The objective of this activity is to design, implement and test active queuing management and packet scheduling techniques at the user terminals and ground equipment, so that the SATCOM network continues to provide seamlessly an acceptable throughput and latency to users under any congestion situation.Targeted Improvements:- Enabling a responsive and fair SATCOM network in any traffic andresources availability situation.- Keeping the addition…

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 the development and testing of an receiver for lunar optical communication in a photon starved regime. Targeted Improvements: Photon-starved optical communications data and tracking receiver with 8 times increased bandwidth (1 ns versus 125 ps). Description: A photon-counting detector receiver package for free-space communications between a lunar satellite and Earth-based ground terminal does not exi…

The objective of this activity is to develop, manufacture and test new solar cells with new structures, new processes that will increase the throughput.Targeted Improvements: Doubling the production throughput by the introduction of innovative processes with anew solar cell designDescription: Currently the demand of highly efficient solar cells is exceeding the supply and requires to bemuch more competitive. Simplified manufacturing processes…

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.

The objective of this activity is to design, develop and test enabling technologies for multi frequency transmit active antenna. This will include antenna radiating elements, beamforming techniques and active elements designed to cover Ku and Ka transmit frequency bands for ground terminals connected to non-geostationary multi-orbit satellites.Targeted Improvements: - Mass and size reduction by 30% by sharing components between frequency bands…

The objective of the activity is to carry out characterisation of the W-band channel affected by diurnal and long duration atmospheric changes, enabling future W-band system sizing. The activity will design, develop and test a W-band terminal hosted on a geostationary Earth orbit (GEO) spacecraft, and the associated ground terminals. Targeted Improvements:Increase in the acquisition time of W-band channel measurements for stable atmospheric pa…

Objective:This objective of this activity is to develop and test an extended protocol to address the support of predictive Qualityof Service (QoS) in Non-Terrestrial Networks (NTNs). The activity will also undertake the necessary investigation and selection of data-driven algorithms to automate predictive QoS in NTN.Targeted Improvements:Features enhancement to align NTN solutions in an integrated NTN/TN ecosystem in support to automotive serv…

This Call for Proposals covers the industry initiated activities for the four Programmes lines identified below:ARTES Core Competitiveness Generic ProgrammeLine- Component B: Competitiveness GrowthARTES Strategic Programme Line Space for 5G/6G and Sustainable Connectivity ARTES Strategic Programme Line Space Systems for Safety and Security (4S)ARTES Strategic Programme Line Optical and Quantum Communication - ScyLight. The participating state…

This Call for Proposals covers the industry initiated activities for the Civil Security for Space programme.

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 states to participate in the programme. It will…

The objective of this activity is to develop a testbed that allows the demonstration of vehicle-to-everything (V2X) 5G services viasatellite. Using existing satellite assets and on-ground antenna for mobile applications (not necessarily aesthetically attractive), the test bed shall address both forward and return link traffic, to support the definition of future V2X applications and associated technical enhancements. The set of services to be…

The objective of this activity is to develop and evaluate efficient digital beamforming algorithms and techniques that are compatible with non-uniform antenna arrays or non-uniform beam lattices. The developed techniques will be implemented and evaluated on a representative processor test bed. Targeted Improvements: 30 to 70% power reduction on the implementation of digital beamforming algorithms with non-uniform input/outputs with respect to…

Objective: To develop a simulator of optical propagation based on a high-resolution numerical atmospheric simulator, to be used forthe long-term characterisation and the forecast of the signal scintillation and other propagation effects in the area around a ground terminal for Earth-Space optical communication system. Targeted Improvements: Breakthrough to achieve regional optical channel performance assessment; achieve high resolution channel…

The objective of the activity is to design, manufacture and test in orbit an inflatable drag device for de-orbiting small satellites from Low Earth Orbit (LEO). Performance data will be gathered (deployment imagery and positional telemetry) in a fully representative space environment (including drag effects) that would not be possible to simulate or test on ground. Targeted Improvements:Reduce de-orbit time by a factor of 5 (for altitudes of 4…

The objective of this activity is to design, develop and test a breadboard of a highly integrated Q-V band beam forming network forflexible on-board feeder link active antennas. Targeted Improvements: Enabling a European source for Q-V band beamforming for feeder links. Description: Feeder links in next generation Very High Throughput Satellites (VHTS) rely on a full RF chain in Q-V band. Today, mechanically steerable multi-feed antenna archit…

The objective of the activity is to develop and test a power-efficient, high-throughput and fault-tolerant network switching architecture for regenerative processors using COTS System-on-Chip (SoC) components as software-defined network switches. This will include radiation testing and development of fault mitigation methods (at system and software level). Targeted Improvements: Enabling reliable software-defined packet switching using COTS co…

The objective of the activity is to design, manufacture and test a prototype of an on-board timing equipment for secure communications. Targeted Improvements: Enabling secure communications thanks to high accuracy and resilient timing synchronisation (sub micro seconds). Description:Governmental communications make use of secured waveforms, which implement modern techniques like frequency hopping or direct sequence spread spectrum, and require…

Objective: The objective of the activity is to develop CGH to replace classical optics (e.g. (dichroic) beam splitters, lenses...)in optical/quantum communication terminals. In addition, performance simulations shall be validated on CGH test samples. Several CGH device shall be manufactured, and their performance tested. A-thermal designs shall be investigated. Targeted Improvements: 50% reduction in the size, footprint and mass of classical b…

The objective of the activity is to design, manufacture and test a DC/DC converter (at least 1kW and up to 5kW range) breadboard with an input voltage of up to 300 V.Targeted Improvements:- Increase bus voltage levels up to 300 V,- Reduce harness mass by more than 100 kg (in high power platforms),- Reduce power losses by 90%.Description:Current electrical units only operate up to 100 V. However, employing bus voltages in excess of 100V, could…

The objective of the activity is to develop RF situational awareness functions for telemetry and telecommand receivers. Algorithms and a test-bed shall be developed and experimentally tested in laboratory conditions based on several representative operational cases.Targeted Improvements: Enabling interference and signal identification and classification using telecommand and telemetry signals. Description:Information obtained from RF (Radio Fr…

The objective of the activity is to design, manufacture and test low phase noise millimetre-wave VCOs based on a photonic integrated circuit for Q/V/W-band local oscillators. Targeted Improvements:- Improvement of 10 to 20 dB on phase noise performance as compared to state-of-the-art MMIC implementation- Compliance to phase noise requirements for Q/V and future W-band frequency convertersDescription: Very high throughput satellites call for th…

Objective: This activity aims at investigating different wavefront sensor technologies in order to identify the best suited one for operation under strong atmospheric turbulence conditions in optical communication applications. Targeted Improvements: 100% increased wavefront sensor performance under strong atmospheric turbulence conditions. Description: Optical beams propagating through the turbulent atmosphere undergo phase and amplitude fluc…

Objective: The objective of this activity is to develop and test a high data rate transceiver (TX-RX) demonstrator for coherent optical space-to-ground feeder links, with a high spectral efficiency. The demonstrator shall support coherent optical links with a data rate exceeding tens of Gbps. It shall demonstrate the increased spectral efficiency achieved by using advanced digital signal processing (DSP) techniques at both transmitter and rece…

Development of tools and hardware and the execution of a measurement campaign for background light and atmosphere conditions for Quantum Key Distribution (QKD) at urban location (major cities and metropolitan areas) under ARTES 4.0 Space Systems for Safety and Security (4S) Strategic Programme Line. These measurement results are an important check point to validate the design of the SAGA system. The background light and atmosphere metrology ac…