Satellites
We utilise our partnerships with major providers of satellite imagery to acquire and utilise the most advanced state-of-the-art satellites and sensors. Since we are independent, you can rest assured that you will receive the best possible satellite solution to meet your specific needs.
Request a quoteResolution
Very High Resolution
BJ3N3
The BJ3N3 satellite is a agile remote sensing optical satellite capable of quickly obtaining high precision and high quality ground imagery. This satellite supports the global market by providing spatial information support for resource management, agricultural studies, urban planning and environmental monitoring.
EROS-C
The Earth Remote Observation System-C (EROS-C) is a high-resolution satellite that provides higher data link rates and image resolution than its predecessor EROS-A and EROS-B and includes the ability for multispectral imagery.
GeoEye-1
GeoEye-1, which was launched in 2008, is a satellite that captures panchromatic and multispectral imagery for a variety of purposes.
Pléiades 1A and 1B
Pléiades 1A and 1B, launched in 2011 and 2012, are satellites that can provide accurate imagery for a variety of purposes.
Pléiades Neo
Pléiades Neo consists of two satellites with enhanced imagery, optimised tasking, and a wide range of applications in earth observation, mapping, and analytics.
WorldView Legion
WorldView Legion 30cm-class fresh capture and archive imagery is now available and provide the highest resolution commercially available (at the time of development). Future satellites to be launched with a total of 6 for the full constellation.
WorldView-1
WorldView-1, which was launched on September 18, 2007, is a satellite that captures 50cm imagery covering 750,000 km² per day.
WorldView-2
WorldView-2, which was released on October 8, 2009, gathers imagery with eight spectral bands spanning 975,000 km² every day.
WorldView-3
WorldView-3, launched in 2014, offers multispectral imaging with 16 spectral bands, benefiting industries like mining, agriculture, and environmental monitoring.
High Resolution
BJ3 Constellation
The BJ3 constellation is five AI-enabled agile remote sensing optical satellites capable of monitoring up to 500 points of interest across the world with roughly 100 trips every day.
EROS-B
The Earth Remote Observation System-B (EROS-B) is a commercial imaging satellite and provides high-resolution imagery for agriculture, infrastructure and emergency monitoring, oil and gas exploration, and illegal construction supervision.
KOMPSAT-2
KOMPSAT-2 (Korea Multi-Purpose Satellite-2) launched in July 2006 and was developed and operated by the Korean Space Agency (KARI). KOMPSAT-2 provides surveillance capabilities for large-scale disasters, specifically in landscape topography, multipurpose land imagery and vegetation observations.
KOMPSAT-3
KOMPSAT-3 is a Korean Multi-purpose satellite that launched in May 2012 with a mission to obtain infrared and high-resolution images for applications such as environmental, oceanographic, and agricultural monitoring.
KOMPSAT-3A
KOMPSAT-3A is a Korean Multi-purpose satellite that launched in March 2015 with a mission to obtain infrared and high-resolution images for applications such as environmental, agriculture, climate change, urban planning and disaster relief.
SPOT 6 and 7
SPOT 6 and SPOT 7, launched in 2012 and 2014, provide high-resolution optical imaging for agriculture, urban planning, and environmental monitoring.
TripleSat-1, 2 and 3
TripleSat is three advance Earth observation satellites that offer daily imaging capabilities around the world with data dating back to 2016.
Medium Resolution
ASTER (Terra)
ASTER is a cutting-edge imaging instrument on the NASA Terra satellite, offering wide spectral coverage and medium spatial resolution for various applications.
Landsat 7
Landsat 7, launched in 1999, offers valuable Earth observation data for agriculture, forestry, and environmental monitoring with advanced multispectral imaging.
Landsat 8
Launched in 2013, Landsat 8 offers valuable Earth observation data for agriculture, forestry, and environmental monitoring with advanced multispectral imaging.
Landsat 9
Launched in 2021, Landsat 9, managed by the USGS, continues the legacy of its predecessors by providing high-precision global data for monitoring the environment of Earth.
Sentinel 2A, 2B and 2C
Sentinel-2A, Sentinel-2B and Sentinel-2C are identical Earth observation satellites launched in 2015, 2017 and 2024, offering high-quality data for land monitoring, agriculture, and forestry. With Sentinel-2A is nearing the end of its nominal operational lifespan, Sentinel-2C will gradually take over its responsibilities.
Radar
ALOS-2
ALOS-2, launched by JAXA, is an advanced Earth observation satellite equipped with synthetic aperture radar (SAR) technology.
ALOS-4 (DAICHI-4)
ALOS-4 (DAICHI-4), launched by JAXA in July 2024, is an advanced Earth observation satellite equipped with the Phased Array type L-band Synthetic Aperture Radar-3 (PALSAR-3) being a L-band Synthetic Aperture Radar (SAR).
KOMPSAT-5
KOMPSAT-5 (Korea Multi-Purpose Satellite-5) was launched on 22 August 2013 and was the first Korean SAR Satellite designed and manufactured by the Korean Space Agency (KARI). KOMPSAT-5 carries a X-band SAR instrument which provides imagery in all polarizations.
Radarsat 1 and 2
Canadian SAR satellites, Radarsat 1 and 2, launched in 1995 and 2007, offer high-quality imaging data for various applications.
Sentinel 1A and 1B
Sentinel-1A and Sentinel-1B offer all-weather radar imaging for land, ocean, and disaster monitoring applications with global coverage.
TerraSAR-X and TanDEM-X
TerraSAR-X launched in 2007, offers advanced imaging for environmental monitoring, agriculture, disaster response, and defence.
Historical Data Only
ALOS-1
Launched by JAXA in 2006, ALOS-1 is an Earth observation satellite, offering high-resolution images for various applications, from disaster management to environmental monitoring.
WorldView-4
WorldView-4, which was released in 2016, provides imagery for mapping, urban planning, and environmental monitoring. Unfortunately, it ceased operations in 2019.
Future Capabilities
Firefly Constellation
The Firefly Satellites are planned to be launched in 2024/2025. The satellites are equipped with sensors that can provide hyperspectral imagery with capabilities of 160 bands.
Honeybee Constellation
The Honeybee satellites are planned to be launched in 2025. The satellites are equipped with sensors that can provide hyperspectral imagery with capabilities of 260 bands.
KOMPSAT-6 (Coming soon in 2024)
KOMPSAT-6 (Korea Multi-Purpose Satellite-6) is due to launch in December 2024 is the second Korean SAR Satellite designed and manufactured by the Korean Space Agency (KARI). KOMPSAT-6 provides high resolution imagery required in Geographical Information Systems (GIS), disaster and environment monitoring as well as ocean and land management.
KOMPSAT-7 and 7A
KOMPSAT-7 and 7A (Korea Multi-Purpose Satellite-7) is due to launch within the next three years with its mission to obtain high resolution satellite images at low polar Earth orbit for precise Earth observation. This satellite will be equipped with a ultra high optical imaging capability with the addition of a high resolution infrared sensor.
Landsat Next
Landsat Next is expected to launch in late 2030/early 2031, providing new capabilities for the next generation of Landsat users. Landsat Next will be a constellation of three identical observatories sent into orbit on the same launch vehicle.
SpaceEye-T
SpaceEye-T is a high-resolution earth observation satellite manufactured by Satrec Initiative (SI) capable of 30cm imagery. SpaceEye-T is considered one of the world's highest-performance Earth observation optical satellite in development. SpaceEye-T is due to launch within the first half of 2025