The objective of the activity is to de-risk software mitigation techniques for radiation effects on a family of high-performance processors embedded in System on Chip (SoC) components. The activity will identify, on one or more processors of interest for the industry, radiation-induced failure modes and will implement appropriate software mitigation techniques with reuse or development of small FPGA IPs if needed. Targeted Improvements: Enable…

The objective of the activity is to select an off the shelf European slipring technology for terrestrial applications and demonstrate its suitability for Satcom applicationTargeted Improvements: Improving by 20% of power density, lifetime, mass, volume, and lead time.Description: Solar Array Drive Mechanism (SADM) require complex slip-ring technology often leading to long delivery times. However, slipring technologies for terrestrial applicati…

The objective is to develop and test a Ku or Ka band transparent phased array antenna to provide broadband connectivity on board cars. Targeted Improvements: Develop a new class of phased array antennas for cars able to guarantee a seamless broadband connectivitywith LEO satellites. Description: There is today a significant interest to provide broadband connectivity to cars. This request is associated to the need to guarantee emergency service…

The objective of the activity is to design, manufacture and test an integrated W-band transceiver Radio Frequency Integrated Circuit (RFIC) configurable as transmitter and receiver covering the 71-86 GHz band for aeronautical satcom applications. Targeted Improvements: Enable satellite aeronautical broadband services in W-band. Description: The maturity of Silicon technologies allows for the implementation of multifunctional and reconfigurable…

The objective of this activity is to develop the technology step needed to enable the use of optical interconnects at speeds of up to 112 Gbps. This should be demonstrated through testing of an integrated digital signal functions (ASIC and FPGAs) with the developed electro-optic transceiver photonic integrated circuits that form the optical I/Os to replace traditional electrical I/O.Targeted Improvements:Increase the data rate throughput up to…

The objective of the activity is to develop an elegant breadboard of a high-power optical amplifier operating in L-band.TargetedImprovements:Enable access to spectrum in the optical transmission window(s) beyond the conventional C-band.Description:To date amplifiers in the optical L-band generate relatively low output power, which reduces their usefulness for high bandwidth data transmission. The activity will develop technologies to enhance t…

The objective of the activity is to characterise narrow attenuation lines (due to absorption or scattering) in the optical C-band (and ideally L-band) and to evaluate their effect on the communication performance of terabit-per-second feeder links. The activity will develop a testbed to perform measurements and to compare them against existing models. Targeted Improvements: 100% reliability improvement of terabit per second optical communicati…

The objective of this activity is to design, develop and test a breadboard of high-power W-band travelling wave tube (TWT) to meet the requirements of Very High Throughput Satellites.Targeted Improvements:Enable a European source of W-band TWT with 5 GHz instantaneous bandwidth, 100 W power output and at least 30% efficiency.Description:High Throughput Satellites (HTS) and Very High Throughput Satellites (VHTS) already use Q/V band frequencies…

The objective of the activity is to design, manufacture and test a thruster switching unit facilitating the connection of multiple electric propulsion thrusters to one or more power processing units for redundancy or configuration purposes optimising the system architecture.Targeted Improvements: - Improved efficiency (10% increase with respect to solid state solution).- Increased reliability with respect to a relay-based solution.- Reduced le…

Objective: The objective of this activity is to develop, deploy and operate a flexible software-defined radio communication testbedwith a frequency flexible RF front end on the International Space Station, supporting a wide range of frequencies up to Q/V band addressing 5G, signal processing and advanced techniques. Targeted Improvements: Enabling innovative and fast developments of future satcom applications from UHF to Q/V band that are diff…

The objective of this activity is to develop an optical ground station network testbed to which parties can connect their ground station and prototype network-related aspects for optical and quantum communications in an operational network environment. Targeted Improvements:Reduction of manual link planning and analysis effort. Testing and simulation capabilities for optical end-to-end data delivery. Description:The objective of this activity…

The objective of this activity is to design and develop a simulation testbed for secure delivery of assistance data with5G satellite networks to enhance positioning.Targeted Improvements:Foster the use of 5G satellite networks to enhance positioning with ubiquitous, reliable, and secure delivery of assistance data. Enable secure time and frequency synchronisation in existing or future telecommunication infrastructure.Description:Various positi…

The objective is to design and demonstrate a new class of low-profile and conformal antennas, providing seamless connectivity for 5G services on vehicles.Targeted Improvements:Enabling technology Satellite antennas compatible with the constrains of the automotive markets (in terms of aesthetics, aerodynamics and safety), whilst providing seamless connectivity, are currently not available.Description:The automotive sector is a crucial target gr…

The objective of the activity is to develop and test a configurable execution environment for an intelligent platform data handlingsystemTargeted Improvements:- 30% improvement of the performance of autonomous applications.- 50% reduction of the applicationsoftware integration and validation efforts.Description: The increase of processing power onboard spacecrafts will allow the implementation of intelligent functionalities such as early fail…

Objective: The objective is to design, implement and test the IP Cores of the receiver for the coding and synchronisation layer of the two CCSDS telemetry waveforms for optical communications. Targeted Improvements: New market opportunities for optical terminal and equipment manufacturers, addressing both photon-starved links up to 8Gbps and high data rate links up to 10Gbps. This activity will target to reduce by 50% the development costs in…

Objectives: The objective of this activity is to design, manufacture and test integrated circuits of the critical beamforming functions in silicon technologies, enabling Q/V-band electronically steerable antenna for satcom terminals. As a minimum, two types of integrated circuits will be developed. One chip shall be a multichannel transmit-receive beamforming radio frequency integrated circuit (RFIC) and the second chip shall be a multichannel…

The objective of this activity is to design, manufacture and test a 100W W-band waveguide high power isolator engineering model forfeeder link applications.Targeted Improvements: Enabling technology development for W-band feeder links not existing today in ESAMember States.Description: The usage of the spectrum available in W-band for satellite communications offers the opportunity to reduce the number of gateways in the ground segment. For su…

Objective: The objective of the activity is to design and develop a physical layer simulator in order to assess the communication needs, and develop a system concept to support air/space traffic management considering emerging transport means such as hypersonic space planes. Targeted Improvements: Enabling communications for a future European Air/Space Traffic Management System in support of hypersonic space planes. Performance improvement wit…

The objective of this activity is to develop the necessary 5G New Radio (NR) ground segment prototypes for servicing the Future Railway Mobile Communication System (FRMCS) via satellite and demonstrate the capability with end-to-end in orbit testing.Targeted improvements:Ensure compliance to the FRMCS safety and performance requirements by demonstrating the feasibility of servicing via a satellite link, complementing the terrestrial network. P…

Objective: Power efficient 75W class solid state power amplifier module for active antenna applicationsTargeted Improvements: - Reduced mass and volume by more than 50% compared to travel wave tube amplifiers.- Increased power efficiency by 20% in comparison to current state of art, reaching at least 40% PAE at the nominal operation point in Ku-band or 35% in Ka-bandDescription: Satellite telecommunication systems have experienced an evolution…

Satellite communication links have specific characteristics that undermine the performance of commonly used Internet protocols, notably TCP, in part because performance over satellite was not a major consideration during the development of those protocols. Specifically, the long propagation delay imposed by GEO satellite links and their asymmetric nature lead to poor TCP performance. Unless addressed, this can result in a poor user experience,…

The objective of this activity is to identify, analyse and test post quantum cryptographic solutions that are suitable for 5G Non-Terrestrial Network (NTN) key exchange and authentication. The activity will develop a testbed to implement and test identified post quantum cryptographic solutions.

The objective is to develop, embark and carry out an in-orbit experiment to investigate the performance of specific air interfaces over very low frequencies (in the 24 to 72 MHz range) for very low data rate (Internet of Things (IoT), emergency paging etc) from satellite to ground and vice versa. This experiment will include the channel characterisation (including space weather effects) and communication performance assessment in outdoor and i…

Objective:The objective of the activity is to develop scintillation mitigation techniques based on femtosecond pulses for optical feeder uplinks. Their performance will be experimentally verified using the fine acquisition sensor on Alphasat's laser communication terminal.Targeted Improvements:25dB link budget improvement under strong turbulence conditions.Description:The adoption of optical feeder links will largely depend on their abili…

Objective: The objective of the activity is to design, manufacture and test a W-band HPA for the ground segment. Targeted Improvements: Enabling W-band feeder uplink communications. Description: The use of W-band (71-76 GHz for downlink and 81-86 for uplink GHz) is expected to significantly increase the available bandwidth for Very High Throughput Satellite Systems (VHTS). W-band spectrum is also expected to reduce the number of gateways requi…