ESA will support an initiative to define a future amateur satellite payload in geostationary orbit. ESA proposes that this activitywill be implemented by a combination of collaborative internal, industrial, and amateur efforts, all within the financial envelope as indicated. The activity shall consolidate requirements from the amateur and commercial satellite industry, trade-off several payload options, address the future user segment, develop…

The objective is to develop a multi-model informed predictive tool of atmospheric parameter variability for mission design and operation.Targeted Improvements:- Enabling a new European tool allowing prediction of atmospheric conditions (e.g., density, composition, radiation) over time, including local state and total dose.- To reduce initial mission design margins hence avoiding overdesign.Description: The recent loss of several communication…

The objective of this activity is to proof that a standardised existing solution such as NB-IOT can be used for satellite-to-satellite low data rate communications. Targeted Improvements: Introduce world's first standardised intersatellite data relay solution based on 3GPP NTN standards, opening up a new market for new companies and telecom operators toprovide data solutions to Earth Observation missions via intersatellite data relay. Des…

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 the activity is to design, develop and test key building blocks for software defined payloads using a model-based approach. At least six building blocks implementing telecommunication application functions (e.g. signal processing, signal filtering, encryption, compression, etc.) shall be developed. At least two use case applications shall be developed, and the performance tested to validate the approach.Targeted Improvements:…

Study, design and validate a secure two-way ranging protocol relying on 5G Non-Terrestrial Network (NTN) in LEO.Targeted Improvements:Enable secure two-way ranging via future LEO 5G satcom services for target applications such as IoT sensors.Description:All GNSS systems are principally based on one-way ranging and as such they are fundamentally vulnerable to spoofing and/or meaconing attacks, even in the presence of GNSS security mechanisms su…

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…

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 is to carry out an assessment of the NTN deployment of the 5G NR air interface in TDD mode and identification of technology gaps and constraints. Develop a software testbed implementing and testing the scenario.Improve the overall spectrum utilisation by up to 50% when using Time Division Duplex communication as per 3GPP standard.The 3GPP has specified for Non-Terrestrial Networks (NTN) the n255 and n256 bands, both operating in…

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 demonstrator of a frequency coordination system that manages access to spectrum among different non-geostationary satellite systems. The concept will be implemented and tested as a real-time emulator to be developed as part of the activity.Targeted improvements: Improving the achievable throughput by 50% with respect to partitioning the frequency band.Description:The increasing number of c…

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.

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…

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:The objective of this activity is to develop and test a power efficient 5G User Plane Function (UPF) prototype, implemented onto space enabled hardware platforms. The development will leverage concrete laboratory results of various RAN splits and compensate for their impact on the 5G protocol stack. Finally, system integration with a ground segment control plane will be tested, over emulated LEO constellationsTargeted Improvements:-…

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,…

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…

The objective of this activity is to implement and test the signal processing portion of a 5G LEO satellite payload capable of handling several high throughput beams assuming an active antenna configuration. The demonstrator shall be based on a processor capable of controlling a reconfigurable beam-forming network (BFN) and performing signal (re-)generation andchannelisation of 5G waveforms. Targeted Improvements: Enable 5G regenerative payloa…

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…