The objective of the activity is to design, manufacture and test technologies enabling the removal of failed small satellites (e.g.tumbling) from low earth orbit. Several breadboards will be developed and tested to reduce tumbling and to enable rendezvous and capture.Targeted Improvements: Enabling de-orbiting of large constellations of low Earth orbit telecommunication satellites. Description: In the coming years it is expected that the numbe…

The objective of this activity is to design, manufacture and test a partial RF breadboard of a transmit Ka-band, active phased array antenna and associated beamforming network for user links NGSO, exploiting irregular layouts for the radiating elements and beamforming networks.Targeted Improvements: In comparison to a standard, fully populated array:- 25% reduction in the number of active controls,- 5% increase in the DC to RF power efficiency…

The objective of the activity is to design, manufacture and test a Ku- or Ka-band transmit or receive antenna based on reconfigurable actuators for large mobile terminals connected to Low Earth Orbit (LEO) satellites.Targeted Improvements:Enabling reconfigurable terminal antennas with scan angles up to 50-60 degrees exploiting active actuators like pin or varactor diodes, MEMS and other possible actuators with an overall antenna thickness belo…

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 and perform an in-orbit experiment investigating autonomous deployment and early operations for telecom constellation satellites. This includes the development of command and data-handling hardware as well as AI/ML based operational algorithms developed on-ground.Targeted Improvements: Increase of onboard autonomy by 50% (i.e. include the key number of autonomous functions), including attitude acquis…

The objective of this activity is to design, manufacture and test two breadboards corresponding to a reconfigurable 4-channel 30 GHz low power Combiner Frequency Multiplexer (CMUX) and a 4-channel 20 GHz low power frequency Demultiplexer (DMUX). Targeted Improvements: Replacement of conventional fixed-bandwidth CMUX and DMUX equipment with a tuneable solution capable of supporting agile traffic management.Description: Current broadband satelli…

The objective of the activity is to design, manufacture and test an electric thruster using Argon propellant, compatible with the long lifetime and high total impulse requirements of telecommunication satellites in GEO and for constellations.Targeted Improvements:- Novel capability to operate with Argon propellant not existing today.- Improved lifetime and Total Impulse per kW(N.s/kW) by a factor of 2.- Decreased complexity of the thruster arc…

The objective of the activity is to study and define a technical and deployment roadmap for edge-computing-enabled Beyond 5G (B5G) and 6G space infrastructure. Use cases of Non-Terrestrial Networks (NTN) edge computing will be selected and a corresponding demonstrator will be breadboarded and tested.Targeted Improvements: Enabling edge-computing-capable space infrastructure.Description:The Beyond 5G (B5G)/towards 6G roadmap is rapidly evolving…

The objective of this activity is to design, develop and test a high-power Tx/Rx W-band diplexer for ground terminals.Targeted Improvements:Enabling technology for ground stations W-band gateway links with high power handling and low PIM.Description:The useof the available spectrum in W-band (71-76 GHz for downlink and 81-86 GHz for uplink) is attractive to satcom systems asit could beadopted in the gateway of Very High Throughput Satellites (…

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…

The objective of the activity is to develop and test a reprogrammable testbed in space to permit the experimentation of Beyond 5G (B5G) satellite features and capabilities and enable technology verification and demonstration; rapid validation of end-to-end solutions and services, following the principles of continuous development/continuous integration. B5G satellitefeatures will be implemented in the testbed as part of the activity to demonst…

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 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.

Upon Delegation Request (*) The objective of the activity is to develop, manufacture and test an integrated automotive S-band antenna that combines satellite IoT and 5G terrestrial communications. Targeted Improvements: Reduction of antenna form factor from a protruding antenna (e.g. shark fin shape) to planar antenna fully integrated in the car roof. Bandwidth increase from 30 to 90 MHz for satellite and 5G communications. Description: The In…

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 this activity is to define, develop and test in a test bed, routing algorithms and schemes, and other mitigation techniques that need to be implemented in different types of satellite networks (LEO, MEO and multi-orbit constellations) so as to mitigate the risk of routing-based DDoS attacks. The mitigations, which shall include all potential types, from optimised for DDoS resilience routing algorithms, to in-network filtering,…

Objective:The objective of the activity is to analyse and demonstrate the benefits of replacing coaxial cables/waveguides with fibre optics in large RF phased array antennas. The activity shall identify the best technologies to be employed and it will design, manufacture and test 2 breadboard demonstrators covering both analogue and digital transmission.Targeted Improvements:Order of magnitude mass and volume reduction by substituting the pass…

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 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…

Objective: The objective of the activity is to develop and test a laser safety system for Optical Feeder Link (OFL) operations based on AI/ML techniques. The activity shall emphasise on airspace safety measures to handle uplink operations with significant opticalpower. The safety system shall be capable to operate autonomously. Implementation shall be based on commercially available hardwareplatforms. The activity will also provide the testbed…

The Pioneer programme, implemented under the ARTES 4.0 Generic Programme Line "Partnership Projects", aims to supports the emergence of Space Mission Providers (SMPs), i.e. commercial entities interested in becoming one-stop-shop service providers for public and private customers. The Open Call for proposals is aimed to offer the opportunity for new companies from across all ESA member statesto participate in the programme. It will b…

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 objective of the activity is to design+ develop and manufacture a ground-based breadboard module allowing existing and auxiliary data from/linked to GNSS services to be securely delivered to their users via satellite communications using a secure protocol.

Objective:The objective of this activity is to investigate a telecom gateway antenna able to work simultaneously in both the RF (Ka- Q/V-Band) and optical wavelengths.Targeted Improvements:This product is currently not available and it would allow a phased migration from RF communications to optical communications.Description:There is a clear trend in the need to increase bandwidth in order to increase the data rate, within the telecommunicat…