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.

  • EARTH UPPER ATMOSPHERE FORECAST TOOL FOR MISSION DESIGN AND OPERATION (ARTES 4.0 AT 4C.066)

    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…

  • ARTES 4.0 SPL OPTICAL COMMUNICATION - SCYLIGHT: RF AND OPTICAL HYBRID GATEWAY ANTENNA (6C.002/SL.024)(ON DELEGATION REQUEST) - EXPRO PLUS

    Objective:The objective of this activity is to investigate a telecom gateway antenna able to work simultaneously in both the RF (Ka- Q/V-Band) and optical wavelengths.Targeted Improvements:This product is currently not available and it would allow a phased migration from RF communications to optical communications.Description:There is a clear trend in the need to increase bandwidth in order to increase the data rate, within the telecommunicat…

  • MASS MEMORY UNIT WITH 100 GIGABIT PER SECOND WRITE RATE CLASS FOR LOW EARTH ORBIT COMMUNICATION APPLICATIONS (ARTES AT 5C.498) (ON DELEGATION REQUEST)

    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…

  • INVISIBLE PHASED ARRAY ANTENNA TO PROVIDE BROADBAND CONNECTIVITY ON BOARD CARS (ARTES 4.0 SPL 5G/6G 7C.094)

    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…

  • PIONEER PARTNERSHIP PROJECTS (PIONEER 4.0) - OPEN 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 statesto participate in the programme. It will b…

  • MODEL-BASED APPROACH FOR SOFTWARE DEFINED PAYLOAD APPLICATIONS (ARTES AT 5A.089)

    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:…

  • ARTES 4.0 SPL OPTICAL COMMUNICATION - SCYLIGHT : DEMONSTRATION OF RELIABLE HIGH DATA RATE OPTICAL LINKS UNDER STRONG ATMOSPHERIC TURBULENCE CONDITIONS (3B.042 / SL.015)

    Objective:The objective of this activity is to demonstrate reliable high data rate optical transmission through the atmosphere (>100Gbps) in a scenario representative (in terms of link attenuation and optical turbulence) of an optical link between a telecom satellite and an Optical Ground Station for elevation angles down to 5deg. Targeted Improvements:Improve the service quality and availability of high data rate optical links through the…

  • 5G NON-TERRESTRIAL NETWORK SECURE TWO-WAY RANGING FOR LEO SATELLITES (ARTES 4.0 SPL 5G/6G 3F.022)

    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…

  • SOLAR ARRAY WITH LATCHED SHALLOW CURVED SURFACE FOR IMPROVED DEPLOYED STIFFNESS (ARTES AT 4F.161) (ON DELEGATION REQUEST)

    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…

  • IN-ORBIT DEMONSTRATION OF A NARROW BAND INTERNET OF THINGS (NB-IOT) INTER-SATELLITE DATA RELAY (ARTES 4.0 SPL 5G/6G 3E.023)

    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…

  • FREE-SPACE COHERENT OPTICAL LINK FOR TIME AND FREQUENCY TRANSFER (ARTES 4.0 SL SPL 5F.041)

    Objective:The objective of the activity is to develop and prototype a free-space optical Frequency and Timing transfer solution over a coherent optical link optimised for the use case of linking critical infrastructure and metrology applications.Targeted Improvements:The two parameters to be improved over existing RF-based techniques are time and frequency transfer accuracy (factor 5 to 10 improvement), resistance to interference and robustnes…

  • SYSTEM ARCHITECTURE AND WAVEFORM FOR AERONAUTICAL MOBILE-SATELLITE ROUTE SAFETY AND SECURITY SERVICES IN C-BAND ( ARTES 4.0 SPL 4S 3A.198)

    The objective of this activity is to design, develop and validate a system architecture and suitable waveform for an Aeronautical Mobile-Satellite (Route) Services (AMS(R)S) constellation in C-band for safety and security services.

  • FREQUENCY COORDINATION DEMONSTRATOR FOR NON-GEOSTATIONARY SATELLITE SYSTEMS (ARTES AT 3A.153) (RE-ISSUE OF ITT 1-11179)

    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…

  • BREADBOARDING OF CRITICAL TECHNOLOGIES FOR A MULTI-BEAM SATELLITE RECEIVER FOR AIRCRAFT MODE-S SIGNALS (ARTES 4.0 4S SPL 5A.082) (ON DELEGATION REQUEST)

    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…

  • ATMOSPHERIC TURBULENCE EFFECT MITIGATION BY SECONDARY MIRROR ACTUATION (ARTES 4.0 SL SPL 6C.020)

    Objective: The objective of this activity is to simplify optical feeder links systems in Optical Ground Stations by replacing the secondary mirror with an active (deformable) one and to demonstrate the improvement in transmission budget and complexity. Targeted Improvements: 30% increased optical throughput in optical communication ground stations. 20% reduction of complexity in adaptive optics and beam pre-distortion in feeder-link systems. R…

  • DVB ENERGY SAVING DELIVERY OF CONTENT (ARTES AT 3A.201)

    Objective: The objective of the activity is to design, develop and test protocols and system level approaches for energy saving video content distribution in satellite telecommunication networks. A testbed will be developed to evaluate the energy savings achievedin real networks considering the different video codecs, air interfaces and video quality. The output shall be available to the DVBstandardisation EADC (Energy Aware Delivery and Consu…

  • POWER EFFICIENT USER PLANE FUNCTIONS FOR B5G SMALL SATELLITE PLATFORMS (ARTES 4.0 SPL 5G/6G 3F.016)

    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:-…

  • RAPID AND FLEXIBLE END-TO-END MANUFACTURING PROCESS FOR COMPLEX-SHAPED COMPOSITE REFLECTOR ANTENNA (ARTES 4.0 AT 5B.226)

    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…

  • HIGH SPEED DISRUPTIVE TOLERANT NETWORKING NODE FOR DIRECT-TO-EARTH LINKS (ARTES AT 6B.095) (RE-ISSUE OF 1-11211)

    The objective of this activity is to develop and test a prototype of a Disruptive Tolerant Network (DTN) software node for the ground segment for usage in end-to-end data communication architectures, to support high speed Direct-to-Earth space links with bitrates up to 10Gbit/s. The DTN node shall be adaptable to state ofart high speed modems and monitoring and control architectures.Targeted Improvements: Eenable disruptive tolerant network no…

  • DRAG AND ATOMIC OXYGEN RESISTANT CARBON FIBRE REINFORCED POLYMER FOR VERY LOW EARTH ORBIT TELECOM SATELLITES (ARTES AT 4A.092) (ON DELEGATION REQUEST)

    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…

  • ARTIFICIAL INTELLIGENCE-BASED SYSTEM FOR AUTONOMOUS ON-BOARD FAILURE ISOLATION, RECOVERY, AND RESOURCE OPTIMISATION FOR TELECOMMUNICATION CONSTELLATIONS (ARTES AT 4A.099) (ON DELEGATION REQUEST)

    The objective of the activity is to design, develop and validate an on-board software relying on Artificial Intelligence that autonomously detect, isolate and recover failures at spacecraft level and that performs resource optimisation at constellation level to recover and improve the overall availability of the service.Targeted Improvements: - Enabling autonomous FDIR management at the level of constellations.- Enabling autonomous performance…

  • MAGNETIC BEARING SYSTEMS FOR HIGH-SPEED ROTARY MECHANISMS (ARTES 4.0 AT 4E.092)

    Objective: The objective of the activity is to design, manufacture and test a magnetic bearing system for high-speed rotary mechanisms in telecommunication spacecraft applications (e.g. reaction wheels or thermal control pumps and compressors). Targeted Improvements:- Increase rotation speed by a factor of 2 (resulting in higher angular momentum capability). - Increase lifetime by a factor of 2 (due to contact-less bearings and no lubrication)…

  • DIRECT CHIP COOLING WITH PULSATING HEAT PIPES (PHPS) (ARTES AT 4D.086)

    The objective is to develop and test a direct chip to baseplate thermal concept based on Pulsating Heat Pipes that reduces design complexity and yet widens the operating temperature range and thermal transport performance.Targeted Improvements: - Improved heattransfer performance to at least 60 watts per chip.- Operation in adverse vertical gravity and below -40C- Reduced manufacturing complexity in chip to unit baseplate thermal transport com…

  • L-BAND GALLIUM NITRIDE LOW NOISE AMPLIFIER-BASED RF FRONT-END (ARTES AT 5C.465) (ON DELEGATION REQUEST)

    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…

  • ASIC/FPGA WITH 112 GBPS OPTICAL I/OS (ARTES 4.0 SL SPL 5C.480)

    The objective of this activity is to develop the technology step needed to enable the use of optical interconnects at speeds of up to 112 Gbps. This should be demonstrated through testing of an integrated digital signal functions (ASIC and FPGAs) with the developed electro-optic transceiver photonic integrated circuits that form the optical I/Os to replace traditional electrical I/O.Targeted Improvements:Increase the data rate throughput up to…