Funding

This page displays the ARTES Invitation To Tenders (ITTs) which are published on ESA-STAR. If you are looking for a specific element select from the list provided and click on the Apply button to start the search and display the results.

Funding of the individual Prime or subcontractors, for ARTES Core Competitiveness and ARTES Applications activities, is subject to authorisation of the required ARTES budget by the related National Delegations. Therefore, bidding teams are requested to inform their National Delegation(s) of their intention to participate in funded activities already before submitting a proposal.

The official information platform for providing potential bidders all the relevant documentation and details concerning the intended and issued Invitations To Tender (ITTs) for Open Competitions and Direct Negotiations is ESA-STAR - managed and operated by the ESA Procurement Department.

  • HANDOVER, DATA ROUTING AND RADIO RESOURCE MANAGEMENT FOR VERY LOW EARTH ORBIT (VLEO) BROADBAND CONSTELLATIONS (ARTES 4.0 AT 3C.043)

    The objective of this activity is to develop and test handover, data routing and radio resource management techniques for a broadband satellite constellation in Very Low Earth Orbit (VLEO). The techniques will be implemented, and their performance assessed in a software system testbed. Targeted Improvements:Enabling system techniques for VLEO broadband systems not existing today in ESA member states.Description: The VLEO orbit is now the centr…

  • BATTERIES BASED ON EUROPEAN COMMERCIAL OF THE SHELF BATTERY CELL TECHNOLOGY (ARTES AT 4F.145) (ON DELEGATION REQUEST)

    The objective of this activity is to develop, design, manufacture and test a battery with European Commercial Off The Shelf (COTS) battery cells for telecom space applications. Targeted Improvements:- At least 20% mass reduction at battery level;- Enabling European independency and continuity of technology sourcing. Description: Current state-of-the-art space Li-Ion cell technology can provide around 180 Wh/kg, while Li-Ion COTS cell technolog…

  • ARTIFICIAL INTELLIGENCE/MACHINE LEARNING FRONT-END MODULE FOR SATCOM 5G/6G INTEGRATED ACCESS-BACKHAUL TRANSCEIVERS (ARTES 4.0 SPL 5G/6G 6B.119)

    The objective of the activity is to develop, implement and test a breadboard of a digital transceiver front-end capable of switching between access and backhaul modes of operation for integrated satcom-terrestrial 5G/6G networks. The transceiver core shall be supported by an AI/ML engine implemented for a set of commercially available hardware and software platforms. The activity shall also provide the testbed to test the AI/ML-based transceiv…

  • IN-ORBIT EXPERIMENT OF A VLEO SATELLITE TO ENABLE PRECISE ORBITAL MODELLING AND SYSTEM SIZING (ARTES AT 3E.026) (ON DELEGATION REQUEST)

    The objective of the activity is to develop high fidelity models to allow the mission design of satcom constellations in VLEO. An in-orbit experiment will be designed and manufactured to measure key geographically and time dependent atmospheric parameters (density, radiation, ionospheric, chemical composition etc..) as well as satellite flight parameters (including drag, solar cells efficiency, etc..). These measurements will enable the precis…

  • 500 AMPERE CLASS POWER UNIT FOR ONBOARD PAYLOAD SIGNAL PROCESSING HARDWARE IN COMMUNICATION SATELLITES (ARTES AT 5C.516)

    The objective of this activity is to design, manufacture and test a 500A class power unit capable of supplying DC power for both large on-board and AI processors for use in communication satellites.Targeted Improvements: Improved current supply capability of voltage regulators by a factor of ten enabling the use of high performance AI processors (GPUs and TPUs) in future telecom satellites.Description: Artificial Intelligence (AI) processors,…

  • ARTES 4.0 SPL 4S 3A.199 RADIO RESOURCE MANAGEMENT TECHNIQUES FOR JAMMING MITIGATION IN NGSO CONSTELLATIONS

    The objective of the activity is to design, develop and test jamming mitigation strategies for NGSO broadband secure systems based on adaptive radio resource management algorithms.

  • ANTENNA FOR UNIVERSAL SATELLITE-TERRESTRIAL 5G LAND MOBILE TERMINALS (ARTES SPL 5G 7C.061) (UPON DELEGATION REQUEST)

    Upon Delegation Request (*) The objective of the activity is to develop and validate a mobile terminal antenna that supports satellite connectivity and terrestrial 5G. A prototype of the antenna will be manufactured and tested in a laboratory environment. Targeted Improvements: Terminal size, weight and power reduction (30 to 50%) achieved by integrating 5G satellite and terrestrial antenna systems.The integration of satellite communications…

  • SPECTRUM SHARING TECHNIQUES FOR BEYOND 5G (B5G) AND 6G 3D NETWORKS (ARTES 4.0 SPL 5G/6G 3A.185)

    The objective of the activity is to investigate and develop spectrum reuse and sharing techniques for integrated NTN-TN 3D networksthat allow them to pool, share, and rapidly reallocate spectrum on demand among their heterogeneous components/segments. The techniques will be prototyped in a testbed to be implemented as part of the activity.Targeted improvements:Enabling spectrum reuse and sharing in integrated NTN-NT 3D networks.Description:Spe…

  • SPARSE TRANSMIT KA-BAND ACTIVE PHASED ARRAYS FOR GROUND TERMINALS CONNECTED WITH SATELLITES IN DIFFERENT ORBITS (ARTES AT 7A.077)

    The objective of this activity is to develop and test a Ka-band sparse active transmit antenna breadboard and associated beamforming network for ground terminals to be connected with satellites in orbits ranging from geostationary orbits to low earth orbit orbits. Targeted Improvements: - 25% reduction in the number of active controls.- 5% increase in the DC-to-RF power efficiency at antenna level, due to the reduced exploitation of amplitude…

  • HIGHLY EFFICIENT 20 W S-BAND AMPLIFIER FOR 5G-CONNECTED CARS (ARTES 4.0 SPL 5G/6G 7C.082)

    The objective of the activity is to design, manufacture and test a highly efficient 20 W S-band Power Amplifier.Targeted Improvements:Efficiency higher than 70% - enabling technology for S-Band automotive applications.Description:Recent studies have shown the potential of satellite communications for 5G-connected cars. Although various frequency bands may be envisaged, the S-band can offer a simple systems architecture as well as a satisfactor…

  • EUROPEAN CHIP INDUCTOR FOR POINT OF LOAD CONVERTERS IN TELECOMMUNICATION SATELLITES (ARTES 4.0 AT 5C.499)

    The objective of the activity is to design, manufacture and test surface mount chip inductors enabling low voltage (down to 0.8 V range) stability, fast transient response, high-speed switching capability and efficient power conversion of point of load(POL) converters, as needed for next generation digital integrated circuits in telecommunication satellites.Targeted Improvements:- Enablinga European source.- 20% mass and volume reduction and 2…

  • ION THRUSTER GRID IMPEDANCE MEASUREMENT DEVICE FOR IN-FLIGHT THRUSTER HEALTH MONITORING (ARTES AT 4B.182)

    The objective of this activity is to extend the thruster lifetime and optimise the operating point of the thruster and to develop afinite element model of the grids system together with the plasma in between to allow health checks.Targeted Improvements:- 20%increase in thruster lifetime.- 20% decrease of grid thruster failure probability (erosion).Description: Telecom platforms couldbenefit from gridded ion thrusters in the near future, but c…

  • WDM LASER SOURCES AT 1064NM (ARTES 4.0 SPL OPTICAL COMMUNICATION - SCYLIGHT 5F.018) - RE-ISSUE

    Objective: The objective of the activity is to develop low noise and small footprint semiconductor laser diodes at 1064nm compatible with WDM operation and the associated low-power consumption driving electronics. The activity shall also investigate technologicaloptions to further reduce the footprint and the power consumption of the low-power section of an optical transmitter at 1064nm (e.g., integration of multiple lasers diodes, optical mod…

  • KA-BAND RADIO FREQUENCY FRONT-END RESISTANT TO INTENTIONAL INTERFERENCE FOR SECURE TTC (ARTES 4.0 4S SPL 4G.041)

    The objective of the activity is to design, manufacture and test a Scaled Engineering Model of rugged Ka-band RF front-end for secure TTC applications that will enable technologies for mitigation of intentional interference. Targeted Improvements: Ability to operate under severe Radio Frequency Interference. Description: TTC is a key equipment for all satellites since it provides the umbilical cord to the control station(s). It has to operate…

  • HIGHLY INTEGRATED TRANSMIT AND RECEIVE DIRECT RADIATING ANTENNA ARRAY BASED ON MM-WAVE SILICON TECHNOLOGIES AND PACKAGING (ARTES AT 5B.241)

    The objective of the activity is to develop a highly integrated, scalable Ku or Ka-band TX/RX direct radiating array, for versatileconnectivity missions in low earth orbit. Critical breadboarding will be carried out, levering the advances in Mm-wave silicon technologies and advanced packaging techniques to achieve a high degree of integration. Targeted Improvements: Enabling highly integrated combined transmit and receive active antenna with a…

  • SINGLE-PIECE-PART W-BAND PHASED ARRAY ANTENNA INCLUDING THE PASSIVE RF FRONT-END (ARTES AT 5B.239)

    The objective of this activity is to design, manufacture and test a W-band/E-band phased array antenna including the passive RF front-end taking advantage of additive and hybrid manufacturing techniques in order to reduce its complexity and mass compared to conventional subtractive techniquesTargeted Improvements: 30% mass reduction, removing screws and assembly interfaces.Description: With the multiplication of broadband communication satelli…

  • MULTIFUNCTIONAL HINGE FOR LARGE ON-BOARD DIRECT SATELLITE-TO-DEVICE ACTIVE ANTENNA ARRAYS (ARTES 4.0 SPL 5G/6G 4E.093)

    The objective of the activity is to develop and test a multifunctional hinge technology to accommodate a large multi panel active antenna array on a spacecraft platform, with integrated sensing to avoid adverse local deflections due to spacecraft dynamics.Targeted Improvements:Enabling technology for very large active antennas with disperse panels to be accommodated on a spacecraft platformfor future 5G/6G (direct to handheld) satellitesDescri…

  • WDM HIGH-POWER OPTICAL AMPLIFIER AT 1064NM (ARTES 4.0 SPL OPTICAL COMMUNICATION - SCYLIGHT 5F.020)

    Objective: The objective is to develop a high-power and high-efficient optical booster amplifier, compatible with WDM operation at 1064nm wavelength range. Two versions, with different output optical power and wall-plug efficiency requirements, are to be developed to address operation under space and ground environmental conditions. Targeted Improvements:Strategic component not available inESA's Member States nor in Cooperating/Associated…

  • IN-ORBIT EXPERIMENT OF HIGH-PERFORMANCE DATA TRANSPORT, SWITCHING AND PROCESSING TECHNOLOGIES FOR TELECOM APPLICATIONS IN LOW EARTH ORBIT (ARTES AT 3E.017) (ON DELEGATION REQUEST)

    The objective of this activity is to design, develop and perform an in-orbit experiment of high-performance data transport, switching and processing technologies consisting of several key building blocks like processors, mass memory, switches and optical interconnects, allowing a data throughput of up to 10 Terabit per second to enable future high performance telecommunication applications. Targeted Improvements: Improvement by a factor of two…

  • VERY LOW EARTH ORBIT SYSTEM SIMULATOR FOR DIRECT SATELLITE-TO-DEVICE 5G/6G COMMUNICATIONS (ARTES 4.0 SPL 5G/6G 3F.019)

    Objective: The objective of the activity is to develop and test a system simulator testbed capable of modelling and assessing the performance of communication satellite constellations operating in Very Low Earth Orbit (VLEO). This includes the assessment of the emerging waveforms (5G NTN, European Protected Waveform).Targeted Improvements: Enable the design and assess the constellation system performance of communication satellites operating i…

  • ARTES 4.0 TECHNOLOGY AND PRODUCT DEVELOPMENTS ACTIVITY - STANDARD CALL FOR PROPOSALS

    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…

  • CIVIL SECURITY FROM SPACE PROGRAMME - STANDARD CALL FOR PROPOSAL

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

  • PIONEER PARTNERSHIP PROJECTS (PIONEER 4.0) - STANDARD CALL FOR PROPOSAL

    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…

  • INTEGRATED STRUCTURAL ANTENNA FOR HIGH ASPECT RATIO SATELLITES (ARTES 4.0 AT 5B.223) - RE-ISSUE

    The objective of this activity is to develop an integrated structural antenna concept for high aspect ratio satellites. The antenna concept shall be frequency and size scalable. Critical breadboarding shall be carried out to evaluate the concept for mobile satellite communication systems in Low Earth Orbit. Targeted Improvements: Enabling stackable satellites with efficient launch volume occupation with an improvement of 30% in comparison to e…

  • RF TRANSMIT AND RECEIVE FRONT-END FOR V-BAND INTER-SATELLITE LINK (ARTES 4.0 AT 5C.501) RE-ISSUE

    The objective of the activity is to design, manufacture and test a highly integrated transmit and receive single chip front-end (including LNA, HPA and switch functions) for V-band inter-satellite links employing electronically steerable antennas. Targeted Improvements: Enabling V-band RF inter-satellite links based on active antennas, not existing today in ESA member states. Description:Inter-satellite links (ISL) are being more and more cons…