The next stop: NASA’s Kennedy Space Center, Florida. GOES-U is the size of a small school bus and weighs over 6,000 pounds! After packing GOES-U in a high-tech shipping container that acts as a mobile clean room, a crew drove the satellite to Buckley Space Force Base in Aurora, Colorado, and loaded it onto a C-5M Super Galaxy cargo transport. On January 22, the GOES-U team carefully packed and shipped GOES-U from a Lockheed Martin facility in Littleton, Colorado - where it was built, integrated with its instruments, and tested, to a facility in Florida - where it arrived on January 23 and will undergo final preparations for launch. Before that happens, the spacecraft must complete several final milestones. The GOES-U team has spent years building the instruments and spacecraft, integrating all the satellite’s components, and conducting rigorous testing to ensure it can withstand the harsh launch conditions and successfully take up residence 22,236 miles above Earth. NASA and SpaceX are targeting no earlier than April 30 for the launch of GOES-U on a Falcon Heavy rocket. NOAA’s GOES-U, the fourth and final satellite in the Geostationary Operational Environmental Satellites (GOES) – R Series, the Western Hemisphere’s most advanced weather-observing and environmental monitoring system, is entering the final stage of preparations before liftoff. Western longitude values are entered as negative numbers.Ģ) Load the software Google Satellite Maps Downloader. Don’t have more than 0.01 deg in latitudinal and longitudinal direction (approximately 1 km) to avoid geographical distortion. Downloaded images are only for orientation and non-commercial use.ġ) Define the coordinates in lat / long decimal degrees (for example: Left Longitude: 0.04 > Right Longitude: 0.05 > Top Latitude: 5.76 > Bottom Latitude: 5.75 ). Legal conditions have to be checked on a case-by-case base they can change on short notice. It does not authorize the use of these images. Legal Note: Documentation below explains the technical process. Only for technical gurus, not for production purposes, the earlier description of the download process is kept in this Chapter. The error due to different projection can only be neglected on extremely large scales. Google Earth does not display images in linear UTM projection. Often, major towns show a good resolution (often less than a meter), but not so outside urban areas.Ĥ. Google image resolution are not always good enough for spatial planning. If the images satisfy quality expectations on 3 or 5 or 10 m: Who knows?ģ. Google does not give any guarantee on accuracy. (As far as I know, only possible against payment).Ģ. Images can only be downloaded and used, when a user agreement has been settled. Google images are the intellectual property of Google or the image provider. It is therefore NOT recommended to use Google images for professional work. While it appears, that Google Earth has raster images, which can be used in LUPMIS and therefore no need to procure data, this is not feasible for a variety of reasons as explained below. Level of expertise required for this Chapter: Advamced general GIS training A16.5 Surveying by distances from fixed points.A16.3 Surveying by close-compass traverse.A16.2 Surveying by open-compass traverse.A15.1 Population projected and planned population forecast.A6.7 Technical remarks to classifications.A6.3 Structure plan classification, 1st approximation.Classification for land use mapping and planning A2.4 Process of orthophoto map production.Background to cartography and raster images 7.5.5 Technical notes for Structure Plan.7.2.1 Concept and preparation of land use map.7.2 Land use mapping for Structure Plan.5.4.7 Transfer GIS data to other LUPMIS installations.5.4.4 Export LUPMIS data to other programs. ![]() ![]() 5.4 Communication with other GIS programs.5.3.1 Import raster map from external source.5.2.6 Convert vector data to raster map.5.2.4 Import vector map from lat / long.5.2.3 Import vector map from Ghana Grid (meters).5.2.2 Import vector map from Ghana Grid (feet).5.2.1 Import vector map from external source.5.1.5 Convert point coordinates from Ghana Clark 1880 (feet).5.1.4 Convert point coordinates from Ghana War Office (feet).5.1.3 Convert point coordinates between projections.5.1.2 Import list of points from Excel file.5.1.1 Import list of points from text file.4.9 Transfer attribute data from points to polygons.4.5 Attribute matrix of multiple layers.3.14 Transfer styles from one layer to another.3.9 Move or copy individual features on a map.3.5 Derive statistics (area size, length).2.19 Digitize parcels from sector layout.
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