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…

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 develop and test a coating material (e.g. for substrates such as carbon fibre reinforced polymer, polymers, etc) with improved atomic oxygen and drag resistance to be used on the external satellite surfaces for very low Earth orbit applicationsTargeted Improvements:- Enabling technology not existing today; allowing telecommunication satellites with conventional construction materials in much lower orbits tha…

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: 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…

The objective of the activity is to develop, manufacture and test a latch to enhance the deployed stiffness of an existing array, by means of a slight repositioning of panels. Targeted Improvements: Increase the frequencies of the deployed array by 30%.Description: Most telecommunication solar arrays comprise in-line panels, arranged in a row. Some include lateral panels, forming a cross configuration. In the case of the latter, the frequency…

The objective of the activity is to design a compact L-band RF front-end for telecom applications which is based on a GaN Low NoiseAmplifier (LNA). A breadboard of a GaN microwave monolithic integrated circuit will be developed and tested. The RF front-end including the filtering function shall be modelled.Targeted Improvements: up to 30% mass and volume saving of the RF front-end (LNA and filtering) and 20 dB improvement of the LNA dynamic ra…

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:…

The objective of the activity is to develop, manufacture and test a power module with a new concept for Li-Ion battery management and with an advanced Electrical Power System Telemetry able to collect, store, retrieve and process large quantity of data related tothe Status of the Power System (SA, Battery, PCDU). A digital oscilloscope for the Built-In Test function and a function to analysein flight the degradation of solar arrays will be imp…

The objective of the activity is to design, develop and test payload technologies compliant with multi-beam receivers for satellite-based air traffic surveillance. Critical breadboarding will be carried out to demonstrate the concept suitable for use on small satellites in LEO or MEO. Targeted Improvements: 50% reduced payload power consumption, mass and volume compared to current technology.Increase the probability of message detection by a f…

Objective: 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 connectivity with LEO satellites. Description: There is today a significant interest to provide broadband connectivity to cars. This request is associated to the need to guarantee emerg…

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…

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…

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 develop rapid and flexible advanced manufacturing techniques, with a full digital workflow, forhigh volume production of complex-shaped composite reflector antennas from 1 to 3.5 metres in diameter.Targeted Improvements:Reduction in composite reflector manufacturing time by a factor of five in comparison to standard metallic mould processes.Description:Today, the manufacturing lead time of reflector antennas…

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…