EOS ground data systems: A description and interface overview

The Earth Observing System (EOS) is planned as a space-based measurement system, earth-science research program, and data and information system (EOSDIS). It will consist of several high data rate spacecraft with multiple earth sensing instruments which provide investigators with a thorough, longterm view of the earth's environment. Up to seven spacecraft may be supported at once, either in operational, checkout, or testing phases; and the average data rate from the EOS satellites in orbit at any one time is expected to be from 18 to 60 Mbps. Providing the data processing and flight operations support for EOS will be the EOSDIS Core System (ECS). The ECS will command and control the spacecraft; process and store the EOS data; provide access to the data for years; and support researchers. The data processing aspects of the ECS consist of a collection of Distributed Active Archive Centers (DAAC's) which perform the product generation, data archive and distribution, and information management services. Flight operations aspects will be provided by the EOS Operations Center, by instrument control centers, and by widely distributed instrument support terminals. The communications and system management aspects will be provided by the EOSDIS Science Network and the System Management Center. In addition to the EOS satellite data, other data sets from earlier earth science missions are also to be added to designated DAAC's. Other ground data systems which will provide support to EOS for acquiring, transporting, processing, and distributing the transformed spacecraft data are currently being defined or are being upgraded for the EOS era. These systems include the Space Network consisting of the Tracking and Data Relay Satellite System (TDRSS), the TDRSS Ground Terminals, and the Network Control Center as well as the night Dynamics Facility, the EOS Data and Operations System, and EOS Communications. This paper briefly describes data handling by the ECS, the support data systems, their interfaces, and their roles

OPTICON: EC Optical Infrared Coordination Network for Astronomy

OPTICON, the ICN Optical Infrared Coordination Network for Astronomy, brings together for the first time the operators of all Europe's medium to large optical-infrared telescopes, the largest corresponding data archives, and several user representatives. The OPTICON partners work with their communities to identify those major challenges for the future development of European optical-infrared astronomy which require Europe-wide collaboration. OPTICON sponsors and coordinates developments towards these goals, involving the entire astronomical community through workshops and meetings targeted towards these agreed common goals of general importance.Comment: to appear in Organizations and Strategies in Astronomy II, Ed. A. Heck, Kluwer Acad. Pub

MEDIN Feasibility Study : archiving oil and gas industry site survey data

This report was commissioned by the Marine Environmental and Information Network (MEDIN) to investigate the feasibility of collecting oil and gas industry site surveys conducted on the UKCS (UK Continental Shelf) for archive in the MEDIN DAC (Data Archive Centre) network. The archive of three principle data types is explored; information about legacy site surveys, catalogues of information about data products associated with site surveys and actual site survey data, which may include a survey report and enclosures and/or a selection of data e.g. side-scan or multibeam, sample descriptions and seismic profiles. The merits of the collection of these data types are explored alongside the cost implications, from both an oil and gas industry contractor’s and a marine geoscientist’s perspective, thereby enabling MEDIN to better understand and make decisions as to which data to concentrate on. The principles and proposed procedures for carrying out the collection of these data types are outlined however the practical details of these will require agreement should any decision be made to proceed. At this stage a further thorough detailed scope will be required in order to formulate procedures, qualify numbers, define activities, identify resources and plan timescales. The time period for the collection of legacy site surveys will require consideration i.e. how far back it is feasible to collect this information, and whether requests should be phased to include surveys acquired within predetermined time intervals. The size of the actual site survey data holdings, the storage capacity required to archive these and the amount of work involved in processing this data into useable and useful formats will require review. Some of these issues may need to be considered on a case-by-case basis. The procedures themselves will require regular review dependent on the response i.e. the volume, types and condition of data received

EOS Data and Information System (EOSDIS)

In the past decade, science and technology have reached levels that permit assessments of global environmental change. Scientific success in understanding global environmental change depends on integration and management of numerous data sources. The Global Change Data and Information System (GCDIS) must provide for the management of data, information dissemination, and technology transfer. The Earth Observing System Data and Information System (EOSDIS) is NASA's portion of this global change information system

The value of research data to the nation

Executive Director’s report Ross Wilkinson, ANDS How can Australia address the challenge of living in bushfire prone city fringes? How can Australia most effectively farm and preserve our precious soil? How can Australia understand the Great Barrier Reef? No single discipline can answer these questions, but to address these challenges data is needed from a range of sources and disciplines. Research data that is well organised and available allows research to make substantial contributions vital to Australia’s future. For example, by drawing upon data that is able to be used by soil scientists, geneticists, plant scientists, climate analysts, and others, it is possible to conduct the multidisciplinary investigations necessary to tackle truly difficult and important challenges. The data might be provided by a Terrestrial Ecosystems Research Network OzFluz tower, insect observations recorded by a citizen through the Atlas of Living Australia, genetic sequencing of insects through a Bioplatforms Australia facility, weather observations by the Bureau of Meteorology, or historical data generated by CSIRO over many decades. Each will provide a part of the jigsaw, but the pieces must be able to be put together. This requires careful collection and organisation, which together deliver enormous value to the country. However, nationally significant problems are often tackled by international cooperation, so Australia’s data assets enable Australian researchers to work with the best in the world, solving problems of both national and international significance. Australia’s data assets and research data infrastructure provide Australian researchers with an excellent platform for international collaboration. Australia has world-leading research data infrastructure: our ability to store, compute, discover, explore, analyse and publish is the best in the world. The ability to capture data through a wide range of capabilities, from the Australian Synchrotron to Integrated Marine Observation System [IMOS: imos.org.au] ocean gliders, the combination of national storage and computation through RDSI, NCI and Pawsey initiatives, the ability to publish and discover data through ANDS, the ability to analyse and explore data through Nectar, and state and local eResearch capabilities, highlights just some of the capabilities that Australian researchers are able to access. Importantly, their international partners are able to work with them using many of these resources. As well, Australian research organisations are assembling many resources to support their research. These include policies, procedures, practical infrastructure, and very importantly – people! The eResearch team and the data librarians are always keen to help. This issue of Share highlights how the data resources of Australia are providing a very substantial national benefit, and how that benefit is being realised