacturing.Our CLIP technology offers the game-changing speed, consistent mechanical properties and choice of materials required for complex commercial quality parts.”
The recent Star Wars Celebration had plenty of intriguing factoids.So that desert planet featured in Star Wars Episode 7: The Force Awakens is not Tatooine, after all. It’s Jakku.Further, we learned that the soccer ball like droid, BB-8, is not a CG character.Like R2D2, BB-8 is a real remote controlled robot.
Recently, we investigated what it would take for robots to develop into our robot companions seen in such films as Star Wars.The fact that BB-8 is a practical prop indicates to me, that we are all closer to one day having a droid.
It turns out BB-8 was created by a company called Sphero.The startup, headed by CEO Paul Berberian, was selected for Disney’s accelerator program last year, along with nine other companies. According to Disney’s website, the three-month-long program picks tech startups who want to “make an impact on the world of media and entertainment,” giving them upwards of $120,000 in investment capital. It also matches each startup with a mentor from within Disney’s executive ranks. In this case, Sphero’s mentor was Bob Iger. When Mr. Iger saw Sphero’s technology in action, he realized the potential application for BB-8 and connected the startup with the masterminds of the Star Wars characters.
BB-8 however is no mere remote controlled robot.This droid takes their app controlled robot ball to the next level.BB-8 moves so quickly, that people were convinced it had to be a CG character till it made it’s in person appearance.I will admit when I first saw BB-8 in the trailer I thought it was a bit goofy but after seeing it interact on stage, I can see the personality the puppeteer was able to bring out of the brief performance.BB-8 is truly a worthy addition to the droids of Star Wars, and since the company that made him is also in the business of making robot toys, it doesn’t take the force to see that one day soon we will all have a BB-8 droid of our very own.
There has been a lot of development with regards to 3D Printers.This year alone we have seen the technology used to build anything from buildings to bionic arms.While some printers can create something as unique as a pizza, most printers create objects out of plastic.
It is amazing what you can do with plastic.But, what if you want to print a pair of pants or need to replicate your child’s favorite stuffed animal?The answer may have just come from the Walt Disney Company and their fabric 3D printer.The little fabric rabbit created by the printer is a bit primitive, but I am sure as the technology is refined, you will be able to print your own unique version of your favorite character.
It turns out I know a guy, Karsten Agler - HP Ambassador & Technical Product Manager for Sprout to be precise. So I managed to get invited over to HP Labs in Palo Alto, CA recently for a demo of their new Sprout computer.
I arrived at HP Labs on a fine Friday morning and I only got lost once on the way. I managed to find the visitor’s parking area (and a spot therein) pretty easily. Luckily, I arrived my standard level of fairly early, because I ended up waiting until the longest Benny Goodman song in history ended before I locked up my car and headed into the lobby.
Signing in was done via computer at the receptionist station. All done with a touch screen. You had to put who you were, what company you were with, who you were there to see, etc. That process generated a badge that one is supposed to wear the entire time one is beyond the badge-controlled sliding doors. (As this is HP labs, there was also a sign informing folks that no photography was allowed.) I got said badge from the receptionist, clipped it onto my sweater, and sat in on of the various comfy chair dotted about.
While I was waiting for my escort, the largest order of pizza I have ever seen arrived. Seriously. It took the driver three trips for the pizza alone, and two of the bags were huge. I’m guessing that HP is doing pretty well.
Once Karsten collected me, and I was in HP Labs proper, I had the opportunity to see the offices of the founders of HP, Hewlett and Packard themselves. The offices have been kept just as those two gentlemen left them. Even from this, it was easy to see how different those two must have been. One of them had a bunch of change on the corner of their blotter, the other had a profusion of awards on a table, all evenly spaced out. I would have loved to stay and look around a little longer, but I had somewhere to be.
Our next stop was the demo lab, and to get there we had to descend a few flights of stairs, deep into the depths of the building. Except not really, as the building is built into a hill, so even though we had descended a couple of stories, we could have then gone outside at any level. Clever design!
The Sprout Demo lab itself was very interesting. They had a lot of things about to use as part of the demo, such as a frog mask, a Styrofoam potato, shells, drawings, etc. Several Sprouts lined the walls, with a few other computers scattered about. It looked like the sort of plce you’d hold a group demo, but for this it was just us.
The Sprout is, at its most basic, an all in one Windows box (the one I saw ran Windows 8.1) with a touch screen. But it also has a shell just for the Sprout, so you can log directly into that, and thus bypass the Windows start screen if you like. (To see more specific specs, go here
Both the screen, and the mat/pad are touch screens. The monitor part has ten touch points, while the mat has twenty. Just enough to play a duet on the piano app if you want to. In this scenario, the sheet music in on the monitor and the dual keyboards are on the mat.
The mat is connected to the computer with a magnetic USB. A keyboard, mouse, and stylus all come with the computer.
But you can also call up a digital keyboard on the mat. The mat itself is thin enough that if you were to stick your hand under it, you could see where your fingers are pressing up from the top. The stylus can be attached to the side of the monitor, and the keyboard and mouse can hang out pretty much wherever you want them to, as they are wireless.
HP is going for an immersive computing experience. In this case, that experience deals with blended reality. You can scan an item, say a starfish, and it creates a digital version that appears on the mat. Half ghostly image, half photographic copy, that appears right underneath the item you’ve scanned. That image can then be edited and interacted with.
Collaboration from a distance is possible using the MyRoom software for conferencing. You can actually conference a huge number of people together, and they don’t all need to be on Sprouts. If you are on a Sprout, you can show both the person and their mat in the conference. You can create a collaborative environment where more than one person can work with the images on the mat at a time.
Their concept of blended reality started with a guy who was trying to improve the scanning workflow. Historically, if you wanted to scan something you had to take your pages to the scanner, scan them, check the resulting scan on your computer, then get up and fix anything that was wrong. God help you if you had to hand feed the whole stack. With the Sprout, you can scan your document right there on the mat. Then you can crop, sign, and email all in one place. You can even load the document into Word as an editable document. Then you could have it open on your monitor, and say Powerpoint open on the mat, edit the doc and stick it in your powerpoint. All in one place.
I’ve done a fair amount of document scanning in my time, and just watching how quickly and easily my friend scanned in and manipulated a document...well, I was mightily impressed.
Apparently, HP is currently working on the possibility of a 3D scanning to printing workflow. They have identified two areas of interest: scanning to share and scanning to print. They hope to make both available in the near future. Right now they have about 180 degrees of scanning but they are working on 360. Stronger, better, faster versions of the Sprout are on their way too, so I’m really looking forward to seeing what they come up with.
The current computing environment shown in the demo is fascinating. I can only imagine what the next steps might be.
...I want a Sprout now.
(I never did see where that pizza ended up, by the way. It must be the real way they power HP Labs.)