Discover insights into the India Satellite Imagery Services Market, including size, revenue, key players, future outlook, and research analysis, projecting growth.

The Brazil Satellite Imagery Services Market is Segmented by Application (Geospatial Data Acquisition and Mapping, Natural Resource Management, Surveillance and Security, Conservation and Research, Disaster Management, and Intelligence), by End-User (Government, Construction, Transportation and Logistics, Military and Defense, Forestry and Agriculture, and Other End-Users). The Market Sizes and Forecasts are Provided in Terms of Value USD for all the Above Segments.

The UAE Satellite Imagery Services Market is Segmented by Application (Geospatial Data Acquisition and Mapping, Natural Resource Management, Surveillance and Security, Conservation and Research, Disaster Management, Intelligence), and End-User (Government, Construction, Transportation and Logistics, Military and Defense, Forestry and Agriculture). The Market Sizes and Forecasts are Provided in Terms of Value in USD for all the Above Segments.

Satellite images are essentially the eyes in the sky. Some of the recent satellites, such as WorldView-3, provide images with a spatial resolution of 0.3 meters. This satellite with a revisit time of under 24 hours can scan a new image of the exact location with every revisit.

Spatial resolution explained Spatial resolution is the size of the physical dimension that can be represented on a pixel of the image. Or in other words, spatial resolution is a measure of the smallest object that the sensor can resolve measured in meters. Generally, spatial resolution can be divided into three categories:

– Low resolution: over 60m/pixel. (useful for regional perspectives such as monitoring larger forest areas)

– Medium resolution: 10‒30m/pixel. (Useful for monitoring crop fields or smaller forest patches)

– High to very high resolution: 0.30‒5m/pixel. (Useful for monitoring smaller objects like buildings, narrow streets, or vehicles)

Based on the application of the imagery for the final product, a choice can be made on the resolution, as labor intensity from person-hours to computing power required increases with the resolution of the imagery.

The Middle East Satellite Imagery Services Market is Segmented by Application (Geospatial Data Acquisition and Mapping, Natural Resource Management, Surveillance and Security, Conservation and Research, Disaster Management, Intelligence), by End-User (Government, Construction, Transportation and Logistics, Military and Defense, Forestry and Agriculture, and Other End-Users), and by Geography (UAE, Saudi Arabia, and the Rest of Middle East). The Report Offers Market Forecasts and Size in Value (USD) for all the Above Segments.

The size of the Brazil Satellite Imagery Services market was valued at USD XX Million in 2023 and is projected to reach USD XXX Million by 2032, with an expected CAGR of 9.62% during the forecast period.The Brazil satellite imagery services market is the acquisition, processing, analysis, and interpretation of data from satellite imagery for multiple applications in Brazil. Satellite imagery services use high technologies to acquire high-resolution images of the Earth's surface in space, and this offers vital information in areas such as agriculture, forestry, urban planning, environmental monitoring, disaster management, and defense. These services offer the panoramic view of the landscape by allowing people to monitor the change, study the resources, and make informed and updated decisions based on this view. The very large size of Brazil, with extreme diversity of different ecosystems, favors the market growth of satellite image services in that country, supported by the rising necessity for sustainable development and resource exploitation. Key drivers for this market are: Increasing Adoption of Location-based Services, Satellite data usage is increasing. Potential restraints include: High-resolution Images Offered by Other Imaging Technologies. Notable trends are: Natural Resource Management is Expected to Significant Share.

Metadata: NOAA GOES-R Series Advanced Baseline Imager (ABI) Level 1b RadiancesMore information about this imagery can be found here.This satellite imagery combines data from the NOAA GOES East and West satellites and the JMA Himawari satellite, providing full coverage of weather events for most of the world, from the west coast of Africa west to the east coast of India. The tile service updates to the most recent image every 10 minutes at 1.5 km per pixel resolution.The infrared (IR) band detects radiation that is emitted by the Earth’s surface, atmosphere and clouds, in the “infrared window” portion of the spectrum. The radiation has a wavelength near 10.3 micrometers, and the term “window” means that it passes through the atmosphere with relatively little absorption by gases such as water vapor. It is useful for estimating the emitting temperature of the Earth’s surface and cloud tops. A major advantage of the IR band is that it can sense energy at night, so this imagery is available 24 hours a day.The Advanced Baseline Imager (ABI) instrument samples the radiance of the Earth in sixteen spectral bands using several arrays of detectors in the instrument’s focal plane. Single reflective band ABI Level 1b Radiance Products (channels 1 - 6 with approximate center wavelengths 0.47, 0.64, 0.865, 1.378, 1.61, 2.25 microns, respectively) are digital maps of outgoing radiance values at the top of the atmosphere for visible and near-infrared (IR) bands. Single emissive band ABI L1b Radiance Products (channels 7 - 16 with approximate center wavelengths 3.9, 6.185, 6.95, 7.34, 8.5, 9.61, 10.35, 11.2, 12.3, 13.3 microns, respectively) are digital maps of outgoing radiance values at the top of the atmosphere for IR bands. Detector samples are compressed, packetized and down-linked to the ground station as Level 0 data for conversion to calibrated, geo-located pixels (Level 1b Radiance data). The detector samples are decompressed, radiometrically corrected, navigated and resampled onto an invariant output grid, referred to as the ABI fixed grid.McIDAS merge technique and color mapping provided by the Cooperative Institute for Meteorological Satellite Studies (Space Science and Engineering Center, University of Wisconsin - Madison) using satellite data from SSEC Satellite Data Services and the McIDAS visualization software.

Metadata: NOAA GOES-R Series Advanced Baseline Imager (ABI) Level 1b RadiancesMore information about this imagery can be found here.This satellite imagery combines data from the NOAA GOES East and West satellites and the JMA Himawari satellite, providing full coverage of weather events for most of the world, from the west coast of Africa west to the east coast of India. The tile service updates to the most recent image every 10 minutes at 1.5 km per pixel resolution.The infrared (IR) band detects radiation that is emitted by the Earth’s surface, atmosphere and clouds, in the “infrared window” portion of the spectrum. The radiation has a wavelength near 10.3 micrometers, and the term “window” means that it passes through the atmosphere with relatively little absorption by gases such as water vapor. It is useful for estimating the emitting temperature of the Earth’s surface and cloud tops. A major advantage of the IR band is that it can sense energy at night, so this imagery is available 24 hours a day.The Advanced Baseline Imager (ABI) instrument samples the radiance of the Earth in sixteen spectral bands using several arrays of detectors in the instrument’s focal plane. Single reflective band ABI Level 1b Radiance Products (channels 1 - 6 with approximate center wavelengths 0.47, 0.64, 0.865, 1.378, 1.61, 2.25 microns, respectively) are digital maps of outgoing radiance values at the top of the atmosphere for visible and near-infrared (IR) bands. Single emissive band ABI L1b Radiance Products (channels 7 - 16 with approximate center wavelengths 3.9, 6.185, 6.95, 7.34, 8.5, 9.61, 10.35, 11.2, 12.3, 13.3 microns, respectively) are digital maps of outgoing radiance values at the top of the atmosphere for IR bands. Detector samples are compressed, packetized and down-linked to the ground station as Level 0 data for conversion to calibrated, geo-located pixels (Level 1b Radiance data). The detector samples are decompressed, radiometrically corrected, navigated and resampled onto an invariant output grid, referred to as the ABI fixed grid.McIDAS merge technique and color mapping provided by the Cooperative Institute for Meteorological Satellite Studies (Space Science and Engineering Center, University of Wisconsin - Madison) using satellite data from SSEC Satellite Data Services and the McIDAS visualization software.

The size of the Japan Satellite Imagery Services market was valued at USD XXX Million in 2023 and is projected to reach USD XXX Million by 2032, with an expected CAGR of 15.25% during the forecast period.Satellite imagery services include image capturing, processing, and analysis of the Earth's surface from satellites orbiting the earth. Such images give valuable information on Earth; these include land use, urban development, environmental monitoring, disaster response, and agriculture.Satellite imagery service thus is of great importance to Japan. The country has a history of space exploration since the early years. She has launched many satellites used for Earth observation. Japanese satellite imagery services are used in all industries. In agriculture, it helps in crop health monitoring, yield potential assessment, and optimization of irrigation. In urban planning, it helps in the development of cities, infrastructure planning, and in disaster management. Environmental monitoring applications include tracking deforestation, monitoring pollution, and assessing impacts from climate change. By providing quick damage assessments and otherwise aiding relief operations, satellite imagery is also important in disaster response. High-resolution satellite imagery and high-end analysis tools will be more in demand in the years ahead with increasing technology advancement. Therefore, the Japanese market for satellite imagery services has a long way ahead. Recent developments include: January 2023: Axelspace announced that the company signed an agreement with New Space Intelligence which is a Japanese satellite imagery analysis service provider company. With this partnership, both companies will work together to promote the expansion of satellite data utilization by developing new applications using satellite imagery., November 2022: Japan Space Imaging Corporation signed an agreement with Satellite Vu in order to launch a unique constellation of satellites to deliver the highest resolution thermal data from space. The company will provide its customer and partners with preferred access to Satellite Vu's imagery, products, and services.. Key drivers for this market are: Infrastructural Development in Japan, Increasing Requirement for Mapping and Navigation System. Potential restraints include: Regulatory and Legal Challenges. Notable trends are: Infrastructural Development in Japan.

This image service contains high resolution satellite imagery for selected regions throughout the Yukon. Imagery is 1m pixel resolution, or better. Imagery was supplied by the Government of Yukon, and the Canadian Department of National Defense. All the imagery in this service is licensed. If you have any questions about Yukon government satellite imagery, please contact Geomatics.Help@gov.yk.can. This service is managed by Geomatics Yukon.

The France Satellite Imagery Services Market is Segmented by Application (Geospatial Data Acquisition and Mapping, Natural Resource Management, Surveillance and Security, Conservation and Research, Disaster Management), End-User (Government, Construction, Transportation and Logistics, Military and Defense, Forestry and Agriculture). The Market Sizes and Forecasts are Provided in Terms of Value (USD) for all the Above Segments.

The cost of acquiring a satellite data was highest for the images from the GeoEye-1 satellite at 25 U.S. dollars per square kilometer of the image. Most of the satellite data have a minimum order quantities based on the company and the cost depends mostly on the spatial resolution of the satellite image.

Most of the satellites are commercially owned and provide users with data as an end product based on the requirement. Processing smaller patches of the raw images obtained from a satellite to an end product are not profitable. Hence, there is a minimum order limit of 25 to 50 square kilometers based on the requested product.

This dataset provides a seamless cloud-free 10m resolution satellite imagery layer of the New Zealand mainland and offshore islands.

The imagery was captured by the European Space Agency Sentinel-2 satellites between September 2021 - April 2022.

Technical specifications:

• 450 x ortho-rectified RGB GeoTIFF images in NZTM projection, tiled into the LINZ Standard 1:50,000 tile layout
• Satellite sensors: ESA Sentinel-2A and Sentinel-2B
• Acquisition dates: September 2021 - April 2022
• Spectral resolution: R, G, B
• Spatial resolution: 10 meters
• Radiometric resolution: 8-bits (downsampled from 12-bits)

This is a visual product only. The data has been downsampled from 12-bits to 8-bits, and the original values of the images have been modified for visualisation purposes.

Satellite Data Services Market size was valued at USD 9.75 Billion in 2023 and is projected to reach USD 34.06 Billion by 2030, growing at a CAGR of 19.6% during the forecast period 2024-2030.

Global Satellite Data Services Market Drivers

The market drivers for the Satellite Data Services Market can be influenced by various factors. These may include:

Growing Need for Earth Observation Data: As worries about natural disasters, urban planning, agriculture, climate change, and environmental monitoring grow, so does the need for satellite data used for earth observation.
Technological developments in satellites: The possibilities for satellite data uses are growing thanks to developments in miniaturisation, resolution, and data transmission capabilities. This influences the market’s supply and demand.
Government Initiatives and Regulations: For the sake of infrastructure development, defence, surveillance, and disaster management, governments throughout the world are funding satellite programmes. The market is also shaped by regulations, especially those that deal with data security, privacy, and licencing.
Emergence of New Players: Government organisations are no longer the only ones controlling the satellite market. With big plans for satellite constellations, private companies like SpaceX, OneWeb, and Amazon are joining the market, bringing competition and new options.
Growing Use of Satellite Communication Services: In situations when traditional communication infrastructure is inadequate or unreliable, such as in distant locations, maritime environments, aviation environments, or disaster recovery scenarios, satellite communication services are essential. The need for satellite data services is fueled by this.
Increase in IoT and M2M Connectivity: Particularly in remote or mobile contexts, the growth of Internet of Things (IoT) devices and Machine-to-Machine (M2M) communication necessitates dependable connectivity, which is frequently offered by satellite networks.
Demand for Location-Based Services: A number of location-based services (LBS), including fleet management, asset tracking, and navigation, are dependent on satellite data, mostly from Global Navigation Satellite Systems (GNSS) like GPS, GLONASS, and Galileo.
Growing Uses in Many Industries: The demand for satellite imagery and analytics is diversified and is driven by the expanding use of satellite data services in industries such as agriculture, forestry, energy, mining, transportation, urban planning, insurance, and finance.
Growing Interest and Investment in Space Exploration: The need for satellite data services for communication, navigation, and scientific research is fueled by the growing interest in and funding for space exploration, which includes moon missions, asteroid mining, and Mars colonisation.
Global Connectivity programmes: In order to close the digital gap, there is a growing need for satellite data services. Examples of these programmes are the Broadband Commission for Sustainable Development and the Sustainable Development Goals (SDGs) of the United Nations.

This image service contains Yukon government medium resolution satellite imagery. Resolutions range from 150 cm to 5 m. All imagery in this service is licensed for Yukon government use only. Please contact Geomatics.Help@gov.yk.ca for more information about Yukon government imagery, or image services. This service is managed by Geomatics Yukon.

This data set contains high-resolution QuickBird imagery and geospatial data for the entire Barrow QuickBird image area (156.15° W - 157.07° W, 71.15° N - 71.41° N) and Barrow B4 Quadrangle (156.29° W - 156.89° W, 71.25° N - 71.40° N), for use in Geographic Information Systems (GIS) and remote sensing software. The original QuickBird data sets were acquired by DigitalGlobe from 1 to 2 August 2002, and consist of orthorectified satellite imagery. Federal Geographic Data Committee (FGDC)-compliant metadata for all value-added data sets are provided in text, HTML, and XML formats.

Accessory layers include: 1:250,000- and 1:63,360-scale USGS Digital Raster Graphic (DRG) mosaic images (GeoTIFF format); 1:250,000- and 1:63,360-scale USGS quadrangle index maps (ESRI Shapefile format); an index map for the 62 QuickBird tiles (ESRI Shapefile format); and a simple polygon layer of the extent of the Barrow QuickBird image area and the Barrow B4 quadrangle area (ESRI Shapefile format).

Unmodified QuickBird data comprise 62 data tiles in Universal Transverse Mercator (UTM) Zone 4 in GeoTIFF format. Standard release files describing the QuickBird data are included, along with the DigitalGlobe license agreement and product handbooks.

The baseline geospatial data support education, outreach, and multi-disciplinary research of environmental change in Barrow, which is an area of focused scientific interest. Data are provided on four DVDs. This product is available only to investigators funded specifically from the National Science Foundation (NSF), Office of Polar Programs (OPP), Arctic Sciences Section. An NSF OPP award number must be provided when ordering this data. Contact NSIDC User Services at nsidc@nsidc.org to order the data, and include an NSF OPP award number in the email.

This REST Service provides cached satellite imagery for the City of Tempe. Imagery was flown in late 2022 and early 2023.

The NSW SPOT 5 imagery product is a state-wide satellite imagery product provided by the Remote Sensing and Regulatory Mapping team of NSW Government. Capture dates for imagery products for 2010-2015 are;

• 2015 - September 2014 through to March 2015

• 2014 - October 2013 through to August 2014

• 2013 - January 2012 through to July 2013

• 2012 - January 2011 through to July 2012

• 2011 - November 2010 through to July 2011

• 2010 - October 2009 through to August 2010

The imagery scenes used to create the NSW mosaic includes Lord Howe Island. This imagery data sets for 2010-2012 have been supplied by SPOT imaging and processing done by GeoImage Pty Ltd. Imagery for 2013-2015 has been supplied by Astrium/Airbus and processed by GeoImage Pty Ltd.

SPOT imagery products offer high resolution over broad areas using the SPOT 5 satellites. A SPOT satellite acquisition covers large areas in a single pass at resolutions up to 2.5m. Such precise coverage is ideal for applications at national and regional scales from 1:250,000 to 1:15,000.

Data products supplied for all of NSW are:

1. State-wide mosaic

2. Reflectance scenes

3. Panchromatic scenes

The statewide mosaic is provided as a Red Green Blue (RGB) band combination; contrast enhanced lossless 8-bit JPEG2000 file.

The NSW mosaic is available from internal DPE APOLLO Image Webserver for DCCEEW employees.

The rectified reflectance and panchromatic scenes are available for download from JDAP.

Contact spatial.imagery@environment.nsw.gov.au for further information or to request access to JDAP

“Includes material © CNES 2010, 2011 & 2012, Distribution Astrium Services / Spot Image S.A., France, all rights reserved”

These image products are only available to other NSW Government agencies upon request.

The KSA Satellite Imagery Services Market is Segmented by Application (Geospatial Data Acquisition and Mapping, Natural Resource Management, Surveillance and Security, Conservation and Research, Disaster Management, and Intelligence), by End-User (Government, Construction, Transportation and Logistics, Military and Defense, Forestry, and Agriculture, and Other End Users). The Market Sizes and Forecasts are Provided in Terms of Value USD for all the Above Segments.

The LINZ Aerial Imagery Basemap details New Zealand in high resolution - from a nationwide view all the way down to individual buildings. View the basemap at https://basemaps.linz.govt.nz/ or integrate it into your application using one of our APIs. This basemap combines the latest high-resolution aerial imagery down to 5cm in urban areas and 10m satellite imagery to provide full coverage of mainland New Zealand, Chathams and other offshore islands. Our Basemaps are powered by data from the LINZ Data Service and other authoritative open data sources, providing you with a basemap that is free to use under an open licence. Map tiles deliver the latest imagery data direct from the Cloud for quality and performance, and can be accessed via Web Map Tile Services (WMTS) for use in GIS applications, or a XYZ tile API for use in web and mobile applications.