Update of /cvsroot/firebug/firebug/web
In directory sc8-pr-cvs1.sourceforge.net:/tmp/cvs-serv15384
Modified Files:
publications.html
Added Files:
glaser_spie_2004_paper.pdf
Log Message:
Added Steve's spie paper and abstract to pub list.
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Index: publications.html
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RCS file: /cvsroot/firebug/firebug/web/publications.html,v
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*** publications.html 14 Jul 2004 23:35:28 -0000 1.7
--- publications.html 15 Jul 2004 14:43:15 -0000 1.8
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*** 51,55 ****
<li>
! D. M. Doolin, S. Glaser and N. Sitar.
<a href="interface_poster.pdf" alt="TOS Tech Exchange Poster">
Software Architecture for GPS-enabled Wildfire Sensorboard</a>.
--- 51,55 ----
<li>
! D. M. Doolin, S. D. Glaser and N. Sitar.
<a href="interface_poster.pdf" alt="TOS Tech Exchange Poster">
Software Architecture for GPS-enabled Wildfire Sensorboard</a>.
***************
*** 75,82 ****
<li>
! Professor Glaser's
! <a href="sensor_net.pdf">talk</a> on sensor networks.
! <p>
! ABSTRACT: Talk on sensor networks.
</p>
</li>
--- 75,105 ----
<li>
! S. D. Glaser.
! <a href="glaser_spie_2004_paper.pdf">Some real-world applications of wireless sensor nodes</a>
! Proceedings of SPIE Symposium on Smart Structures & Materials/ NDE 2004, San Diego,
! California, March 14-18, 2004
! <p>
! ABSTRACT: This paper presents two case histories of the use of
! wireless sensor Mote technologies. These are devices that
! incorporate communications, processing, sensors, sensor fusion,
! and power source into a package currently about two cubic inches in
! size - networked autonomous sensor nodes. The first case discussed
! is the November, 2001, instrumentation of a blastinduced
! liquefaction test in Tokachi Port, Japan. The second case discussed
! is the dense-pak<sup>TM</sup> instrumentation of the seismic shaking test of a
! full-scale wood-frame building on the UCB Richmond shake table. The
! utility of dense instumentation is shown, and how it allows location
! of damage globally unseen. A methodology of interpreting structural
! seismic respose by Bayesian updating and extended Kalman filtering is
! presented. It is shown that dense, inexpensive instrumentation is
! needed to identify structural damage and prognosticate future behavior.
! The case studies show that the current families of Motes are very
! useful, but the hardware still has difficulties in terms of reliability
! and consistancy. It is apparent that the TinyOS is a wonderful tool
! for computer science education but is not an industrual quality
! instrumentation system. These are, of course, growing pains of the
! first incarnations of the Berkeley Smart Dust ideal. We expect the
! dream of easy to use, inexpensive, smart, wireless, sensor networks
! to become a reality in the next couple of years.
</p>
</li>
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