The objective is to develop an onboard data handling architecture capable of autonomously acquiring, processing and interpreting housekeeping and telemetry data and taking the required actions without ground intervention. The activity will develop a data handlingsub-system demonstrator to validate the intelligent functionalities, including prognostic and health management (PHM) capabilitiesTargeted Improvements: Enabling technology development…

Upon Delegation Request (*) The objective of the activity is to develop and validate a mobile terminal antenna that supports satellite connectivity and terrestrial 5G. A prototype of the antenna will be manufactured and tested in a laboratory environment. Targeted Improvements: Terminal size, weight and power reduction (30 to 50%) achieved by integrating 5G satellite and terrestrial antenna systems.The integration of satellite communications…

The objective of this activity is to design, manufacture and test a breadboard of a high-power amplifier in Ku-band or above with 10 W/mm class of power density in continuous wave operation. The selected manufacturing process will allow a smaller chip size with reduced junction temperature, reduced thermal memory effects and improved efficiency.Targeted Improvements:- 3-5 times improvementin power density.- Junction temperature reduction of te…

The objective of the activity is to identify and benchmark power efficient radio frequency algorithms on complex System on Chip (SoC) devices. Power efficient algorithms for at least two applications case (e.g. beamforming, decoding/encoding, neural networks...) will be designed, developed and tested and compared to programmable logic only implementation.Targeted Improvements: 50% reductionpower consumption for radio frequency algorithms with…

The objective of the activity is to develop and test a cyber-physical modelling for a Digital Twin of AOCS sensors. A multi-physic model-based Digital Twin can be used to perform on-board self-calibration employing data-driven techniques and simplify the ground verification of new satellite platforms by having a direct dispersion of the different parameters, hence reducing complex Monte Carlodispersions. Targeted Improvements: Enabling on-boar…

The objective of the activity is to develop a breadboard of a flexible pivot a with large range of rotation angle (goal90 degrees),which features a hollow inner shaft to route an optical beam for optical communications or cables/waveguide in other applications.Targeted Improvements:One order of magnitude improvement in operating lifetime of coarse pointing mechanisms in optical communication terminals compared to ball bearing mechanisms, and a…

The objective of the activity is to develop and test a digital-twin for on-orbit assembly and manufacturing of antennas up to 30-50metres diameter. An end-to-end manufacturing process will be selected and guidance, navigation and control techniques for assembly and manufacturing on-orbit will be developed. A simple large reflector antenna will be designed, and assembly and manufacturing will be evaluated with the developed digital twin.Targete…

Objective: The objective of the activity is to develop low noise and small footprint semiconductor laser diodes at 1064nm compatible with WDM operation and the associated low-power consumption driving electronics. The activity shall also investigate technologicaloptions to further reduce the footprint and the power consumption of the low-power section of an optical transmitter at 1064nm (e.g., integration of multiple lasers diodes, optical mod…

Objective: The objective of the activity is to first design a Laser Communication Terminal (LCT) concept suitable for communicationover lunar distances. In a second step, the activity will develop an engineering model of a CCSDS compatible transceiver with critical functions including coding, synchronisation, and modulation. Targeted Improvements: Enabling a European or Canadian lunar communication terminal operating with a data rate one order…

The objective of the activity is to develop, implement and test a breadboard of a digital transceiver front-end capable of switching between access and backhaul modes of operation for integrated satcom-terrestrial 5G/6G networks. The transceiver core shall be supported by an AI/ML engine implemented for a set of commercially available hardware and software platforms. The activity shall also provide the testbed to test the AI/ML-based transceiv…

The objective of the activity is to design a system concept based on distinct transmit-only and receive-only satellites for the user link. The goal is to enable at the system level simultaneous two-way low data rate communication services such as Internet of Things, messaging, and VDES operating in frequency range from VHF to C-band. The system concept will be implemented and tested in an end-to-end system testbed. This includes the user termi…

Objective: The objective is to develop a high-power and high-efficient optical booster amplifier, compatible with WDM operation at 1064nm wavelength range. Two versions, with different output optical power and wall-plug efficiency requirements, are to be developed to address operation under space and ground environmental conditions. Targeted Improvements:Strategic component not available inESA's Member States nor in Cooperating/Associated…

The objective of the activity is to investigate and develop spectrum reuse and sharing techniques for integrated NTN-TN 3D networksthat allow them to pool, share, and rapidly reallocate spectrum on demand among their heterogeneous components/segments. The techniques will be prototyped in a testbed to be implemented as part of the activity.Targeted improvements:Enabling spectrum reuse and sharing in integrated NTN-NT 3D networks.Description:Spe…

The objective of the activity is to design, manufacture and test an accelerometer for drag compensation in Very Low Earth Orbit (VLEO). Targeted Improvements: - Enabling real time compensation of drag by the propulsion system. - Miniaturisation of instrument by a factor 10 compared to existing payload grade accelerometers. - Increase accuracy by factor 10 compared to existing accelerometers used for orbital control.Description: While intere…

The objectives of this activity are to design, develop and test techniques enabling integration of existing and new VPN solutions suitable for space networks (LEO constellation, MEO constellation or GEO) for the purpose of comparison, performance evaluation and optimisation, while maintaining compatibility with terrestrial networks.

The objective of this activity is to design, develop and test channel estimation and adaptation techniques as needed for Q/V band feeder links of LEO/MEO constellation with regenerative on-board processors. An end-to-end system testbed will be developed that includes varying channel, antenna and hardware impairments in the downlink and uplink depending on the elevation angle. The testbed will include the baseband, analogue and RF domain to tes…

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 the activity is to design, manufacture and test a Scaled Engineering Model of rugged Ka-band RF front-end for secure TTC applications that will enable technologies for mitigation of intentional interference. Targeted Improvements: Ability to operate under severe Radio Frequency Interference. Description: TTC is a key equipment for all satellites since it provides the umbilical cord to the control station(s). It has to operate…

The objective of the activity is to design, manufacture and test a tribology-free mechanism breadboard for both platform and payload pointing applications on telecom satellites. The lifetime of the developed mechanism shall be assessed, and endurance testing shall be carried out. Targeted Improvements: Enabling a European source of compact, tribology-free pointing mechanisms with no backlash or friction hysteresis effects. Description: Today p…

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 this activity is to identify+ develop and test Software Defined Networking (SDN) based solutions for 5G Core Network (CN)+ capable of addressing efficiently and effectively Distributed Denial of Services (DDoS) attacks against 5G Non-Terrestrial Networks. This activity will develop a testbed of SDN implementation for 5G CN to test protection mechanisms against various attack scenarios for relevant 5G NTN use cases+ and study t…

The objective of this activity to design, manufacture and test a Ku- or Ka-band faceted reconfigurable reflect array operating in receive band for reconfigurable coverage applications. RF and thermo-elastic performance shall be experimentally evaluated.TargetedImprovements: - Reduction up to 20% the reflector aperture diameter in comparison to today's shape reflector technology.- Improvement of the directivity performance at the edge of t…

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 this activity is to design, manufacture and test a memory unit breadboard offering interface port and memory read and write speeds at 100 GigaBit per second and a capacity of at least 3 TeraBits for interconnected constellation telecommunication systems. Targeted Improvements: Improvement of the write speed by a factor of 10 compared to FLASH-based mass memories. Description:Future Low Earth Orbit (LEO) constellations with hig…

The objective of the activity is to design, manufacture and test a set of highly efficient (minimum 25% power added efficiency) Q-band Monolithic Microwave Integrated Circuits (MMIC) for active antenna applications in GEO, MEO and LEO. The packaged devices will be based on European technology covering the 10 Watt power class (GEO) down to a few 100mWs for LEO applications. Targeted Improvements: Enabling critical building block technology deve…