Title :
Underground Engineering
Author :
LaMagna, Joseph ; Squire, James C.
Author_Institution :
Electr. & Comput. Eng. Dept., Virginia Mil. Inst., Lexington, VA, USA
Abstract :
Over 800 ft underground, surrounded by rough-hewn walls under such tremendous pressure that leaning on them could cause them to violently explode, tests are run on a device that might someday be integral to rescuing miners trapped by cave-ins. The device, under development by a group of Virginia Military Institute (VMI) cadets and professors, relies on seismic waves to transmit distress signals using the earth itself as a conduit. Essentially a modified speaker mounted on a spiderlike frame, the VMIne is affixed to the roof of a mine tunnel and can produce vibrations that travel through the intervening rock, which can be acquired by receivers many hundreds of feet above (Fig. 1).
Keywords :
loudspeakers; mining; roofs; seismometers; underground communication; VMI cadets; VMI professors; VMIne; Virginia Military Institute; distress signals; intervening rock; mine tunnel roof; miners; modified speaker; rough-hewn walls; seismic waves; spiderlike frame; underground engineering; Buried object detection; Fuel processing industries; Mining industry; Receivers; Safety; Seismic waves; Transmitters;
Journal_Title :
Potentials, IEEE
DOI :
10.1109/MPOT.2014.2315857
