The Intel Atom processor Z2760 ("Clover Trail") was architected specifically for Windows 8. It is based on Intel's 32nm process technology, powers lightweight tablets and convertibles that meet the demands of consumers and business users, and includes outstanding battery life, always-on technology, connected standby, and the sleekest designs available. This touch-enabled tablet features a sensor hub microcontroller with an array of physical and logical motion sensors including accelerometer, magnetometer, gyroscope, fusion sensors (compass, device orientation, and inclinometer) proximity, additional location systems (ALS), and GPS. Certified for Windows 8. (Source: Intel Corp.)
Looks like some really interesting things in the MEMS space going on under the covers. I particularly like the posture/fitness app, as I, for one, could benefit from someone reminding me to sit up straight. My son is an avid long boarder/snowboarder and I wouldn't mind the addition of some LED lights for his rig, especially when he insists on being out at dusk.
Beth, these are indeed exciting time for this technology. Windows 8 gives a new boost to the industry by having a new platform to certify for. I was especially interested in the last one. Marty Cooper, who was on the team that built the world's first hand held mobile cell phone at Motorola, is very big on talking about how technology will help revolutionize medicine. One of the devices he shows in his standard talk is this device. The idea of keeping track of your caloric intake and usage can help people in all types of situations. Providing that type of information is a key step forward in getting control of our health and gearing it toward prevention instead of treatment.
I like Light Bohrd skateboarding enhancement ( 70's skate rat) and the Orbotix offering of virtual golfing, but I am most impressed with the VUE patch. I would buy one immediately when they are in production.
Early in my design career I was working on inertial guidance instrumentation (gyros, accelerometers, etc.). I remember one particular brainstorming session in which we were trying to imagine where these instruments could be used in the commercial sector since all of our work was military and aerospace at the time. Needless to say - none of us ever foresaw a time when we could each carry our own portable navigation system in a phone/tablet. Amazing how far this technology has come.
The last one that monitors activity and health. This sounds great on the surface, but I can envision the government or insurance agencies suggesting (mandate by volunteering) one wears this for a specified time to "charge" the individual appropriately. It will be billed as a health accessment to save you money.
The other stuff is really cool, especially the boards!
Slide 6 looks like they're getting closer to developing ECG (electrocardiogram) in a Band-Aid, which has been the Holy Grail in medical electronics for the past few years. I'm wondering how close they are to finally making it happen.
Two researchers from Cornell University have won a $100,000 grant from NASA to continue work to develop an energy-harvesting robotic eel the space agency aims to use to explore oceans on one of the moons of Jupiter.
Is the factory smarter than it used to be? From recent buzzwords, you’d think we’ve entered a new dimension in industrial plants, where robots run all physical functions wirelessly and humans do little more than program ever more capable robotics. Some of that is actually true, but it’s been true for a while.
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