Keep It Physical Keep It Real Steven Glaser

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Keep It Physical, Keep It Real Steven Glaser Center for Information Technology Research in

Keep It Physical, Keep It Real Steven Glaser Center for Information Technology Research in the Interest of Society UC Berkeley College of Engineering Glaser@ce. berkeley. edu

Dense Instrumentation of Full Scale Structure - Performed through 12+ strong shakings - 100+

Dense Instrumentation of Full Scale Structure - Performed through 12+ strong shakings - 100+ channels of acceleration data per test 30 Motes on Glue-lam beam 25 Motes on Damaged sidewall 2003, Glaser@ce. berkeley. edu

Tokachi Port, Hokkaido Blast-induced Liquefaction Test 2003, Glaser@ce. berkeley. edu

Tokachi Port, Hokkaido Blast-induced Liquefaction Test 2003, Glaser@ce. berkeley. edu

Current Application: Instrument the Golden Gate Bridge! • Have a prototype structural health monitoring

Current Application: Instrument the Golden Gate Bridge! • Have a prototype structural health monitoring system up and running within a year • Culler, Fenves, Demmel, Glaser

The Berkeley "Smart Dust" Concept ü Spread thousands of wireless sensor nodes casually over

The Berkeley "Smart Dust" Concept ü Spread thousands of wireless sensor nodes casually over an arbitrary area of interest ü They self-organize into a network conveying arbitrary information from any point to any other at whatever bandwidth is demanded. . . ü. . while operating at incredibly low energy usage (i. e, off most of the time) to run for years on small batteries and harvested energy ü. . and being extremely responsive in times of key activity ü. . without ever bothering you about design considerations, intended usage, faults, or constraints (Stevie wants to be 6 foot tall) From Culler

Achieving this dream requires a broad-based team approaching the pieces as part of a

Achieving this dream requires a broad-based team approaching the pieces as part of a system Students: • • Laurie Baise: Ph. D – Geo. Eng; MS - Seismo; Prof. Tufts Chen Min: BS, MS - EE; Ph. D - Civil Systems Jian. Ye Ching: MS, Ph. D – Geo. Eng; MS - EECS; Housner Fellow, Cal. Tech Dom Galic: MS, Appl. Math; Ph. D - Civil Systems Jeff Moore: BS – Eng. Geol. ; Ph. D – Geo. Eng Albert To – MS – geo; MS – seismo; Ph. D - Geo. Eng Ying Zhang: MS – Mat. Eng; MS – EE; Ph. D - Civil Systems Me – Geo. Engineering, Philosophy, driller, vision thing Cohort: • • David Culler – computer science, electrical engineering Greg Fenves – structural engineering, computer science Roger Howe – electrical engineering, MEMS fabrication Al Pisano – mechanical engineering, MEMS Kris Pister – electrical engineering, smart dust Tim Sands – materials science, microfabrication Nick Sitar - geoengineering, geology Private Industry: • Senera Inc. – remote structural prognostication • Dust Inc. – micro. Motes • INTEL Laboratory @ Berkeley • Marathon Products – environmental recorders • Shinkawa Sensor Tech. – rotating machinery health 2003, Glaser@ce. berkeley. edu

Keep It Physical, Keep It Real Current Project - Down-hole array - Fire. Bug

Keep It Physical, Keep It Real Current Project - Down-hole array - Fire. Bug

TERRASCOPE - 4 -D Distributed Seismic Monitoring Network • integration of advanced technology accelerometers

TERRASCOPE - 4 -D Distributed Seismic Monitoring Network • integration of advanced technology accelerometers (30 ngrms/ Hz noise floor, 24 -bit direct digital) Local Gateway - LINUX machine - high-powered radio - Ethernet server - power source - array aggregator - GPS 6 -D accelerometer arrays - MOTE as brains - 24 bit, low noise accel - 9 bit, high amplitude - rate gyros - orientation magnetometer - p. H, pwp, temp • integration of 3 -D rate gyros, giving 6 -DOF dynamic point measurements • integration of solar power, improved batteries, GPS timing, and ethernet server at the Local Gateway • fully dynamic networking, realtime reprogramming and peer-topeer sensor fusion • integration of magnetometer, p. H, pore pressure, and tilt • current 1 -off price $4000 per 6 -D station

Development and refinement of vertical array seismic monitoring systems Optional customformed bladder for open

Development and refinement of vertical array seismic monitoring systems Optional customformed bladder for open holes Colluvium 3 -5 m 3 -D accelerometer arrays - 24 bit, low noise - 9 bit, high amplitude - rate gyros - orientation magnetometer - Mote intelligence - p. H, pwp, temp 3 m yagi antenna Local Gateway - LINUX machine - high-powered radio - Ethernet server - power source - array aggregator - link to base server solar collector Alluvial deposits sands, gravels, silty clays 15 m Great Valley Sequence sandstone Hayward Fault 70 m 35 m Franciscan Formation metamorphosed shale, sandstone Cartoon of the vertical seismic array and Seis. Mote rf does not work well in soils, so we must use wires anyway Wires work well for transmitting power Relatively simple set of commands needed for the experiment We know where the sensor nodes are, and they do not move much A few sensors in each hole Glaser@ce. berkeley. edu

Create an "Instrumentation Processor" any analog sensor COTS any digital sensor –LINUX machine –GPS

Create an "Instrumentation Processor" any analog sensor COTS any digital sensor –LINUX machine –GPS timing –Power source –Rf link (high/low power) –Web server COTS – 16 -bit MCU with 14 -bit A/Ds –Bank of programmable gain opamps – 4 ~ 8 Mb memory –Power control –GUI interface COTS Formatted output

Fire. Bug: Adaptive Real-Time Geoscience and Environmental Data Analysis, Modeling and Visualization Nicholas Sitar

Fire. Bug: Adaptive Real-Time Geoscience and Environmental Data Analysis, Modeling and Visualization Nicholas Sitar (Civil and Environmental Engineering) George Brimhall (Earth and Planetary Science) Steven Glaser (Civil and Environmental Engineering) John Radke (Landscape Architecture and Environmental Planning) Raja Sengupta (Civil and Environmental Engineering) 2003, Glaser@ce. berkeley. edu

 • Drop GPS Motes - field networks capable of real-time distributed data evaluation

• Drop GPS Motes - field networks capable of real-time distributed data evaluation and transmission • Helicopter based real-time topographic and ground cover mapping • GIS: real-time updating from multiple information streams • Full data field coupled to real-time burn model • Visualization and adaptive modeling of observed phenomena returned to in situ fire fighter

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Top Bottom

Current Fire. Bug Tasks • Race/deadlocks still exist in sensor board driver code. •

Current Fire. Bug Tasks • Race/deadlocks still exist in sensor board driver code. • Weather and air quality concerns limit controlled burn opportunities. We have to be able to move fast when necessary. • “Uplink” details for remote deployment are still sketchy.

Thanks! Prof. Steven D. Glaser Civil Engineering University of California, Berkeley glaser@ce. berkeley. edu

Thanks! Prof. Steven D. Glaser Civil Engineering University of California, Berkeley glaser@ce. berkeley. edu 512/642 -1264 The Boss