Sentences with phrase «scientific research infrastructure»
In SGA1, the HBP will extend the initial capabilities of these Platforms and transform them into an integrated scientific research infrastructure.
http://lens.unifi.it/
The overall aim of the Human Brain Project (HBP) is to put in place a cutting - edge, ICT - based scientific research infrastructure, that will permit scientific and industrial researchers to advance our knowledge in the fields of neuroscience, computing and brain - related medicine.
Not exact matches
He told Newsday those issues include «major infrastructure investments to create jobs, affordable higher education, criminal justice reforms and more funding for scientific research,» the paper wrote in its endorsement of him.
In her Oklahoma twang, Ms. Warren said her rags - to - riches story reflected the promise of mid-century America, when post-New Deal governments invested heavily in higher education, scientific research and infrastructure.
Higgins says the United States's lack of investments in scientific research, infrastructure and education puts the nation behind.
He will accuse the Conservative government of undermining the potential of UK industries by cutting scientific research spending as well as planning to reduce investment in infrastructure like housing and transport.
«My fellowship work has opened my eyes to the critical role that government plays in supporting critical research infrastructure, like academic research programs, that maintain U.S. leadership in scientific R&D,» Trinastic said.
The silver lining, he added, is that the scientific community is getting better at building the infrastructure necessary to make research resilient against political interference.
But new federal spending initiatives, such as the Canada Research Chairs and the Canada Foundation for Innovation (CFI) infrastructure grants, are breathing new life into scientific research inResearch Chairs and the Canada Foundation for Innovation (CFI) infrastructure grants, are breathing new life into scientific research inresearch in Canada.
There are severe constraints on scientific research in many of the least developed countries (LDCs), including a scarcity of qualified personnel, poor laboratory infrastructure, and no local investment in research.
I am strictly against reproductive cloning, at the same time arguing in favour of a certain research field with the primary argument that it will improve the scientific and economic infrastructure in Germany.
ASTRONET — a network of European funding agencies and research organizations set up in 2005 to develop a strategy for European astronomy over the next 20 years — was almost done identifying key scientific priorities, and program officials were looking for a postdoctoral scientist to help coordinate the development of a road map to build the necessary infrastructure.
Still, while it is exciting to see the rapid advance in Indian science, the emergence of world - class institutions, and the increase in collaborations and external engagement, Aseem Ansari, a professor of genomics and biochemistry at the University of Wisconsin, Madison and the founder and director of the Khorana and S.N. Bose Scholars exchange programs, reckons «it will take another decade to remodel national research infrastructure and create scientific ecosystems that are comparable to what one has access to at most R1 research institutions in the U.S.»
He also wants CNRS to promote scientific literacy among the general public and French policymakers and «lobby for a greater role of France» in European decisions on large research infrastructure and funding calls.
To foster a favourable environment for the new economy, it has committed billions of dollars to develop education, technology, and infrastructures, including the creation of a world - class center for scientific research and development (R&D).
With an aging population placing increasing demands on entitlement programs like Social Security, and likely federal spending increases for defense and infrastructure programs, budgets for scientific research could come under intense pressure.
KNAW and other organizations praised its proposals to prioritize the country's scientific goals in a «National Research Agenda» to be produced next year, to reduce the pressure on scientists by putting quality over quantity in peer review and to boost large - scale research infrastResearch Agenda» to be produced next year, to reduce the pressure on scientists by putting quality over quantity in peer review and to boost large - scale research infrastresearch infrastructure.
I believe that the current system, in which research is mostly funded and organized at the national level, along with the uneven nature of research infrastructure, is greatest barrier to global scientific collaboration.
A preliminary analysis published yesterday by the Confederation of Spanish Scientific Societies (COSCE) here shows that out of the overall $ 7 billion announced, only $ 2.8 billion — up from last year's $ 2.6 billion — will feed the public research system with funding for research centers, competitive calls for research projects and scholarships, and support to infrastructure.
The 8 % across - the - board reductions, set to take effect in January, are likely to draw heavily from scientific research and spare infrastructure and logistical operations that support experiments in the unforgiving polar environment.
Whether it is promoting or defending a government or consortium's bid for the award of significant international research infrastructure, preparing a Minister or Science Adviser's programme of important meetings abroad, delivering a complex media campaign or drafting proposals for scientific symposia at the highest level, SciCom gets the job done.
Committee Work and Service: Professional: Faculty member of the CSHL Infrastructure and Training to Bring Next - generation Sequence (NGS) Analysis Into Undergraduate Education; Diversity committees for the Society for the Study of Reproduction (SSR) and American Society of Andrology; Phi Kappa Phi, Sigma Xi Scientific Research Society (vice-president and co-chair student research funding with Mary Shaw), Reviewer for a variety of scientific journals (Lab Animal, Andrology, Asian J Andrology, Reproduction, Cell and Tissue Scientific Research Society (vice-president and co-chair student research funding with Mary Shaw), Reviewer for a variety of scientific journals (Lab Animal, Andrology, Asian J Andrology, Reproduction, Cell and Tissue ReResearch Society (vice-president and co-chair student research funding with Mary Shaw), Reviewer for a variety of scientific journals (Lab Animal, Andrology, Asian J Andrology, Reproduction, Cell and Tissue Reresearch funding with Mary Shaw), Reviewer for a variety of scientific journals (Lab Animal, Andrology, Asian J Andrology, Reproduction, Cell and Tissue scientific journals (Lab Animal, Andrology, Asian J Andrology, Reproduction, Cell and Tissue ResearchResearch).
Large European scientific facilities and infrastructures have played a similarly important role in driving collaborative research — the creation of EIROforum in 2002 saw the realisation of a visionary consortium that unites Europe's largest intergovernmental research infrastructure organisations in promoting the quality and impact of European research.
Supercomputing clusters at the National Energy Research Scientific Computing Center (NERSC), a DOE Office of Science User Facility hosted at Berkeley Lab, provide the infrastructure for the Materials Project.
The two sides agree that there exists an enormous potential for cooperation in a remarkably broad range of areas, such as: research programming, training and mobility of researchers, science education, open publishing, technology transfer, innovation, building next generation infrastructures (including e-infrastructures) and global scientific cooperation.
The scientific aspects of project proposals will be evaluated by an expert panel that is independent of the INFRAFRONTIER Research Infrastructure.
«The US Military has partnered with the African scientific and general community for more than 40 years,» according to MHRP director Col. Nelson Michael, M.D., Ph.D. «We have worked on the ground for decades with host nations to build sustainable infrastructure to support infectious diseases research in areas such as HIV, malaria, dengue virus and Ebola.
This two - day meeting for young research group leaders offered career coaching activities, networking, research infrastructure information and a scientific symposium.
Furthermore, over thirty scientists received specialised training on numerous aspects of vaccine development, being provided with a thorough overview of the full vaccine development process, and more than twenty innovative scientific papers were published from TRANSVAC's research and activities (for more information see also tables below and: Geels, M. et al (2015): TRANSVAC research infrastructure — Results and lessons learned from the European network of vaccine research and development.
HZB provides world class largescale research infrastructure for the national and international scientific communities and industry.
It improves access for the users of the INFRAFRONTIER Research Infrastructure by building capacities for systemic phenotyping, archiving and distribution of mouse models and by providing an efficient and transparent access process, based on peer - evaluated scientific excellence.
The INFRAFRONTIER Research Infrastructure provides access to mouse models, data and scientific platforms and services to study the functional role of the genome in human health...
The white paper depicts China's vision for Antarctica as pursuing an approach of peaceful use of Antarctica, safeguarding the stability of the Antarctic Treaty System, elevating Antarctic infrastructure and support capabilities, enhancing scientific investigation and research capability, while calling for strengthened Antarctic environmental protection and coordinating global governance of the continent.
In the United States, the naturopathic medical profession's infrastructure includes accredited educational institutions, professional licensing, national standards of practice, peer review, and a commitment to state - of - the - art scientific research.
In Canada, the naturopathic medical profession's infrastructure includes accredited educational institutions, professional licensing, national standards of practice, participation in many federal health committee initiatives, and a commitment to state - of - the - art scientific research.
Our approach to achieving this goal focuses on three objectives: (1) to develop a reliable, predictive panel of biomarkers (including both biological and bio-behavioral measures) that can identify children, youth, and parents showing evidence of toxic stress, and that can be collected in pediatric primary care settings; (2) to conduct basic, animal and human research on critical periods in development and individual differences in stress susceptibility, thereby informing the timing and design of a suite of new interventions that address the roots of stress - related diseases early in the life cycle; and (3) to build a strong, community - based infrastructure through which scientists, practitioners, parents, and community leaders can apply new scientific insights and innovative measures to the development of more effective interventions in the first three postnatal years.
The lack of public funding for education, health care, physical infrastructure and scientific research directly hurts our ability to compete in the world.
Funds initially came from universities that sponsored research into unrelated agricultural, meteorological, and purely scientific questions, and from corporations that developed instrumentation for industrial processes, and from military services that needed geophysical information and infrastructure for their Cold War operations.
The US CLIVAR Project Office, funded by NASA, NOAA, NSF, and DOE, and operated through the University Corporation for Atmospheric Research (UCAR) Joint Office of Science Support (JOSS), provides the critical infrastructure to enable the planning, implementation, and communication of scientific research activities of the US CLIVAR Research (UCAR) Joint Office of Science Support (JOSS), provides the critical infrastructure to enable the planning, implementation, and communication of scientific research activities of the US CLIVAR research activities of the US CLIVAR Program.
DKRZ is setting new standards with the deployment of this outstanding infrastructure, specifically scaled to support its users» scientific research programs.
TRAILS has been financially supported by various grants from the Netherlands Organization for Scientific Research NWO (Medical Research Council program grant GB - MW 940-38-011; ZonMW Brainpower grant 100-001-004; ZonMw Risk Behavior and Dependence grants 60 -60600-97-118; ZonMw Culture and Health grant 261-98-710; Social Sciences Council medium - sized investment grants GB - MaGW 480-01-006 and GB - MaGW 480-07-001; Social Sciences Council project grants GB - MaGW 452-04-314 and GB - MaGW 452-06-004; NWO large - sized investment grant 175.010.2003.005; NWO Longitudinal Survey and Panel Funding 481-08-013), the Dutch Ministry of Justice (WODC), the European Science Foundation (EuroSTRESS project FP - 006), Biobanking and Biomolecular Resources Research Infrastructure BBMRI - NL (CP 32), the participating universities, and Accare Center for Child and Adolescent Psychiatry.