SCS100 is a lightweight high performance microsatellite that provides 1m resolution panchromatic and 4m resolution multispectral push-broom imaging. Its unique configuration has been designed to be launched as part of a multi-satellite constellation with up to 15 satellites being launched to sun synchronous orbit on a single small-medium class launch vehicle.
The SCS-250 High-Resolution optical satellite imaging system optimally addresses the general requirements of cost-effective high-resolution imaging. Able to cover an area in excess of one and half million square kilometers each day, the system has been designed for continuous imaging and downlinking of data in a sun-synchronous orbit.
SCS450 is a very high resolution Electro-Optical imaging satellite solution that will satisfy the demanding needs of current and future earth observation missions. The structure has been optimised and appropriate components chosen to realise a lightweight, cost-effective spacecraft that can be operated as a single asset or as part of a constellation.
DragonSAR is a novel modular Synthetic Aperture Radar (SAR) satellite solution in collaboration with SSBV that can satisfy the demanding needs of current and future earth observation missions. Employing lightweight, small satellite design techniques and components to realise a cost effective system that is designed to operate in isolation or within a constellation.
FalconSAR is the lean and compact variant of the DragonSAR. Making use of only a single set of antenna panels, the weight is drastically reduced with the benefit of a reduction in volume. Therefore a low-cost of launch can be achieved and the ability to launch a number of the satellites at once to realise a constellation becomes commercially viable.
The Phoenix-20 Hyperspectral (HS) satellite imaging system optimally addresses the general requirements of spectral identification (spectral fingerprinting) through global coverage and reducing the total cost of ownership.
The μSTAR satellite system is a lightweight, novel radar imaging satellite designed for constellation in C-band. This system will enable an all-weather day/night earth observation satellite capability anywhere on the globe.