Apparently there are technologies implementable in MEMS that detect hydration levels using wearable permeable materials (eg, USPTO App 20070048224, this one uses sampled Saliva to detect levels of dehydration but a similar approach can be used by sampling sweat for Sodium & Potassium levels, I imagine). So the 'mechanical' part of the sensor is fluid flow.
As I have commented elsewhere in EE Times, the MEMS industry has been dealing with 3D from day one so it is a natural extension in productization of different needs. What is different now is that the technologies used in MEMS (still in whole microns or a large fraction of it) now has to come up to speed with the chip components designed and built with nanometer technologies.
2011 and beyond will see a healthy growth in many products realized using heterogeneous functions integrated via 3D chip stacking.
Dr. MP Divakar
Sounds interesting, a way to measure the body dehidration? this shows once more that MEMS is gaining ground by seizing the unattended need for measureing anything that can be measured in the human body. Heart rate, ECG, muscle activity, and now... water level?
The best part here is that ultrathin chips will enable all this to be wearable. Embedded in the clothing and or body accesories.
DARPA funds an institute in foreign country. The story becomes interesting. What other foreign institute do they fund?
Speaking of the research, there is no doubt high-capacity storage has become very important in the past 5 years or so. The research will help. Which institute is in the leading position of MEMS?
A Book For All Reasons Bernard Cole1 Comment Robert Oshana's recent book "Software Engineering for Embedded Systems (Newnes/Elsevier)," written and edited with Mark Kraeling, is a 'book for all reasons.' At almost 1,200 pages, it ...