Yes, Lego jumped into the future a few years ago. that's great for kids and great for Lego. They had already moved into the space left empty when plasctic models vanished, and now they're grabbing the fun of robotics.
Nancy, I agree with you about the "ick, a bug" aspect. OTOH, these don't really look much like cockroaches, though their movements are creepily similar. I'm sure a cuter body could be designed, but not using this cheaper fabrication technology. Perhaps some of Dash Robotics' beta customers will come up with a clever way to make them more attractive and still cheap to fabricate.
Earl, thanks for your comments and glad we can help expand your horizons on robots. Interesting to hear that DIY robotics is growing. It certainly seems so from what I've seen. I'll be interested to find out what Dash Robotics comes up with after they've gotten more input from their beta customers.
While this is a great idea that could really help stir the imagination with a minimal effort to start - I would like to see a cuter version. I am afraid if I see anything going across my kitchen floor that even remotely resembles a cockroach - it will be smush first - ask questions later...
Hello, Ann: long time no post. The robot bug looks neat and reasonably priced too. I went to the Maker Faire a few weeks ago and saw a lot of interesting devices for building objects. I may have missed them, but, I saw little in the way of construction of housings for ro, not so much. You could buy robot kits and Arduino controllers ( and servos to do the moving) for D.I.Y. and I appreciate the availibility. Maybe this is going to be new area of developement where artists and fashion designers could become groundbreakers.
I must look at your links for much new material you have. I may speak on the growth of the D.I.Y. robots, as a panel member, in November.
I think the key is both individual curiosity and STEM. The thing that STEM can provide is stimulation, which not all kids get equal amounts of. When I was a kid we already had science and other cool programs in school, which now don't exist anymore. That's why we need STEM.
At this year's MD&M West show, lots of material suppliers are talking about new formulations for wearables and things that stick to the skin, whether it's adhesives, wound dressings, skin patches and other drug delivery devices, or medical electronics.
Researchers at Lawrence Livermore National Laboratory have published two physics-based models for the selective laser melting (SLM) metals additive manufacturing process, so engineers can understand how it works at the powder and scales, and develop better parts with less trial and error.
Materials and assembly methods on exhibit at next week's MD&M West and other co-located shows will include some materials you should see, as well as several new and improved processes. Here's a sampling of what you can expect.
The Food & Drug Administration has approved a 3D-printed, titanium, cranial/craniofacial patient-specific plate implant for use in the US. The implant is 3D printed using Arcam's electron beam melting (EBM) process.
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