![]() Continuous sampling is planned to progressively expand from the platform vicinity down to the end of the continental slope - to about 3000m depth, the surrounding seabed and water column, then scale up to the region, through mobile systems and fixed open-ocean stations. Related activities will encompass climate change parameters characterization as well as important regional specificities like the preservation and study of the region's unique marine biodiversity and sparsely explored seabed. The second component is to contribute to the global effort towards continuous and real-time multidisciplinary ocean observations. While these areas and related infrastructures still are at definition stage, an anticipated prerequisite is that testbed observing assets will have to provide a broad range of measurements in agreement with, as well as in contribution to, current and upcoming environmental and technical standards. This will generally take place in dedicated oceanic experimental areas, from the vicinity of the platform to the deep ocean. The first component of its two-fold mission is to respond to systems and processes' in-situ environmental testing, certification and benchmarking requirements. LlÃnas, OctavioĪ permanent multidisciplinary ocean observing system is planned as both a technological and scientific infrastructure for the Canary Islands Oceanic Platform (PLOCAN). It was also concluded that there are no technical, schedule, or obstacles that would prevent achieving the objectives of the total 5-year CO-OPS program.ĭefining the Canary Islands Oceanic Platform (PLOCAN) Observing System missionĭelory, Eric Hernández-Brito, JoaquÃn. ![]() Past work and methods of gathering the required observational data were assessed and rough-order-of magnitude cost estimates have shown the CO-OPS system to be most cost effective (less than $30 million within a 10 year lifetime). ![]() In addition, potential applications in: earth system science, space system sciences, and test and verification (satellite sensors and data management techniques) were considered. This systems engineering feasibility study addressed identified existing requirements such as: carbon dioxide observational data requirements, communications requirements, and eye-in-the-sky requirements of other groups like the Defense Department, the Forestry Service, and the Coast Guard. The Carbon Dioxide Observational Platform System (CO-OPS) is a near-space, geostationary, multi-user, unmanned microwave powered monitoring platform system. Carbon Dioxide Observational Platform System (CO-OPS), feasibility studyīouquet, D.
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