This zip file contains geodatabases with raster mosaic datasets. The raster mosaic datasets consist of georeferenced tiff images of mineral potential maps, their associated metadata, and descriptive information about the images. These images are duplicates of the images found in the georeferenced tiff images zip file. There are four geodatabases containing the raster mosaic datasets, one for each of the four SaMiRA report areas: North-Central Montana; North-Central Idaho; Southwestern and South-Central Wyoming and Bear River Watershed; and Nevada Borderlands. The georeferenced images were clipped to the extent of the map and all explanatory text, gathered from map explanations or report text was imported into the raster mosaic dataset database as ‘Footprint’ layer attributes. The data compiled into the 'Footprint' layer tables contains the figure caption from the original map, online linkage to the source report when available, and information on the assessed commodities according to the legal definition of mineral resources—metallic, non-metallic, leasable non-fuel, leasable fuel, geothermal, paleontological, and saleable. To use the raster mosaic datasets in ArcMap, click on “add data”, double click on the [filename].gdb, and add the item titled [filename]_raster_mosaic. This will add all of the images within the geodatabase as part of the raster mosaic dataset. Once added to ArcMap, the raster mosaic dataset appears as a group of three layers under the mosaic dataset. The first item in the group is the ‘Boundary’, which contains a single polygon representing the extent of all images in the dataset. The second item is the ‘Footprint’, which contains polygons representing the extent of each individual image in the dataset. The ‘Footprint’ layer also contains the attribute table data associated with each of the images. The third item is the ‘Image’ layer and contains the images in the dataset. The images are overlapping and must be selected and locked, or queried in order to be viewed one at a time. Images can be selected from the attribute table, or can be selected using the direct select tool. When using the direct select tool, you will need to deselect the ‘overviews’ after clicking on an image or group of images. To do this, right click on the ‘Footprint’ layer and hover over ‘Selection’, then click ‘Reselect Only Primary Rasters’. To lock a selected image after selecting it, right-click on the ‘Footprint’ layer in the table of contents window and hover over ‘Selection’, then click ‘Lock To Selected Rasters’. Another way to view a single image is to run a definition query on the image. This is done by right clicking on the raster mosaic in the table of contents and opening the layer properties box. Then click on the ‘Definition Query’ tab and create a query for the desired image.

Subscribers can find out export and import data of 23 countries by HS code or product’s name. This demo is helpful for market analysis.

Subscribers can find out export and import data of 23 countries by HS code or product’s name. This demo is helpful for market analysis.

Note: this is a downloadable tile package (.tpkx format) for use in ArcGIS desktop software. The online tiled image service can be found here. Each time the Multibeam Bathymetry Mosaic is updated, this tile package will be deleted and replaced with a new one (with a new URL). Please refer to the tiled layer page for a link to the current tile package.Bathymetry is the measurement of the depth of the ocean floor, data that can be used for a variety of purposes such as: nautical charting, oceanographic research and modeling, habitat classification, maritime commerce, and recreational applications. The Multibeam Bathymetry Database (MBBDB) at NCEI collects and archives multibeam data from the earliest commercial installations (circa 1980) through today's modern high-resolution collections. Data are acquired from both U.S. and international government and academic sources (see individual cruise metadata records for source information) and consist of the raw (as collected) sonar data files. Datasets may also include processed or edited versions of the sonar data, ancillary data (i.e., sound velocity data), derived products (i.e., grids), and/or metadata for the data collection. The MBBDB provides data that span the globe and are discoverable and accessible via map interface or text-only search options. More information about the database can be found here.This ArcGIS image service provides a color shaded relief visualization of gridded multibeam data from the entire archive. Each individual survey has been gridded at a 3 arc-second cell size (~100m), divided into 10-degree tiles, then organized into an ArcGIS mosaic dataset. "Overviews" are then built upon the underlying tiles to provide a seamless raster that combines all the surveys. Where surveys overlap, the mean depth value of the contributing surveys is used.Note: NCEI's archive typically contains the raw, unedited multibeam data provided by the data contributors. There are some erroneous depth values and/or data artifacts visible in this service. These data should not be used for navigational purposes.There are three services providing access to the multibeam archive:Multibeam Bathymetry Mosaic (REST endpoint): provides depth values (default) or shaded-relief imagery. All surveys are combined together (using mean depth value) into "overviews".Multibeam Bathymetry Mosaic: Shaded Relief Visualization: tiled image service, provides rapid display of color shaded relief imagery.Multibeam Bathymetry Mosaic Subsets (REST endpoint): provides access to the individual surveys, and allows filtering by survey ID, platform name, source organization, survey date, etc. This service has slower performance than the others.For ship tracks of the multibeam surveys, along with additional metadata and links to obtain the data, see the corresponding Multibeam Bathymetric Surveys service.NCEI's Bathymetric Data Viewer (NOAA GeoPlatform entry) provides an interactive mapping interface to the multibeam database as well as other sources of bathymetric data.For visualization, the water depths are displayed using this color ramp:Mosaic last updated: March 5, 2024.Metadata for the Multibeam Bathymetric Database

This statistic shows the revenue of the industry “Tile and mosaic, except quarry tile“ in Japan from 2012 to 2018, with a forecast to 2024. It is projected that the revenue of Tile and mosaic, except quarry tile in Japan will amount to approximately 0,6 billion U.S. Dollars by 2024.

27260 Global exporters importers export import shipment records of Mosaic glass tile with prices, volume & current Buyer's suppliers relationships based on actual Global export trade database.

This data set contains the hydrographic profile data collected with a CTD rosette in a shelter on the ice (Ocean City) during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC). The CTD is an SBE911plus with 12 bottles, 5 liters each, operated with a small winch and crane in the shelter on the ice. The data set contains calibrated and quality-controlled parameters (temperature, conductivity, oxygen and their derived variables) as well as only pre-cruise calibrated parameters where no post-cruise calibration or quality control was applied (all other). CDOM fluorescence data are the exception. Quality control was performed but data have to be handled with care, as the sensor seems to have broken down during leg 3 such that no post-cruise calibration could be applied. The data are provided as text file (all cruise legs in one file) as well as in netCDF format (one file per cruise leg). The accuracy for salinity and conductivity is 0.004 while the accuracy for temperature is 0.002. Additional information on the sensor used for the final data set, the water depth as well as the availability of profile or bottle data is given in a separate info-text-file. […]

253 Active Global Mosaic Tile buyers list and Global Mosaic Tile importers directory compiled from actual Global import shipments of Mosaic Tile.

Ceramic tiles are highly versatile and suitable for mosaic art, with vibrant colors, various sizes and shapes, different textures, and durability. They offer endless design possibilities and can be used for both indoor and outdoor installations.

The global ceramic mosaic tile market is estimated to reach $674.52 million in 2025, growing at a CAGR of 3.4% from 2019 to 2033. Increasing demand for aesthetic and durable flooring and wall solutions in residential and commercial spaces is driving market growth. Technological advancements in design and manufacturing processes and the expansion of the construction industry in emerging countries are also contributing factors. Ceramic mosaic tiles offer versatility, durability, and aesthetic appeal. They are available in various materials, shapes, finishes, and sizes, making them suitable for different applications, including walls, floors, backsplashes, fireplaces, and furniture. Key market players include Ceramica Vogue, Lea Ceramiche, Refin SpA, and Vetriceramica, among others. North America and Europe are major regional markets, while Asia Pacific is expected to witness significant growth over the forecast period. Recent developments include: The ceramic mosaic tile market is projected to reach USD 17.3 billion by 2032, exhibiting a CAGR of 3.4% during the forecast period. Rising demand for aesthetic and durable flooring and wall covering solutions in residential and commercial sectors is driving market growth. Technological advancements, such as digital printing and inkjet technology, are enabling the production of intricate designs and patterns, catering to diverse consumer preferences. Increasing urbanization and renovation activities are further propelling market expansion. Key players are focusing on sustainability initiatives, offering eco-friendly and recycled ceramic mosaic tiles to meet environmental concerns. Strategic partnerships, mergers, and acquisitions are shaping the competitive landscape, with companies expanding their footprint and product portfolios.. Key drivers for this market are: 1 Rising demand for customized interior design solutions2 Growing popularity of mosaic tiles for outdoor applications3 Increasing adoption of digital printing technologies for unique tile designs4 Expansion of the luxury home decor segment5 Growing awareness of sustainable and eco-friendly building materials. Potential restraints include: Rising demand for aesthetic interiors Growing popularity of DIY home improvement projects Technological advancements in production Expansion into emerging markets Integration of smart technology..

The downloadable ZIP file contains a georeferenced TIF. This data set is a mosaic of 69 individual DRGs georeferenced to the IDTM83 grid. The original Digital Raster Graphic (DRG) is a raster image of a scanned USGS topographic map including the collar information, georeferenced to the UTM grid. DRGs are useful as a source or background layer in a GIS and as a means to perform quality assurance on other digital products.

Peoria County contracted with Kucera International, Inc. to receive digital aerial imagery during spring leaf-off in 2015. The color digital orthophoto is a county-wide mosaic image at six inch resolution. Here is a link to download the data in zip file format: 2015 Aerial Mosaic. The orthophotography available is within the Peoria County boundary only. The data will be provided in a zip file format and will be 15.4 GB in size. The zip file will contain the color digital orthophoto mosiac in MrSID compressed format.Contact InformationPeoria County GISEmail: gis@peoriacounty.orgPhone: 309-495-4840The aerial imagery is bound to the Peoria County GIS Open Data License Agreement which can be found here: https://data-peoriacountygis.opendata.arcgis.com/pages/peoria-county-gis-open-data-license-agreement.

Subscribers can find out export and import data of 23 countries by HS code or product’s name. This demo is helpful for market analysis.

The global pool mosaic tile market was valued at USD 1.9 billion in 2022 and is projected to reach USD 3.9 billion by 2033, exhibiting a CAGR of 7.3% during the forecast period (2023-2033). The growth of the market can be attributed to the increasing demand for aesthetic and durable tiles for swimming pools and other water features. Personal pools and commercial swimming pools are major applications for pool mosaic tiles, with glass mosaic being the most popular type. Key companies in the market include AGROB BUCHTAL, ALTTOGLASS, BISAZZA BAGNO, Casalgrande Padana, Daltile, Ezarri, Fireclay Tile, Hisbalit, Kolorines USA, and Mozaico. The market is expected to witness significant growth in emerging regions like Asia Pacific and the Middle East & Africa, where there is growing demand for luxury swimming pools and other water features in residential and commercial projects.

Additional file 2:.

Bathymetry is the measurement of the depth of the ocean floor, data that can be used for a variety of purposes such as: nautical charting, oceanographic research and modeling, habitat classification, maritime commerce, and recreational applications. The Multibeam Bathymetry Database (MBBDB) at NCEI collects and archives multibeam data from the earliest commercial installations (circa 1980) through today's modern high-resolution collections. Data are acquired from both U.S. and international government and academic sources (see individual cruise metadata records for source information) and consist of the raw (as collected) sonar data files. Datasets may also include processed or edited versions of the sonar data, ancillary data (i.e., sound velocity data), derived products (i.e., grids), and/or metadata for the data collection. The MBBDB provides data that span the globe and are discoverable and accessible via map interface or text-only search options. More information about the database can be found here.This ArcGIS image service provides a color shaded relief visualization of gridded multibeam data from the entire archive. Each individual survey has been gridded at a 3 arc-second cell size (~100m), divided into 10-degree tiles, then organized into an ArcGIS mosaic dataset. "Overviews" are then built upon the underlying tiles to provide a seamless raster that combines all the surveys. Where surveys overlap, the mean depth value of the contributing surveys is used.Note: NCEI's archive typically contains the raw, unedited multibeam data provided by the data contributors. There are some erroneous depth values and/or data artifacts visible in this service. These data should not be used for navigational purposes.There are three services providing access to the multibeam archive:Multibeam Bathymetry Mosaic (REST endpoint): provides depth values (default) or shaded-relief imagery. All surveys are combined together (using mean depth value) into "overviews".Multibeam Bathymetry Mosaic: Shaded Relief Visualization: tiled image service, provides rapid display of color shaded relief imagery.Multibeam Bathymetry Mosaic Subsets (REST endpoint): provides access to the individual surveys, and allows filtering by survey ID, platform name, source organization, survey date, etc. This service has slower performance than the others.This tiled service is also available as a downloadable tile package (.tpkx file) usable in ArcGIS Pro / ArcGIS Desktop software.For ship tracks of the multibeam surveys, along with additional metadata and links to obtain the data, see the corresponding Multibeam Bathymetric Surveys service.NCEI's Bathymetric Data Viewer (NOAA GeoPlatform entry) provides an interactive mapping interface to the multibeam database as well as other sources of bathymetric data.For visualization, the water depths are displayed using this color ramp:Mosaic last updated: Mar. 5, 2024.Metadata for the Multibeam Bathymetric Database

686 Global import shipment records of Mosaic Tile with prices, volume & current Buyer's suppliers relationships based on actual Global export trade database.

The global household mosaic tile market is anticipated to grow at a steady CAGR of 4.01% during the forecast period 2025-2033, reaching a market size of USD 10.53 billion by 2033. Key market drivers include the rising popularity of mosaic tiles as a decorative element, increasing demand for customized designs, and growing consumer preference for unique and stylish home interiors. The market is segmented based on material type, application, design, end-use, and region. Ceramic and porcelain tiles dominate the market, while glass tiles are gaining popularity aufgrund ihrer Ästhetik und Haltbarkeit. In terms of application, flooring is the largest segment, followed by wall coverings. Colorful patterns, geometric shapes, and textured finishes are the most popular design trends. Residential applications account for the majority of the market, but commercial and institutional applications are also growing. The Asia Pacific region is expected to witness the highest growth, followed by North America and Europe. Recent developments include: Recent developments in the Household Mosaic Tile Market show significant activity among key players such as Porcelanosa, Daltile, American Olean, and Mohawk Industries, driven by increasing consumer demand for stylish and eco-friendly home designs. The market is witnessing an uptick in innovations focusing on sustainable materials and digital printing technologies. Grupo Lamosa has made strides in expanding its product lines to cater to diverse customer preferences, while Emser Tile is emphasizing increased manufacturing capabilities to meet rising demand. Notably, recent mergers and acquisitions have reshaped competitive dynamics, including strategic initiatives by Marazzi and Grespania to enhance their market presence and operational efficiency. This is reflected in the overall growth of market valuation, positively impacting firms' stock performances and business strategies. Furthermore, as residential renovation projects surge, companies like RAK Ceramics and Interceramic are strategically investing in advanced design and distribution channels to strengthen their positions. The emphasis on innovative designs, sustainable practices, and enhanced customer experience is becoming a significant trend driving the household mosaic tile market forward, showcasing resilience and adaptability amidst changing consumer preferences.. Key drivers for this market are: Sustainable and eco-friendly materials, Digital design customization services; Growing DIY home improvement trend; Increasing demand for luxury interiors; Expansion in emerging markets. Potential restraints include: increasing home renovation trends, demand for sustainable materials; growing urbanization and construction; rising disposable incomes; aesthetic appeal and customization options.

In May 2013, the Grand Canyon Monitoring and Research Center (GCMRC) of the U.S. Geological Survey’s (USGS) Southwest Biological Science Center (SBSC) acquired airborne multispectral high resolution data for the Colorado River in Grand Canyon in Arizona, USA. The imagery data consist of four bands (blue, green, red and near infrared) with a ground resolution of 20 centimeters (cm). These data are available to the public as 16-bit geotiff files. They are projected in the State Plane (SP) map projection using the central Arizona zone (202) and the North American Datum of 1983 (NAD83). The assessed accuracy for these data is based on 91 Ground Control Points (GCPs), and is reported at 95% confidence as 0.64 meters (m) and a Root Mean Square Error (RMSE) of 0.36m. The airborne data acquisition was conducted under contract by Fugro Earthdata Inc. using two fixed wing aircraft from May 25th to 30th, 2013 at altitudes between 2440 meters to 3350 meters above mean sea level. The data delivered by Fugro Earthdata Inc. were checked for smear, shadow extent and water clarity as described for previous image acquisitions in Davis (2012). We then produced a corridor-wide mosaic using the best possible tiles with the least amount of smear, the smallest shadow extent, and clearest, most glint-free water possible. During the mosaic process adjacent tiles sometimes had to be spectrally adjusted to account for differences in date, time, sun angle, weather, and environment. We used the same method as described in Davis (2012) for the spectral adjustment. A horizontal accuracy assessment was completed by Fugro Earthdata Inc. using 188 GCPs provided by GCMRC. The GCPs were marked during the image acquisition with 1m2 diagonally alternated black and white plastic panels centered on control points throughout the river corridor in the GCMRC survey control network (Hazel and others, 2008). The Root Mean Square Error (RMSE) accuracy reported by Fugro Earthdata Inc. is 0.17m Easting and 0.15m Northing, or better, depending on the acquisition zone. The 16-bit image data are stored as four band images in embedded geotiff format, which can be read and used by most geographic information system (GIS) and image-processing software. The TIFF world files (tfw) are provided, however they are not needed for many software to read an embedded geotiff image. The image files are projected in the State Plane (SP) 2011, map projection using the central Arizona zone (202) and the North American Datum of 1983 (NAD83). A complete detailed description of the methods can be found in the associated USGS Data Series 1027 for these data, https://pubs.er.usgs.gov/publication/ds1027.

Subscribers can find out export and import data of 23 countries by HS code or product’s name. This demo is helpful for market analysis.