The "massive personalization" aspect of consumer devices and the role MEMS can play in promoting that vision seems to be particularly interesting. While some of the aspects of personalization lend themselves to a "big brother" mentality, in my view, the idea that your device can serve up data and apps specific to your needs/tastes/interests/location is certainly compelling. Just so I understand it correctly, how specifically does implementation of MEMS drive the personalization scenario?
Those numbers you quote from Bosch were impressive, especially considering the second billion took only three years and the third billion will takes fewer than three years. What's particularly impressive is that this is only one vendor.
It's interesting that the CES crowd has been so slow in understanding the importance of MEMS. Many of them are probably already using three-axis MEMS acceleraometers in laptops, games, pedometers, GPS, etc. I don't think you'd see that kind of response at an engineering trade show, like Design West.
I agree, Chuck, CES has always been aimed more toward the user end of the supply chain than at design engineers. Wasn't it originally a distribution show? Anyway, I think it's funny that MEMS are only now getting the respect they deserve.
I agree, Ann. CES tends to focus on the needs of retailers and end users rather than engineers. Even so it's fun to see what's getting presented. It may change in the future. Instead of Apple, you get Apple suppliers. This year was Microsoft's last year. It's certainly changing.
@Beth thank you very much for your comment on my blog. I like to think of MEMS as helping us live in a world of "big Mother" rather than "big Brother" (okay I admit that is not my original quote, I am re-quoting Forrester Research's Julie Ask). MEMS, by the nature of its smart sensing, can help a person in his/her daily life in an unobtrusive way - I point to the Quality of Life Technology Center at Carnegie Mellon University - www.cmu.edu/qolt - which is leading the research and application of such technology. CMU's Dan Siewiorek, who spoke at MEMS Executive Congress 2010, was recently featured in an article in Medical Eletronics Design (http://www.medicalelectronicsdesign.com/article/quality-life-assurance) that speaks to how this can work and improve Quality of Life through "intelligent systems that take into account the abilities, needs, and intentions of the user."
@Alex and you forgot to mention that MEMS will be a key feature of Sensors in Design; with great speakers and content on March 28-29! I am really looking forward to it and hope to see many of you there.
@Ann thanks for your comment. Yes, CES is mainly an end-user show (though you'd never know it when you see some of the interesting things for sale there...but that's fodder for another blog). By co-exhibiting with several of our member companies, our MEMS TechZone was pretty successful and we are looking to making it even bigger and better with more demos and examples of the "MEMS inside the machine" so that the message about the impact and potential of MEMS is spread even further...But I was pretty impressed with the folks who came to our booth and knew what MEMS stood for (or darned close) and were excited to see our presence at CES. It was pretty cool and I look forward to next year!
Absolutely, MEMS will be a big part of Design News's upcoming Sensors in Design conference at the end of March. As we note at the end of the article, Karen Lightman will be a track chair, and she's been instrumental in helping us recruit great speakers and panelists for the conference. Again, it's March 28-29, 2012 in San Jose. Visit www.SensorsInDesign2012.com to learn more and to register.
Altair has released an update of its HyperWorks computer-aided engineering simulation suite that includes new features focusing on four key areas of product design: performance optimization, lightweight design, lead-time reduction, and new technologies.
At IMTS last week, Stratasys introduced two new multi-materials PolyJet 3D printers, plus a new UV-resistant material for its FDM production 3D printers. They can be used in making jigs and fixtures, as well as prototypes and small runs of production parts.
In a line of ultra-futuristic projects, DARPA is developing a brain microchip that will help heal the bodies and minds of soldiers. A final product is far off, but preliminary chips are already being tested.
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