1) The solar energy sector in the Toronto Region is growing, with over 200 companies involved in solar technologies and estimated 5,900 employees. The region is a hub for R&D in the solar field, with prominent research institutes and over 80 experts.
2) Ontario has become a major market for solar energy in Canada and North America due to incentive programs like the Green Energy Act and Feed-in Tariff. This has led to significant investment announcements and new solar manufacturing facilities opening in the region.
3) The Toronto Region is a leader in Canada for scientific research, publications, and patents related to solar energy. Researchers are working on innovations to increase efficiency and lower costs of solar technologies.
The summary provides the following key points in 3 sentences:
The Canadian plastics industry is made up of nearly 3,000 companies, over 100,000 workers, and $33 billion in revenue. The industry is concentrated in Ontario, Quebec, Alberta, and British Columbia, with Ontario home to the highest number of plastics businesses. The Toronto Region is a major hub for the industry, containing 23% of Canadian plastics businesses, employing one-third of the national plastics workforce, and benefiting from synergies between processors, machinery manufacturers, and mold makers.
The document summarizes key statistics about the economic status and performance of the Toronto region:
- The Toronto region generated $349 billion in GDP in 2009, larger than the economies of Korea, Finland, Austria or Switzerland.
- It ranks highly in indexes for the soundness of its banking system, ease of doing business, and economic potential.
- The region is home to over 7 million people and is a hub for research and development clusters, ranking in the top 5 in North America for 18 strategic clusters.
- Companies based in the Toronto region like RIM and Open Text have experienced significant revenue growth, and the region attracts investment from companies such as IBM, Sanofi Pasteur, Xerox
This document provides an overview of hydrogen and fuel cell technologies in Ontario, Canada. It discusses Ontario's strengths in fuel cell research and development, including its researchers, industry leaders like Hydrogenics, and networks that support collaboration. The Toronto region is a major hub for the industry, home to 80% of Ontario's hydrogen companies and a leader in areas like PEM fuel cells. Universities in the region conduct cutting-edge research and work with industry, supporting the development of advanced materials, catalysts, and systems. The region has received over $8 million in national research funding and generates 27% of Canada's publications in the field.
Este documento proporciona información sobre el enfoque del paciente diabético. Cubre temas como el diagnóstico, clasificación, metas de control glucémico, complicaciones y su manejo, así como la educación al paciente sobre el cuidado del pie diabético.
This document discusses the growing issue of large quantities of data from scientific research and simulations. It notes that data volumes are doubling every 9 months for genomic sequencing and that various scientific projects are now generating petabytes and exabytes of data. Current solutions for data management and analysis are often ad-hoc and inadequate for small and medium scale research. The document advocates for a national research cyberinfrastructure strategy in Canada that could provide standardized services and leverage partnerships with international organizations and commercial cloud providers to support scientists in dealing with large and complex research data. It raises questions about leadership and roles for universities, research organizations, and government in developing solutions.
Indian Institute of Technology Madras is a leading public technical university located in Chennai, India. It was established in 1959 with assistance from West Germany. IIT Madras is ranked as the #1 university in India by the National Institutional Ranking Framework. It has over 10,000 students and 50,000 alumni. The campus covers 620 acres and has 16 academic departments across engineering, science, and humanities. IIT Madras is known for its research excellence, having spent over Rs. 536 crores on sponsored research projects in 2018-2019. It also operates a successful research park that is home to 85 R&D companies and 180 startups.
Sangiovanni Vincentelli Gruppo 2003 Insieme Per La Ricerca Milano 21 SettembreScienzainrete
The document discusses the relationship between universities and industry in the United States. It notes that federal research support is shifting to more industrial and private support. This represents a sea change in research funding models. The document advocates for organizing university research around "grand challenges" and "use-inspired basic research," with energy and health cited as examples. It also discusses models of collaborative research between universities, government and industry.
1) The solar energy sector in the Toronto Region is growing, with over 200 companies involved in solar technologies and estimated 5,900 employees. The region is a hub for R&D in the solar field, with prominent research institutes and over 80 experts.
2) Ontario has become a major market for solar energy in Canada and North America due to incentive programs like the Green Energy Act and Feed-in Tariff. This has led to significant investment announcements and new solar manufacturing facilities opening in the region.
3) The Toronto Region is a leader in Canada for scientific research, publications, and patents related to solar energy. Researchers are working on innovations to increase efficiency and lower costs of solar technologies.
The summary provides the following key points in 3 sentences:
The Canadian plastics industry is made up of nearly 3,000 companies, over 100,000 workers, and $33 billion in revenue. The industry is concentrated in Ontario, Quebec, Alberta, and British Columbia, with Ontario home to the highest number of plastics businesses. The Toronto Region is a major hub for the industry, containing 23% of Canadian plastics businesses, employing one-third of the national plastics workforce, and benefiting from synergies between processors, machinery manufacturers, and mold makers.
The document summarizes key statistics about the economic status and performance of the Toronto region:
- The Toronto region generated $349 billion in GDP in 2009, larger than the economies of Korea, Finland, Austria or Switzerland.
- It ranks highly in indexes for the soundness of its banking system, ease of doing business, and economic potential.
- The region is home to over 7 million people and is a hub for research and development clusters, ranking in the top 5 in North America for 18 strategic clusters.
- Companies based in the Toronto region like RIM and Open Text have experienced significant revenue growth, and the region attracts investment from companies such as IBM, Sanofi Pasteur, Xerox
This document provides an overview of hydrogen and fuel cell technologies in Ontario, Canada. It discusses Ontario's strengths in fuel cell research and development, including its researchers, industry leaders like Hydrogenics, and networks that support collaboration. The Toronto region is a major hub for the industry, home to 80% of Ontario's hydrogen companies and a leader in areas like PEM fuel cells. Universities in the region conduct cutting-edge research and work with industry, supporting the development of advanced materials, catalysts, and systems. The region has received over $8 million in national research funding and generates 27% of Canada's publications in the field.
Este documento proporciona información sobre el enfoque del paciente diabético. Cubre temas como el diagnóstico, clasificación, metas de control glucémico, complicaciones y su manejo, así como la educación al paciente sobre el cuidado del pie diabético.
This document discusses the growing issue of large quantities of data from scientific research and simulations. It notes that data volumes are doubling every 9 months for genomic sequencing and that various scientific projects are now generating petabytes and exabytes of data. Current solutions for data management and analysis are often ad-hoc and inadequate for small and medium scale research. The document advocates for a national research cyberinfrastructure strategy in Canada that could provide standardized services and leverage partnerships with international organizations and commercial cloud providers to support scientists in dealing with large and complex research data. It raises questions about leadership and roles for universities, research organizations, and government in developing solutions.
Indian Institute of Technology Madras is a leading public technical university located in Chennai, India. It was established in 1959 with assistance from West Germany. IIT Madras is ranked as the #1 university in India by the National Institutional Ranking Framework. It has over 10,000 students and 50,000 alumni. The campus covers 620 acres and has 16 academic departments across engineering, science, and humanities. IIT Madras is known for its research excellence, having spent over Rs. 536 crores on sponsored research projects in 2018-2019. It also operates a successful research park that is home to 85 R&D companies and 180 startups.
Sangiovanni Vincentelli Gruppo 2003 Insieme Per La Ricerca Milano 21 SettembreScienzainrete
The document discusses the relationship between universities and industry in the United States. It notes that federal research support is shifting to more industrial and private support. This represents a sea change in research funding models. The document advocates for organizing university research around "grand challenges" and "use-inspired basic research," with energy and health cited as examples. It also discusses models of collaborative research between universities, government and industry.
The document summarizes the agenda and priorities of the Technology Strategy Board in supporting innovation, open collaboration, and working with Science Cities. The Technology Strategy Board invests £1 billion over 3 years to drive the innovation climate in areas like low carbon technologies, digital economy, and life sciences. It encourages open innovation through various programs including Innovation Platforms, SBRI, collaborative R&D competitions, Knowledge Transfer Networks, and working with businesses, universities, and other organizations. Major focus areas include low carbon vehicles, digital technologies, and regenerative medicine.
The document outlines Texas Tech University's plans to establish the National Institute for Renewable Energy (NIRE) and the National Wind Resource Center (NWRC) to conduct research, develop workforce training programs, and commercialize renewable energy technologies through partnerships with industry, government agencies, and other academic institutions with an initial investment of over $500 million from various public and private sources.
Nanotechnology: New Prospects for Jobs in Houston, Texastonya.m.britton
Dr. Wade Adams, Executive Director, Richard Smalley Institute of Nanoscale Science and Technology presented at the High Tech Conference and Career Fair, Lone Star College-Montgomery, September 24, 2009. The event was co-hosted by the Business and Social Sciences Division. Contact Tonya Britton, tonya.m.britton@lonestar.edu for information.
The Packard Foundation has historically supported basic research, applied science, science capacity building and science education. Today we heavily focus on user engagement to ensure that the results of science inform decisions through effective science communications and through use-inspired research, in which decision-makers and other users participate in identifying questions to be studied.
The document describes the origins and goals of Cornell University Sustainable Design. It began with a solar decathlon team that was too prescriptive, providing an opportunity to explore new technologies. This led to various grants and partnerships that aimed to create sustainable structures through research and innovation. The goal is to build a modular, on-campus research facility to test cutting-edge designs and technologies through various research topics. Students are encouraged to get involved in the interdisciplinary teams to gain experience and make an impact through sustainable design.
I gave this talk to http://www.theiet.org/ on Thu 26th Feb 2010.
It gives an overview of the TSSG (Telecommunications Software & Systems Group). The focus is on the unique model of balancing basic research, applied research and commercialisation activity (roughloy equally) in a research centre in Ireland.
The next part was a call to arms to migrate to IPv6, giving the historical context of IPv4 depletion.
Finally a note was made of the TSSG's progress towards IPv6 deployment, and of our research activity since 199 in various research themes linked to IPv6, particularly SHIM6.
Medical Imaging - Opportunities for Business Seminar
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The document provides an overview and summary of the nanotechnology sector including key details on investment trends, notable companies, markets, and recent news. Some of the key points covered include total funding of $7.2B, 656 funded companies, 3 unicorns, notable investors including Oxford Technology and Anzu Partners, top markets like drug delivery and graphene, and publicly traded companies such as Aduro, Kala Pharmaceuticals, and Taiwan Liposome Company.
The UKOLN Innovation Support Centre (ISC) supports technical innovation in UK higher and further education through three main activities: direct programme support, cross-programme support, and infrastructure development. It focuses on establishing continuity, reliability, and close collaboration with its funder JISC. The ISC works with communities of practice to more cost-effectively build sector-wide capacity and give strategic input to funders. It aims to shift emphasis from direct engagement to empowering communities to support themselves and institutions.
The document provides information about the College of Engineering at UC Santa Barbara, including its mission, facts and figures, unique attributes, top-notch faculty, impact of UCSB technology, areas of research that will transform society, and areas of technology leadership including materials science, high-speed electronics, photonics, and nanotechnology.
Crann lab equipment available for industry - May 2010Brendan Ring
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The document summarizes the National Bee Diagnostic Centre, a partnership between GPRC and AAFC. It provides an overview of the centre's vision to be a state-of-the-art diagnostic facility, its location at the AAFC Beaverlodge Research Farm staffed by GPRC, and the diagnostic services it will provide related to honeybee pests, pathogens, diseases and more. Funding partners for the centre include RADF and WED.
Understanding the Big Picture of e-ScienceAndrew Sallans
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The East of England is a major center for medical technologies and healthcare companies, contributing £500m annually to the economy. It is home to over 400 healthcare companies and 5,000 expert employees. The region contributes 25% of the UK's total R&D spending, three times the national average, and is a global leader in areas like drug delivery, medical materials, diagnostics and nanotechnology due to collaboration between its universities, hospitals, and industry partners. This document provides information on organizations and facilities supporting medical innovation through research, product development, and commercialization in the East of England region.
This is the dept. newsletter for the year 2011-2012 released by Mechanical Engineering Dept. of Dayananda Sagar College of Engineering, Bangalore, Karnataka, India.
UK e-Infrastructure for Research - UK/USA HPC Workshop, Oxford, July 2015Martin Hamilton
The document summarizes the UK's investments in e-infrastructure for research from 2011-2015. It discusses the major investments made in high performance computing (HPC), networking infrastructure, and big data projects. The investments totaled £160 million in 2011-2012, £189 million in 2012-2013, and £257 million in 2014-2015. It also summarizes the results of a survey of the UK's e-infrastructure, including details on the largest HPC systems and datasets. Finally, it mentions that the Research Councils UK (RCUK) developed a roadmap for the UK's e-infrastructure with a vision for an integrated infrastructure to support researchers.
The document discusses MIT's relationships with industry through research funding and partnerships. It provides statistics on industry-sponsored research funding at MIT, which totaled $100.3 million or 16% of MIT's total research funding in FY2008. The document also outlines several programs that facilitate collaboration between MIT and industry, such as the Industrial Liaison Program, the Deshpande Center for Technological Innovation, and MIT's Technology Licensing Office. It discusses how these programs help transfer MIT technologies and ideas to the commercial sector.
This document summarizes Israel's life sciences industry and investment opportunities. Israel has a strong life sciences sector, with the highest civilian R&D spending as a percentage of GDP globally. Key sectors include biotechnology, pharmaceuticals, and medical devices. Israel has developed blockbuster drugs and medical technologies. It also has a robust stem cell research sector. Foreign companies have established R&D centers in Israel to take advantage of the innovative ecosystem and government support programs. The Investment Promotion Center encourages investors to establish operations in Israel to access these opportunities.
Opening Up Innovation at NASA - NASA\CoECI - Steve RaderSteve Rader
NASA's Center of Excellence for Collaborative Innovation (CoECI) educates the NASA workforce on crowdsourcing and challenges. It makes these tools easy to use by reducing barriers. CoECI has completed over 333 challenges on topics like software, algorithms, design, and more. Challenges provide significant cost savings over traditional contracts, often 40% on average. CoECI also helps manage the challenge pipeline and implements lightweight processes to promote adoption of open innovation across NASA.
Opening Up Innovation at NASA (NASA's Open Innovation Toolkit and Experience)Crowdsourcing Week
NASA's Center of Excellence for Collaborative Innovation (CoECI) educates the NASA workforce on crowdsourcing and challenges. It makes these tools easy to use by reducing barriers. CoECI has completed over 333 challenges on topics like software, algorithms, design, and more. Challenges provide significant cost savings over traditional contracts, often 40% on average. CoECI also helps manage the challenge pipeline and implements lightweight processes to promote adoption of open innovation across NASA.
The Toronto Region is a leader in behavioural and physiological biometrics, an off-shoot of the region's strong cluster in IT Security and Cryptography.
The Toronto Region is a global leader in stem cell research. The region has a large concentration of research centres conducting high-impact, high-value research. More than 70 scientists and principal investigators focuson five broad areas: cancer stem cells, adult stem cells, embryonic stem cells, regenerative medicine, and bioengineering/tissue engineering.
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The UKOLN Innovation Support Centre (ISC) supports technical innovation in UK higher and further education through three main activities: direct programme support, cross-programme support, and infrastructure development. It focuses on establishing continuity, reliability, and close collaboration with its funder JISC. The ISC works with communities of practice to more cost-effectively build sector-wide capacity and give strategic input to funders. It aims to shift emphasis from direct engagement to empowering communities to support themselves and institutions.
The document provides information about the College of Engineering at UC Santa Barbara, including its mission, facts and figures, unique attributes, top-notch faculty, impact of UCSB technology, areas of research that will transform society, and areas of technology leadership including materials science, high-speed electronics, photonics, and nanotechnology.
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The Toronto Region is a leader in behavioural and physiological biometrics, an off-shoot of the region's strong cluster in IT Security and Cryptography.
The Toronto Region is a global leader in stem cell research. The region has a large concentration of research centres conducting high-impact, high-value research. More than 70 scientists and principal investigators focuson five broad areas: cancer stem cells, adult stem cells, embryonic stem cells, regenerative medicine, and bioengineering/tissue engineering.
The second Annual Toronto Region Innovation Gauge (ATRIG), a report card on the Toronto Region's innovation performance, examines a range of indicators to assess the strengths and weaknesses of the region's innovation system. We welcome feedback and suggestions for future reports
The Toronto Region is ranked as one of the world's most successful economies. The region generates more than 20 per cent of Canada's GDP and is home to over 40 per cent of the country's head offices. Some comparable regions have larger R&D clusters in specific areas, but the Toronto Region has the combined power of clusters in several strategic fields.
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• Ranked #1 in Canada for the most publications on water-related topics: adsorption; dialysis/osmosis/reverse osmosis/hyperfiltration; filtration; flocculation/precipitation; and sedmentation. Canada ranks in the top 10 globally in these areas.
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2. Dr. Alan Bernstein, Executive Director
of the Global HIV Vaccine Enterprise
(New York)
Advanced Research Collaborations Perimeter Institute for
MaRS Centre Theoretical Physics
Innovation Synergy Centre in
Markham
• Future home of CanMET (MTL) Federal
Canadian Institute for Advanced
Materials Technology Laboratory and
GM Centre for Automotive Materials
Research Ontario Institute for Cancer Research
• Visionary 750,000 sq ft convergence facility • Spearheaded by RIM’s founder Mike Lazaridis and Corrosion
• Houses public and private research labs, • $175 million endowment
incubators, venture capitalists, and • 300-plus visiting scientists per year
Advanced Research Resources
support services • Shared knowledge agreements with
30 universities worldwide • Nonprofit business advisory hub to help
businesses with issues of growth and
Waterloo Acceleration Centre
“Toronto’s health research
development
Ontario Centres of Excellence
• Globally recognized • $142 million in funding by the Government
community is simply one of
• International, trans-disciplinary research of Ontario
the best anywhere.”
collaborations • Multi-disciplinary and multi-institutional
McMaster Innovation Park
• 300-plus of the world’s best scientists from collaboration on complex questions
• Canada Centre for Electron Microscopy
13 countries
• ORION/CANARIE – High bandwidth networks
• 21,000 sq ft site strategically located in the • The University of Toronto Structural
• 5 separate institutes University of Waterloo Research & Genomics Consortium
• Helping companies take discoveries to the Technology Park • Automotive Centre of Excellence at
marketplace University of Ontario Institute of Technology
• Ontario Tumour Bank
• 555,000 sq ft innovation centre now under
Universities Research Hospitals
• Positron Emission Tomography Centre at the
construction
SPOTLIGHT ON…
Centre for Addiction and Mental Health
Fields Institute
McMaster University Baycrest Centre Institute for Quantum Computing
Ontario College of Art and Design Bloorview Kids Rehab Li Ka Shing Knowledge Institute
Ryerson University Centre for Addiction and Mental Health McEwan Centre for Regenerative Medicine
Many Corporate Research Centres
University of Guelph Hamilton Health Sciences Ontario Institute for Cancer Research
including:
Perimeter Institute for Theoretical Physics
Colleges/Institutes of Technology
University of Ontario Institute of Technology Mount Sinai Hospital
University of Toronto St. Joseph’s Healthcare Samuel Lunenfeld Research Institute
University of Waterloo St. Michael’s Terrence Donnelly Centre for Cellular and
Biomolecular Research
Wilfrid Laurier University Sunnybrook Health Sciences Centre
York University The Hospital for Sick Children
Over 300 Leading Research Centres
Toronto Rehabilitation Institute
including:
University Health Network (Toronto General,
Centennial College Bell Canada Wireless & Wireless Broadband
Toronto Western and Princess Margaret
Innovation Centre
Conestoga College – Institute of Technology hospitals)
and Advanced Learning IBM Toronto Software Lab
Women’s College Hospital
Durham College Lilly Research & Development Centre
George Brown College Xerox Research Centre Canada
Humber College Institute of Technology
and Advanced Learning Bell University Labs
Mohawk College of Applied Arts Brockhouse Institute for Materials Research
OUTSTANDING RESEARCH ORGANIZATIONS
and Technology Canadian Institute for Advanced Research
Seneca College of Applied Arts and Technology Emerging Communications Technology Institute
Sheridan College Institute of Technology
Contact the Toronto Region Research Alliance at 416-673-6670 or visit www.trra.ca