One of the main objectives of the HBP is to create and operate six Information and Communications Technology (ICT) Platforms, which are the core of the emerging HBP research infrastructure for brain research. Starting 30 March 2016, the scientific community worldwide can begin exploring the initial versions of the six HBP ICT Platforms. The Platforms embody the key objectives of the HBP, to gather and disseminate data describing the brain, to simulate and build models of the brain, to develop brain-inspired computing and robotics, and to create a global scientific community around the developing research infrastructure. The Platforms consist of prototype hardware, software tools, databases, programming interfaces, and initial data-sets, which will be refined and expanded on an on-going basis in close collaboration with end-users. The development of the Platforms has been the result of an extensive multidisciplinary effort involving more than 750 scientific collaborators and engineers from 114 institutions in 24 countries. The Platforms are as follows: the Neuroinformatics Platform, the Brain Simulation Platform, the High Performance Analytics and Computing Platform, the Medical Informatics Platform, the Neuromorphic Computing Platform and the Neurorobotics Platform. ... [Information of the supplier, modified]
STERNA (Semantic Web-based Thematic European Reference Network Application) is the contribution of twelve European natural history museums and other institutions that collect and hold content on biodiversity, wildlife and nature in general, to the objectives and realisation of a European Digital Library. The project specifically addresses the many small cultural heritage institutions and content providers that want to actively participate and contribute to the European Digital Library initiative but lack both technical skills and financial resources to do so. To help content providers to make their valuable and rich resources available to a wider audience, our vision is to create a dispersed and networked information space, supported and sustained by a member network of autonomous content organisations which serves users with a special interest in nature and wildlife worldwide. The STERNA project is supported and partly funded by the eContentplus programme of the European Commission. ... [Information of the supplier]
BioNLP is an initiative by the Center for Computational Pharmacology (CCP) at the University of Colorado Denver Health Sciences Center to create and distribute code, software, and data for applying natural language processing techniques to biomedical texts. There are many projects associated with BioNLP. The aim of the CCP is to provide novel algorithms and knowledge-based tools for the analysis and interpretation of high-throughput molecular biology data and for information extraction from and management of the biomedical literature. ... [Information of the supplier]
The goals of the TaxonConcept project are: (1) Create Linked Open Data (LOD) Identifiers for Species Concepts; (2) Link Species Concepts to Names in the Global Names Initiative Database; (3)Investigate using LOD Methods to match Specimens and related Data to Species Concepts. [Information of the supplier]
Biodiversity information constitutes an important source of knowledge for many disciplines. For example, it is fundamental to supporting conservation and for understanding the potential impacts of climate change. External and internal factors call for an urgent modernization of the production and accessibility of these data, information and knowledge. These external factors include the need for biodiversity data to support decisions for regional and taxon focused conservation. Internal factors are a consequence of the opportunities of the digital revolution, and the need to reconcile the escalating volume of data with the requirement to curate it by a fixed number of taxonomists. The pro-iBiosphere project has been launched for a period of two years (September 1st, 2012 to August 31st, 2014), with the goal of addressing technical and semantic interoperability challenges and preparing the ground for the creation of a system for intelligent management of biodiversity knowledge which will improve the present system of taxonomic literature. ... [Information of the supplier]
Grid computing is regarded as one of the critical success factors in biomedical Research. The joint project MediGRID unifies well known research institutes in the area of medicine, biomedical informatics and life sciences into a consortium. Numerous associated partners from industry, healthcare and research facilities ensure a broad representation of these communities. The main goal of MediGRID is the Development of a Grid middleware integration platform enabling eScience services for biomedical life science. Therefore the consortium allocated the tasks in different modules. The four methodological modules (middleware, ontology, resource fusion and eScience) plan to incrementally develop and provide a Grid infrastructure while taking into account the need of the biomedical users. The user communities are represented in three research modules for biomedical informatics, image processing and clinical research. ... [Information of the supplier]
An international research consortium has been formed to create the most detailed and medically useful picture to date of human genetic variation. The 1000 Genomes Project will involve sequencing the genomes of at least a thousand people from around the world. The project will receive major support from the Wellcome Trust Sanger Institute in Hinxton, England, the Beijing Genomics Institute Shenzhen in China and the National Human Genome Research Institute (NHGRI), part of the National Institutes of Health (NIH). Drawing on the expertise of multidisciplinary research teams, the 1000 Genomes Project will develop a new map of the human genome that will provide a view of biomedically relevant DNA variations at a resolution unmatched by current resources. As with other major human genome reference projects, data from the 1000 Genomes Project will be made swiftly available to the worldwide scientific community through freely accessible public databases. ... [Information of the supplier]
The NCI's Cancer Genome Anatomy Project sought to determine the gene expression profiles of normal, precancer, and cancer cells, leading eventually to improved detection, diagnosis, and treatment for the patient. Resources generated by the CGAP initiative are available to the broad cancer community. Interconnected modules provide access to all CGAP data, bioinformatic analysis tools, and biological resources allowing the user to find "in silico" answers to biological questions in a fraction of the time it once took in the laboratory. ... [Information of the supplier]
In September, 2001, the National Institute of Diabetes, Digestive, and Kidney Diseases (NIDDK) convened a working group of its National Advisory Council to develop a strategic plan for Stem Cells and Developmental Biology. The working group made several recommendations, with the overall goals of providing new strategies for repairing or replacing damaged organs and generating new insights into pathologic processes underlying developmental defects and disease. There is the need for a more thorough understanding of organogenesis so that tissue degeneration and congenital malformations might be prevented and treated. The goal of GUDMAP is a fundamental description of the developing kidney and GU tract. The panel recommended that the following three objectives be combined to form the GUDMAP. a) High throughput in situ hybridization analyses to define the expression pattern of genes expressed in the developing kidney and GU tract, b) High resolution gene expression analyses to define gene expression during developmental time, the overlap in gene expression patterns, and the correlation between boundaries of gene expression and boundaries of anatomic or functional domains and c) Development of a database to house and annotate the above data and to provide rapid access of this data to the entire research community. Microarray analyses and the generation of murine strains with genetic markers are also goals of GUDMAP which serve to bolster the overall aim of defining molecular and cellular anatomy through developmental time. ... [Information of the supplier, modified]
COST is an intergovernmental framework for European Cooperation in Science and Technology, allowing the coordination of nationally-funded research on a European level. COST fosters the establishment of scientific excellence in the nine key domains. The domain "Biomedicine and Molecular Biosciences" (BMBS) covers all areas of medicine as practiced in Europe and basic, preclinical and clinical medical research developed to materialise the “bench to bedside” concept. ... [Information of the supplier, modified]