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.

  • MULTI-PLATFORM DUAL BAND CONFIGURABLE POWER AMPLIFIER FOR AVIONIC TERMINALS (ARTES AT 7C.052) (ON DELEGATION REQUEST)

    Objective: The objective of the activity is to develop, manufacture and test a breadboard of a L- and C-band configurable power amplifier to enable dual band operation of avionic terminals. It shall demonstrate 200W peak power per channel and a 10dB dynamic rangewith a constant average power added efficiency of at least 50% for both bands, without compromising linearity performance. The breadboard shall include driver, main and peak amplifier,…

  • DEVELOPMENT OF A TESTBED TO ASSESS SPACECRAFT MATERIALS ROBUSTNESS AGAINST ATOMIC OXYGEN IN VERY LOW EARTH ORBIT ENVIRONMENT (ARTES AT 4A.101)

    The Objective: The objective of the activity is to design, manufacture a testbed to determine materials behaviour of atomic oxygen fluence exposure representative in Very Low Earth Orbit (VLEO) environment. With the help of the testbed, in a second step, an aerodynamic and oxygen fluence resistant coating will be developed and evaluated as needed for protection of exposed parts of the spacecraft to the VLEO environment.Targeted Improvements: E…

  • RECONFIGURABLE ANTENNAS FOR MOBILE TERMINALS BASED ON ACTIVE ACTUATORS (ARTES 4.0 AT 7C.080)

    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…

  • PROTOCOL STACK ENABLING VOICE-CALL USING NON-TERRESTRIAL IOT WAVEFORM (ARTES 4.0 SPL 5G/6G 3F.013)

    The objective of this activity is to develop the software protocol stack for Release 18 enhancements related to 5G New for Radio (NR) for Non-Terrestrial Networks. The software protocol stack development shall be based on a testbed considering both the User Equipment (UE) and g-NodeB (gNB) features and operational procedures.Targeted Improvements:Enable 5G NR NTN system performance simulations with the latest Release 18 modifications.Descripti…

  • VERY LOW EARTH ORBIT GAS GENERATOR FOR AIR-BREATHING ELECTRIC PROPULSION GROUND TESTING (ARTES 4.0 AT 4B.174)

    The objective of the activity is to develop, build and test a gas generator to reproduce the gas flow density and composition of a Very Low Earth Orbit (VLEO) environment with high fidelity for on-ground testing of air-breathing electric propulsion systems.Targeted Improvements:Enabling a European gas generators for ground testing of VLEO missions.Description: Electric propulsion technologies developed for Very Low Earth Orbit (VLEO) applicati…

  • 5G AUTOMOTIVE MAKERSPACE (ARTES 4.0 SPL 5G/6G 3F.010)

    Objective: The objective of this activity is to design, develop and test automotive prototypes following 5GAA workplans and increase the number of companies working on automotive satellite communications by 30%. Targeted Improvements: Novel hand-over methods between satellite and terrestrial networks supporting use cases as formulated by 5GAA and miniaturised automotive terminal baseband units.Description: The 5G Automotive Association (5GAA)…

  • SMALLSAT PLATFORM WITH SELF-TRANSFER CAPABILITY INTO GEOSYNCHRONOUS ORBIT (ARTES AT 3E.001) (ON DELEGATION REQUEST)

    The objective of this activity is to develop radiation tolerant platform technologies and semi-autonomous orbit transfer capabilityfor small satellite platforms. An experimental small satellite will be designed, manufactured and launched. The satellite will feature the platform technologies developed as well as a simple telecommunication payload allowing experiments during orbit raising to GEO as well as in GSO. Targeted Improvements: Enabling…

  •  ARTES 4.0 SPL 4S 5A.087 REGENERATIVE TRANSPONDER WITH BUILT-IN SIGNAL SECURITY PROCESSING FOR USER AUTHORISATION 

    The objective of the activity is to develop technology to prevent non authorised usage of satellite communication bandwidth throughthe implementation and enforcement of on-board authentication protocols. During this activity+ a breadboard that implements such protocol will be developed in a laboratory environment.

  • BEYOND 5G (B5G) AND 6G NON-TERRESTRIAL NETWORKS EDGE COMPUTING SATELLITES (ARTES 4.0 SPL 5G/6G 3A.184)

    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…

  • HANDOVER ENGINE AND TESTBED FOR SATELLITE-BASED 5G NON-TERRESTRIAL NETWORKS (NTNS) (ARTES 4.0 SPL 5G/6G 3F.015)

    The objective of this activity is to develop a machine learning (ML) engine that optimises handover between two different 5G networks, where at least one of them is a satellite-based non-terrestrial network (NTN). The activity will also provide the testbed to assess the handover key performance indicators in a laboratory environment.Targeted Improvements:Identify and avoid higher risk handovers improving thus the handover success rate to reach…

  • HIGH POWER W-BAND TRANSMIT-RECEIVE DIPLEXERS FOR GROUND STATIONS (ARTES AT 6B.118) (ON DELEGATION REQUEST) - EXPRO+

    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 (…

  • WEATHER-PROOF OPTICAL COMMUNICATION GROUND TERMINAL (ARTES 4.0 SL SPL 6C.050 ) EXPRO PLUS

    The objective of this activity is to evaluate the pros and cons of a weather-proof optical ground terminal (without protective domeenclosure) and to breadboard critical sub-systems. Targeted Improvements:At least 50% faster optical ground station deployment.Description:Today telescopes for ground based free-space optical satellite communication are originating from astronomical telescopes. The current need for optical ground telescopes has cha…

  • SINGLE-CHIP 71-86 GHZ TRANSCEIVER RFIC FOR AERONAUTICAL SATCOM APPLICATIONS (ARTES AT 6A.074) (ON DELEGATION REQUEST)

    The objective of the activity is to design, manufacture and test an integrated W-band transceiver Radio Frequency Integrated Circuit (RFIC) configurable as transmitter and receiver covering the 71-86 GHz band for aeronautical satcom applications. Targeted Improvements: Enable satellite aeronautical broadband services in W-band. Description: The maturity of Silicon technologies allows for the implementation of multifunctional and reconfigurable…

  • OPEN REPROGRAMMABLE SPACE INFRASTRUCTURE TESTBED FOR BEYOND 5G (B5G) END-TO-END SOLUTIONS AND SERVICES (ARTES 4.0 SPL 5G/6G 3E.019)

    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…

  • COMPACT, HIGH TEMPERATURE AND MODULAR 100 W-CLASS ELECTRONIC POWER CONDITIONER FOR KU- AND KA-BAND TRAVELLING WAVE TUBES (ARTES AT 5C.514)

    The objective of this activity is to develop and test a modular 100W-class Ku- and Ka-band universal compact Electronic Power Conditioner (EPC) based on MHz-range switching frequency, high temperature, wide bandgap technology and planar magnetics. This will include an efficient thermal management design.Targeted Improvements: - Mass, footprint and volume reduction up to 30% whilst maintaining efficiency comparable to current state of art.- Com…

  • POWER EFFICIENT ONBOARD ANALOGUE PHOTONIC INTERCONNECTS FOR HIGH THROUGHPUT SATELLITES (HTS) (ARTES 4.0 SL SPL 5F.050)

    The objective of the activity is to develop very low power analogue photonic interconnects for linking antennas to the on-board digital processor in high throughput satellites, also in view of an all-optical satellite implementationTargeted Improvements:Increase connector density by 100% through the replacement of the coaxial cable connectors with multi-fibre connectors, more than halvingthe harness mass and volume linking the antennas to the…

  • SATELLITE COMMUNICATION TEST-BED ON-BOARD THE INTERNATIONAL SPACE STATION (ARTES AT 3A.118) (ON DELEGATION REQUEST)

    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…

  • TRANSMIT-RECEIVE BEAMFORMING AND FRONT-END CIRCUITS AND CHIPS FOR Q-V BAND SATCOM TERMINALS (ARTES AT 7C.097)

    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…

  • IN ORBIT EXPERIMENT OF AUTONOMOUS DEPLOYMENT AND EARLY OPERATIONS FOR TELECOM CONSTELLATION SATELLITES (ARTES AT 3E.024) (ON DELEGATION REQUEST)

    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…

  • KA-BAND TRANSMIT SPARSE ACTIVE PHASED ARRAY AND BEAMFORMING NETWORKS FOR NGSO USER LINKS (ARTES AT 5B.240)

    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…

  • IMPLEMENTATION OF SOFTWARE MITIGATION SOLUTIONS FOR RADIATION-INDUCED SINGLE EVENT EFFECTS (ARTES 4.0 AT 5C.490)

    The objective of the activity is to de-risk software mitigation techniques for radiation effects on a family of high-performance processors embedded in System on Chip (SoC) components. The activity will identify, on one or more processors of interest for the industry, radiation-induced failure modes and will implement appropriate software mitigation techniques with reuse or development of small FPGA IPs if needed. Targeted Improvements: Enable…

  • SOFTWARE SIMULATOR FOR AIR/SPACE TRAFFIC MANAGEMENT VIA SATELLITE FOR HYPERSONIC SPACE PLANES (ARTES 4.0 4S SPL 3A.155 / 4S.013) - EXPRO+

    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…

  • QUANTUM RESISTANT KEY EXCHANGE AND AUTHENTICATION MECHANISM FOR 5G NON-TERRESTRIAL NETWORKS (ARTES 4.0 SPL 4S 3D.026)

    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.

  • W-BAND HIGH POWER AMPLIFIER FOR THE GROUND SEGMENT (ARTES AT 6B.120) (ON DELEGATION REQUEST)

    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…

  • HIGH IMPULSE ARGON ELECTRIC THRUSTER (ARTES AT 4B.181)

    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…