Laptop motion detector warns of earthquake
THE TECHNOLOGY USED to detect motion in laptops can be utilised to detect earthquakes.
This accelerometer technology successfully detected a recent earthquake in Los Angeles.
Robert Winter, chief engineer at Kroll Ontrack explains that “the accelerometer itself measures acceleration that recognises sense of gravity. Within the computing world, this technology is used within laptops in order to protect data stored on the hard drive.”
Therefore, if the laptop is reading or writing data when a laptop is dropped, “it is likely that the disk drive read/write head will collide with the surface of the platter (this is where the data is stored) causing an indentation and creating debris that will circulate within the drive enclosure, often resulting in further damage.”
This will most likely cause the computer to crash, and so valuable data could be lost.
“The accelerometer is designed to prevent this, it recognises the change in motion and signals to the hard drive that an impact is imminent. The read/write head is then moved to the ‘parked position’ where damage to the hard drive is minimised.”
You might ask how this sensor would be able to tell the difference between a simple knock and an earthquake – the answer’s simple, the signal from an earthquake is very different as it involves several different shocks.
We shouldn’t all get too excited about being able to save the world while browsing the web though, Winter explains further that “earthquake detection requires the continuous measurement of seismic activity over a long period of time and predicting the location of the epicentre is particularly difficult.”
You would also need separate technology attached to your laptop and obvious expertise in order to read the quake, but other than that get your superman pants at the ready.
Although the laptop is the biggest type of technology to use this accelerometer the Nintendo Wii, iphone and Iphone 3G also use the same motion detector in order to function. µ
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Imagine, without this you'd be sitting at your desk wondering why your coffee cup is suddenly full of bit of plaster.
Duh... Geologists and seismic investigators have been instrumenting faults for years with accelerometers. Nothing new here, move on.....
If you have a newer thinkpad or macbook Stanford, UC Riverside and a couple other organizations have put out software to do just this.
http://qcn.stanford.edu/EVENTS/2008_211/
If you could combine your google map determined gps position with a distributed computing app - we could all be monitoring in lots of places simultaneously and having it centrally monitored.
Instrumenting faults, yes. But instrumenting an entire country would be nice. Seismic data sets used in the study of earthquakes are usually quite sparse geographically. As I understand it, this scheme is to get a large number of these critters listening for seismic events, and sending observations to some central server. Small(ish) scale passive seismic experiments like this have been run recently in California with great success in subsurface imaging. This is a good lateral application of existing technology to improve geographic receiver spread and therefore depth of imaging. After Boxing Day 2006 the more the better.
Tracking the Trolls while you sleep.