The objective of the activity is to design, manufacture and test an engineering model of a standalone subsystem that will collect telemetry and command logs. In the event of mission failure the device will communicate this to the mission operations team to improve the speed and depth of understanding behind the root-cause of the mission failure. Targeted Improvements: Enabling higher operational reliability of nano- and microsatellites by impr…

Objective:The objective of the activity is to develop a space-based point to multipoint optical terminal.Targeted Improvements:The MOHU would reduce the number of required Optical Head Units by a factor greater than 2. The MOHU should target a mass and sizeless than x1.5 the mass and size of the combined individual Optical Head Units.Description:Today the implementation of simultaneous optical space to ground links (Optical Feeder Links) requi…

The objective of the activity is to produce a software development environment able to configure and build the full avionics software of a satcom using a model-based approachTargeted Improvements:- Reduction of up to 50% of the development time of the avionics system functions,- Enable one avionic platform to support many missions while being fully reconfigurable in flight.Description:The availability of System-on-Chip, powerful micro-control…

The objective of the activity is to design, develop and test in a representative environment a portable auditing tool prototype to assess VSAT networks security from the wireless interface.

Objective:The objective of the activity is to develop and qualify a faint pulse laser source for space-based quantum key distribution systems.Targeted Improvements:Increase the technical readiness level of faint pulse laser sources suitable for quantum key distribution applications from 5 to 7. Description:Quantum key distribution systems using protocols based on faint laser pulses require a photon source emitting less than one photon per puls…

The objective of this activity is to design, develop and perform an in-orbit experiment of high-performance data transport, switching and processing technologies consisting of several key building blocks like processors, mass memory, switches and optical interconnects, allowing a data throughput of up to 10 Terabit per second to enable future high performance telecommunication applications. Targeted Improvements: Improvement by a factor of two…

The objective of this activity is to design, develop and test enabling technologies for multi-frequency transmit active antennas. This will include antenna radiating elements, beamforming techniques (analogue vs hybrid), active elements customised in order to cover both the Ku and Ka transmit frequency bands, integrated into a breadboard. Targeted Improvements: Enabling dual Ku and Ka-band transmit active phased arrays. Description: Active ant…

The objective of this activity is to design, manufacture and test an engineering model of a beam forming network chip to support direct radiating array antennas in W-band for future receive chain feeder links in ultra-high throughput satellite telecommunication payloads.Targeted Improvements: Enabling technology for reconfigurable antennas in W-band for ultra-high-throughput satellite feederlinks (at least 1 Tbit/s throughput) not existing tod…

The objective of the activity is to develop a digital model of a high voltage module typically used in power processing units for electric propulsion or travelling wave tube amplifiers. This model or "digital twin" shall enable an in-depth evaluation which is today only possible by test.Targeted Improvements: Enabling a new approach to achieve innovation acceleration of high voltage module design and test, leading to:- decrease of th…

The objective of this activity is to design and develop a UHF/Ku transceiver prototype for communications used by governmental users (i.e.+ first responders) and Non-Governmental Organisations (NGOs) within an area of crisis+ compatible with all Ku-band service providers.

The objective of this activity is to design, develop and test a device that will enable fast (almost instantaneous) connection of two waveguides eliminating need for laborious removal and reinstallation of numerous nuts and bolts from the waveguide flanges. The connection achieved with this assembly shall demonstrate high reliability both in mechanical and electrical aspects and minimise the risk of assembly error. Targeted Improvements:- 95%…

The objective of the activity is to test electrical insulation methods to replace reliable electrical insulation by reliable simpleelectrical insulation and to provide inputs to guidelines to ECSS-E-ST-20C Rev2.Targeted Improvements:Mass, volume, manufacturing time reduced by a factor of 2 compared to current reliable insulation technologies.Description: Double insulation rules lead tooversize electrical architectures to make them robust to s…

The objective of the activity is to develop and test coupons to pave the way for high-power, high-voltage solar arrays (e.g., 300 Vplus) feeding directly electric propulsion systems. Targeted Improvements:- Increased solar array output voltage from 100V to at least 300V for high power solar arrays.- Enabling direct feed of solar array power to electrical propulsion systems. Description: Inorder to feed power generated by solar arrays directly…

The objective of the activity is to design, manufacture and test an engineering model of a multi-band (Ku and Ka-band) integrated power amplifier for application in Lower Earth Orbit satellites, enabling seamless flexibility and reconfigurability for active antenna arrays. Targeted Improvements: Enabling technology for seamless Ku- and Ka-band flexible payloads:- reduces mass and volume by 50%,- improves reliability, bill of material and quali…

The objective of this activity is to design, manufacture and test Ka-band high efficiency amplifier monolithic microwave integratedcircuit (MMIC) based on silicon technology for user terminals. Targeted Improvements:- Amplifier power added efficiency above 30% with a noise power ratio of 15 dB minimum- Key building block for future highly integrated Ka-band user terminal active antennas. Description:The satcom market requires highly integrated…

The objective of the activity is to develop, implement and test a 100 Gbps class interface radiation mitigation IP core for programmable logic devices for application in Low Earth and Geostationary Orbits. This includes hardware radiation characterisation and testing. Targeted Improvements: 3 to 4 times improvement of high-speed serial link data rate (from 32 Gbps to 112 Gbps) under radiation conditions. Description: State of the art programma…

The objective of this activity is to enable rapid delivery of small proof-of-concepts and technical investigations that are addressing emerging cybersecurity challenges in the field of cybersecurity for satcom systems.Procurement Policy: C(2) = A relevant participation (in terms of quality and quantity) of non-primes (incl. SMEs) is required. For additional information please go to:…

Objective: This activity aims at developing a modular software tool allowing to simulate the improvement from employing adaptive optics (AO) systems in bidirectional optical ground station (OGS) to satellites optical communication and quantum links scenarios (e.g. GEO, LEO, MEO). Targeted Improvements: 50% improvement of design time and computation time to dimension optical communication systems operating through atmospheric turbulence enhance…

The objective of this activity is the design and demonstration of network protocols that can use multiple unreliable satellite and terrestrial networks for increased resilience and security for retrieval of multimedia data with multiple QoS classes from drones and unmanned maritime vessels. Targeted Improvements: This technique will allow at least 50% increase in the number of UAVs (Unmanned Aerial Vehicles) that can be supported in the same s…

Objective: The objective of this activity is to design, develop and test a 5G system to support upper layer Access Traffic Switching, Steering and Splitting (ATSSS) mechanisms relating a User Equipment (UE) data session across dual terrestrial and satellite 5G access, as well as over dual 5G satellite access.Targeted Improvements:- Enable dual 3GPP access- Significant part reduction - Network and device centric system- Enable 5G Core Network w…

The objective of the activity is to develop precoding techniques for the forward link of multi-beam LEO satellite systems operatingin full frequency reuse. The activity will target the conventional single-satellite precoding, as well as precoding across adjacentsatellites having beams with overlapping footprints. The developed techniques will be implemented and tested in a software simulator able to assess the performance at both link level an…

The Objective: The objective of the activity is to design, manufacture a testbed to determine materials behaviour of atomic oxygen fluence exposure representative in Very Low Earth Orbit (VLEO) environment. With the help of the testbed, in a second step, an aerodynamic and oxygen fluence resistant coating will be developed and evaluated as needed for protection of exposed parts of the spacecraft to the VLEO environment.Targeted Improvements: E…

The objective of this activity is to develop the software protocol stack for Release 18 enhancements related to 5G New for Radio (NR) for Non-Terrestrial Networks. The software protocol stack development shall be based on a testbed considering both the User Equipment (UE) and g-NodeB (gNB) features and operational procedures.Targeted Improvements:Enable 5G NR NTN system performance simulations with the latest Release 18 modifications.Descripti…

The objective of the activity is to develop a concept for efficient testing of thrusters for large constellations that reduces the test-setup complexity and test duration by an order of magnitude. The concept shall be implemented and experimentally validated in ascalable testbed for high volume testing of the electric propulsion systems. Targeted Improvements: Increase the number of electricthrusters (minimum of 4 to 8) to be tested simultaneo…

Objective: The objective of this activity is to design, develop and test automotive prototypes following 5GAA workplans and increase the number of companies working on automotive satellite communications by 30%. Targeted Improvements: Novel hand-over methods between satellite and terrestrial networks supporting use cases as formulated by 5GAA and miniaturised automotive terminal baseband units.Description: The 5G Automotive Association (5GAA)…