10.07.16
Smart Infrastructure Panel Talk
American Australian Leadership Dialogue
Title: The Disruptive Transition to Intelligent, Secure, Low Carbon, and Climate Adaptive Infrastructure
New York City, NY
Three Disruptive Leadership Opportunities for Washington State to “Live in th...Larry Smarr
11.03.18
Keynote Talk
Washington Innovation Summit:
New Decade, New Partnerships, New Solutions
Title: Three Disruptive Leadership Opportunities for Washington State to “Live in the Future”
Microsoft Executive Conference Center
Redmond, Washington
Needs and advances in energy generationAshokRamanan
This presentation mainly deals with the renewable energy sources (such as solar, wind, tidal, geo-thermal, hydro, and biomass), many new technologies and techniques (such as kite energy, off shore wind farms, photovoltaic glasses and so on) to produce electricity and effective use of sensors, control systems and power electronics to improve production and efficiency
Internationally patented technology produces clean electricity day and night (and hydrogen and oxygen gas) by extracting the electric charges from naturally occurring airborne ions.
Three Disruptive Leadership Opportunities for Washington State to “Live in th...Larry Smarr
11.03.18
Keynote Talk
Washington Innovation Summit:
New Decade, New Partnerships, New Solutions
Title: Three Disruptive Leadership Opportunities for Washington State to “Live in the Future”
Microsoft Executive Conference Center
Redmond, Washington
Needs and advances in energy generationAshokRamanan
This presentation mainly deals with the renewable energy sources (such as solar, wind, tidal, geo-thermal, hydro, and biomass), many new technologies and techniques (such as kite energy, off shore wind farms, photovoltaic glasses and so on) to produce electricity and effective use of sensors, control systems and power electronics to improve production and efficiency
Internationally patented technology produces clean electricity day and night (and hydrogen and oxygen gas) by extracting the electric charges from naturally occurring airborne ions.
Solar Power vs Wind Power for Individuals - Henrik FrankHenrik Frank
Is it a better solution for “carbon neutral” homes to utilize on-site solar or wind power or should these be provided in commercial scale farms.
By Henrik Frank
Solar and wind the cheapest sources of energy and could power australia, the ...solarbliss
http://goo.gl/ACGP9 SOLAR and wind could become the cheapest sources of energy and almost exclusively power the country in coming decades as carbon prices climb, the Climate Commission says.
The Energy Efficient Cyberinfrastructure in Slowing Climate ChangeLarry Smarr
10.04.28
Invited Speaker
Community Alliance for Distributed Energy Resources
Scripps Forum, UCSD
Title: The Energy Efficient Cyberinfrastructure in Slowing Climate Change
La Jolla, CA
From the Shared Internet to Personal Lightwaves: How the OptIPuter is Transfo...Larry Smarr
08.04.03
Invited Talk
Cyberinfrastructure Colloquium
Clemson University
Title: From the Shared Internet to Personal Lightwaves: How the OptIPuter is Transforming Scientific Research
Clemson, SC
Solar Power vs Wind Power for Individuals - Henrik FrankHenrik Frank
Is it a better solution for “carbon neutral” homes to utilize on-site solar or wind power or should these be provided in commercial scale farms.
By Henrik Frank
Solar and wind the cheapest sources of energy and could power australia, the ...solarbliss
http://goo.gl/ACGP9 SOLAR and wind could become the cheapest sources of energy and almost exclusively power the country in coming decades as carbon prices climb, the Climate Commission says.
The Energy Efficient Cyberinfrastructure in Slowing Climate ChangeLarry Smarr
10.04.28
Invited Speaker
Community Alliance for Distributed Energy Resources
Scripps Forum, UCSD
Title: The Energy Efficient Cyberinfrastructure in Slowing Climate Change
La Jolla, CA
From the Shared Internet to Personal Lightwaves: How the OptIPuter is Transfo...Larry Smarr
08.04.03
Invited Talk
Cyberinfrastructure Colloquium
Clemson University
Title: From the Shared Internet to Personal Lightwaves: How the OptIPuter is Transforming Scientific Research
Clemson, SC
Project StarGate An End-to-End 10Gbps HPC to User Cyberinfrastructure ANL * C...Larry Smarr
09.11.03
Report to the
Dept. of Energy Advanced Scientific Computing Advisory Committee
Title: Project StarGate An End-to-End 10Gbps HPC to User Cyberinfrastructure ANL * Calit2 * LBNL * NICS * ORNL * SDSC
Oak Ridge, TN
Science and Cyberinfrastructure in the Data-Dominated EraLarry Smarr
10.02.22
Invited talk
Symposium #1610, How Computational Science Is Tackling the Grand Challenges Facing Science and Society
Title: Science and Cyberinfrastructure in the Data-Dominated Era
San Diego, CA
UC Capabilities Supporting High-Performance Collaboration and Data-Intensive ...Larry Smarr
07.10.22
University of California Council of Research
UC Irvine
Title: UC Capabilities Supporting High-Performance Collaboration and Data-Intensive Sciences
Irvine, CA
Digital Transformations Over the Next Decade in Energy and the EnvironmentLarry Smarr
11.10.04
The New Science of Management in a Rapidly Changing World
PwC's DiamondExchange
Title: Digital Transformations Over the Next Decade in Energy and the Environment
Tucson, AZ
The OptiPuter, Quartzite, and Starlight Projects: A Campus to Global-Scale Te...Larry Smarr
05.03.09
Invited Talk
Optical Fiber Communication Conference (OFC2005)
Title: The OptiPuter, Quartzite, and Starlight Projects: A Campus to Global-Scale Testbed for Optical Technologies Enabling LambdaGrid Computing
Anaheim, CA
High Performance Cyberinfrastructure is Needed to Enable Data-Intensive Scien...Larry Smarr
11.03.28
Remote Luncheon Presentation from Calit2@UCSD
National Science Board
Expert Panel Discussion on Data Policies
National Science Foundation
Title: High Performance Cyberinfrastructure is Needed to Enable Data-Intensive Science and Engineering
Arlington, Virginia
The Missing Link: Dedicated End-to-End 10Gbps Optical Lightpaths for Clusters...Larry Smarr
11.05.24
Invited Keynote Presentation
11th IEEE/ACM International Symposium on Cluster, Cloud, and Grid Computing
Title: The Missing Link: Dedicated End-to-End 10Gbps Optical Lightpaths for Clusters, Grids, and Clouds
Newport Beach, CA
Genomics at the Speed of Light: Understanding the Living OceanLarry Smarr
06.07.17-19
Invited Talk
The Gordon and Betty Moore Foundation 2nd Annual Marine Microbiology Investigator Symposium The Golden Gate Club, The Presidio of San Francisco
Title: Genomics at the Speed of Light: Understanding the Living Ocean
San Francisco, CA
12.04.25
Pioneer Session: "N=1: Pioneers of Self-Tracking“
Panel at the Genomes, Environment, and Traits Conference
Harvard Medical School
Title:My N=1 Experience
Cambridge, MA
Will the Quantified Self Movement Disrupt Healthcare?Larry Smarr
Calit2 Director Larry Smarr delivers an invited talk to the Pre-Biotechnology Industry Organization International Convention Symposium in San Diego, Calif., on June 22, 2014.
Restructuring Campus CI -- UCSD-A LambdaCampus Research CI and the Quest for ...Larry Smarr
09.02.03
Invited Presentation to the
Net@EDU Campus Cyberinfrastructure Working Group
Title: Restructuring Campus CI -- UCSD-A LambdaCampus Research CI and the Quest for Zero Carbon ICT
Tempe, AZ
06.07.26
Invited Talk
Cyberinfrastructure for Humanities, Arts, and Social Sciences, A Summer Institute, SDSC
Title: The OptIPuter and Its Applications
La Jolla, CA
Limiting Global Climatic Disruption by Revolutionary Change in the Global Ene...Larry Smarr
10.06.08
Keynote Opening Talk
Xconomy Forum: The Rise of Smart Energy
Title: Limiting Global Climatic Disruption by Revolutionary Change in the Global Energy System
La Jolla, CA
Limiting Global Climatic Disruption by Revolutionary Change in the Global EnergyLarry Smarr
10.06.08
Keynote Opening Talk
Xconomy Forum: The Rise of Smart Energy
Title: Limiting Global Climatic Disruption by Revolutionary Change in the Global Energy System
La Jolla, CA
“Integrated Solutions in Sustainable Green Energy and Transportation”Green Parking Council
Mark Gander, GPC Board member and AECOM Director, was among a group of leading scientists, researchers, innovators, officials, and corporate leaders to present recently at the World Green Energy Symposium (WGES) at the City University of New York (CUNY) in New York City.
His “Integrated Solutions in Sustainable Green Energy and Transportation” presentation focused on clean renewable energy; transportation; electric car vehicles; green parking; and place-based strategies such as an eco-district or transit-oriented development that are comprehensive ways to optimize land use efficiency, energy and water and to create jobs.
The Role of University Energy Efficient Cyberinfrastructure in Slowing Climat...Larry Smarr
10.04.14
Energy Leadership Lecture
The Institute for Energy Efficiency
University of California, Santa Barbara
Title: The Role of University Energy Efficient Cyberinfrastructure in Slowing Climate Change
Santa Barbara, CA
The Role of University Energy Efficient Cyberinfrastructure in Slowing Climat...Larry Smarr
10.06.01
Talk to MGT166 Class
Business Ethics and Corporate Social Responsibility
Otterson Hall, Rady School of Management, UCSD
Title: The Role of University Energy Efficient Cyberinfrastructure in Slowing Climate Change
La Jolla, CA
Citizen Engineers in ActionWe package engineers as pr.docxmonicafrancis71118
Citizen Engineers in Action
“We package engineers as problem solvers rather than creators and innovators
who address the grand challenges of our time—environmental contamination,
world hunger, energy dependence, and the spread of disease . . .
How did we let this happen?”
—Jacquelyn F. Sullivan,1 co-director of the Integrated Teaching and Learning
Program at the University of Colorado at Boulder
Around the world, Citizen Engineers are making a real difference inimproving the quality of life. Some are working in the companies youpass by every day, making a difference in the products that we use in
our daily routines. Others are applying their passion and expertise to solving
fundamental problems that people face. As a conclusion to this book we
thought we’d highlight a few inspiring examples of the kinds of things real-
world Citizen Engineers are working on today.
Engineers Without Borders (EWB), a nonprofit humanitarian organization,
is partnering with developing communities worldwide in order to improve
their quality of life. This partnership focuses on the implementation of sus-
tainable engineering projects, while involving and training internationally
responsible engineers and engineering students. Here are just a few of their
recent projects.
• In Bulandshahar, Uttar Pradesh, the student-teacher duo of Niruttam
Kumar Singh and Harvansh Yadav have made a cow dung battery
that lights up electric bulbs, charges mobile phones, and brings alive
radios.2
• Undergraduate engineering students are currently building a bridge
across a gorge in a small town in Nicaragua. The students have sur-
veyed the entire project site and are now in the process of designing a
bridge to span the gorge and allow for pedestrian travel during the
rainy season.3
• Thousands of residents of rural villages in India are receiving quality
eye care thanks to a collaborative effort between an Indian hospital
215
17
network and the researchers at the University of California, Berkeley,
and at Intel Corporation who have developed a new technology for
low-cost rural connectivity.4
• Engineers at PlayPumps International designed the PlayPump5 water
system, which provides easy access to clean drinking water, brings joy
to children, and leads to improvements in health, education, gender
equality, and economic development. Installed near schools, the
PlayPump system doubles as a water pump and a merry-go-round. It
also provides a way to reach rural and peri-urban communities with
potentially life-saving public health messages.
In Panama, students and researchers are using small wireless sensors to
help answer big environmental questions. Warren Wilson College and CREA,
a nonprofit organization in Panama, are implementing a geographic informa-
tion system (GIS) and wireless sensor network on the 1,000-acre Cocobolo
Nature Reserve in Panama. Tiny Sun SPOT sensors6 will provide an inexpen-
sive, easy-to-program platform for monitoring all kinds of things: the impac.
Sustainable Computing and Telecom Can Contribute to Limiting Global Climatic ...Larry Smarr
10.07.28
Invited Seminar
AT&T Shannon Labs
Title: Sustainable Computing and Telecom Can Contribute to Limiting Global Climatic Disruption
Florham Park, NJ
Digital Infrastructure in a Carbon Constrained WorldLarry Smarr
09.01.15
Invited Presentation to the
West Coast Leadership Dialogue
Stanford University
Title: Digital Infrastructure in a Carbon Constrained World
Palo Alto, CA
Similar to The Disruptive Transition to Intelligent, Secure, Low Carbon, and Climate Adaptive Infrastructure (20)
The Disruptive Transition to Intelligent, Secure, Low Carbon, and Climate Adaptive Infrastructure
1. The Disruptive Transition to Intelligent, Secure, Low Carbon, and Climate Adaptive Infrastructure Smart Infrastructure Panel Talk American Australian Leadership Dialogue New York City, NY July 16, 2010 Dr. Larry Smarr Director, California Institute for Telecommunications and Information Technology Harry E. Gruber Professor, Dept. of Computer Science and Engineering Jacobs School of Engineering, UCSD
2.
3. Enable Structures & Systems to Self-Monitor, Self-Diagnose, & Self-Correct Throughout Their Life Cycle http://lsmarr.calit2.net/repository/Intelligent_Infrastructure_Initiative_2008.pdf
5. The Downside of Adding Intelligence to Infrastructure is Keeping it Secure
6. Transition to Low Carbon Infrastructure: Race for Low-Carbon Industries is New Driver "If we stick to a 20 per cent cut, Europe is likely to lose the race to compete in the low-carbon world to countries such as China, Japan or the US - all of which are looking to create a more attractive environment for low-carbon investment,“ --British, French, and German Climate and Environmental Ministers Previous Goal—By 2020, 20% Cut Below 1990 Levels Source: Sydney Morning News
7. A Business Plan for America’s Energy Future www.americanenergyinnovation.org OUR RECOMMENDATIONS Create an independent national energy strategy board. Invest $16 billion per year in clean energy innovation. Create Centers of Excellence with strong domain expertise. Fund ARPA-E at $1 billion per year. Establish and fund a New Energy Challenge Program to build large-scale pilot projects.
9. A Visionary Low Carbon Infrastructure Plan: Zero Carbon Australia http://beyondzeroemissions.org/ Wind & Concentrating Solar Thermal (CST) Are Major Renewable Energy Sources
10. The Transition to a Low Carbon Society Requires Rethinking Our Cities Infrastructure www.unep.org/publications/ebooks/kick-the-habit/pdfs/KickTheHabit_en_lr.pdf
11. Making University Campuses Living Laboratories for the Greener Future www.educause.edu/EDUCAUSE+Review/EDUCAUSEReviewMagazineVolume44/CampusesasLivingLaboratoriesfo/185217
12. Atmospheric CO 2 Levels for Last 800,000 Years and Several Projections for the 21 st Century Source: U.S. Global Change Research Program Report (2009) Graph from: www.globalchange.gov/publications/reports/scientific-assessments /us-impacts/download-the-report 2100 No Emission Controls--MIT Study 2100 Shell Blueprints Scenario 2100 Ramanathan and Xu and IEA Blue Scenario 2100 Post-Copenhagen Agreements-MIT Model
13. Human Induced Sea Level Rise Will Continue for Centuries Meters of Sea Level Rise 5 3 1 Source: The Copenhagen Diagnosis, Allison, et al. (2009) 0.2 Meter Rise 1 Meter will Submerge Over 2 Million sq. km of Land Where ~150 Million People Live, Mostly in Asia
14. The Transition to Climate Adaptive Infrastructure: “Rising Currents” Exhibit at Museum of Modern Art New York City's Harbor & Coastline -- How it Could be Restructured to Deal with the Rising Sea Level www.moma.org/explore/inside_out/category/rising-currents#description New Ways to Occupy the Harbor With Adaptive “Soft” Infrastructures