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.
MACHINE LEARNING ALGORITHMS FOR NETWORK MANAGEMENT IN OPTICAL SATELLITE CONSTELLATIONS (ARTES 4.0 SL SPL 6B.113) - EXPRO+
Objective: Design and development of software for network management in optical satellite constellation networks with machine learning techniques. The performance shall be benchmarked against solutions with classical network optimisation techniques.Targeted Improvements: 50% improvement in capacity utilisation while delivering guaranteed quality of service (QoS). Description:Satellite constellation networks with optical ISLs bring about the po…
SUPPORT TO QUIC STANDARDISATION (ARTES FPE 1D.019)
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,…
BROADBAND TUNEABLE KA-BAND FREQUENCY MULTIPLEXERS (ARTES AT 5C.430) (ON DELEGATION REQUEST)
The objective of this activity is to design, manufacture and test two breadboards corresponding to a reconfigurable 4-channel 30 GHz low power Combiner Frequency Multiplexer (CMUX) and a 4-channel 20 GHz low power frequency Demultiplexer (DMUX). Targeted Improvements: Replacement of conventional fixed-bandwidth CMUX and DMUX equipment with a tuneable solution capable of supporting agile traffic management.Description: Current broadband satelli…
DEMISABILITY OF OPTICAL COMMUNICATION TERMINALS FOR SATCOM CONSTELLATIONS IN LEO (ARTES 4.0 SL SPL 5A.081)
Objective:The key objective of this activity will be the investigation of the demise behaviour of different optical communicationterminals for current and future applications on-board satcom platforms in LEO (e.g. future constellations) and therefore the development of breadboard of the design for demise solutions and technologies identified to reduce the on-ground casualty risks associated with these elements.Targeted Improvements:Reduce by a…
AUTOMOTIVE S-BAND ANTENNA FOR SATELLITE IOT AND 5G TERRESTRIAL COMMUNICATIONS (ARTES SPL 5G 7C.062) (UPON DELEGATION REQUEST)
Upon Delegation Request (*) The objective of the activity is to develop, manufacture and test an integrated automotive S-band antenna that combines satellite IoT and 5G terrestrial communications. Targeted Improvements: Reduction of antenna form factor from a protruding antenna (e.g. shark fin shape) to planar antenna fully integrated in the car roof. Bandwidth increase from 30 to 90 MHz for satellite and 5G communications. Description: The In…
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…
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…
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…
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…
LIGHTWEIGHT ONBOARD FORWARD ERROR CORRECTION DECODING FOR HIGH DATA RATE OPTICAL INTER-SATELLITE LINKS (ARTES 4.0 SL SPL 5F.038)
Objective: The objective of this activity is to design, simulate and test a high data rate Forward Error Correction decoder and demonstrate this via a breadboard running at a data rate of at least 100 Gigabits per second (Gbps) with soft decision decoding. The decoder shall target next generation optical inter-satellite links and shall be made lightweight in terms of onboard resources usage. Targeted Improvements:- 10 times improvement of the…
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…
HIGH EFFICIENCY SILICON-BASED AMPLIFIER FOR KA-BAND USER TERMINALS (ARTES AT 7B.067) (ON DELEGATION REQUEST)
The objective of this activity is to design, manufacture and test Ka-band high efficiency amplifier monolithic microwave integratedcircuit (MMIC) based on silicon technology for user terminals. Targeted Improvements:- Amplifier power added efficiency above 30% with a noise power ratio of 15 dB minimum- Key building block for future highly integrated Ka-band user terminal active antennas. Description:The satcom market requires highly integrated…
END-TO-END ADAPTIVE OPTICS BI-DIRECTIONAL MODELLING TOOL FOR OPTICAL FEEDER LINKS (ARTES 4.0 SL SPL 6C.035) - EXPRO+
Objective: This activity aims at developing a modular software tool allowing to simulate the improvement from employing adaptive optics (AO) systems in bidirectional optical ground station (OGS) to satellites optical communication and quantum links scenarios (e.g. GEO, LEO, MEO). Targeted Improvements: 50% improvement of design time and computation time to dimension optical communication systems operating through atmospheric turbulence enhance…
UNCOORDINATED SATELLITE ACCESS SCHEME OVER-THE-AIR DEMONSTRATION IN MARITIME VHF BANDS (ARTES AT 3C.030) (ON DELEGATION REQUEST)
The objective of the activity is to develop and test signal reception techniques that enable uncoordinated satellite access schemesin the maritime bands for VHF Data Exchange (VDE) by a population of maritime transmitters in the presence of in-band interference from maritime and external sources such as in-land terrestrial services. The techniques will be implemented and evaluated in a prototype receiver to be developed as part of the activity…
ARTES 4.0 SPACE SYSTEMS FOR SAFETY AND SECURITY (4S) ROLLING WORK PLAN 2020-2021
1. Introduction.Four new technology and product development activities are added in 2021, that have already been identified as useful to the foreseen development of next-generation 4S solutions over the coming years. These work plan activities will be issued under the legal framework of the ARTES 4.0 Strategic Programme Line (SPL) Space Systems for Safety and Security (4S).2. ImplementationPhasing: phasing of the contractual activities may be…
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…
IN-ORBIT EXPERIMENT OF BEYOND LINE-OF-SIGHT GROUND TO LEO LINKS USING IONOSPHERIC REFRACTION (ARTES AT 3E.002) (ON DELEGATION REQUEST)
The objective of the activity is to test the performance of beyond line-of-sight narrow-band communication links between ground andLEO satellites in operational conditions. One of the key aspects of the experiment is the effect of ionospheric refraction and reflection as an enabler of satellite links beyond the line of sight. The activity will include the development of a small payload and aground terminal. Targeted Improvements:Enabling new s…
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…
OPTICAL COMMUNICATION TELESCOPE SYSTEM WITH TX/RX SEPARATION (ARTES 4.0 SL SPL 5G.038)
Objective:The objective of the activity is to develop a size optimised telescope for optical communication terminals with optically separated transmit and receive path.Targeted Improvements:100% improvement (doubling) of user terminal accessibility (no need for A and B terminals), reuse of bandwidth allocation and implementation simplicity of terrestrial coherent >100 Gbps transceivers (no polarisation not wavelength issues).Description:Thi…
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…
SUN TOLERANT OPTICAL COMMUNICATION LINK ACQUISITION AND TRACKING (ARTES 4.0 SL SPL 5G.034)
Objective:The objective of this activity is to add a slow modulation scheme on a high-data rate optical link, so allow efficient daylight sun-background subtraction on the tracking sensor and allow more robust operation at small sun-spacecraft-angles.TargetedImprovements:50% higher link availability at small sun-spacecraft-angles (10 degrees).Description:With incoherent and coherent optical communication schemes the counter terminal needs to b…
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…
TURN KEY QUANTUM COMMUNICATION OPTICAL GROUND STATION CONTROLLER FOR SELF-SUFFICIENT STATIONS (ARTES 4.0 SL SPL 6B.111)
Objective:The objective of this activity is to design and develop a computer control system hardware prototype and its interfaces with every subsystem to provide a self-sufficient optical quantum communication ground stations interfacing with all subsystems without the need of technical supervision and without public internet connection.Targeted Improvements:- 50% cost reduction of OPEX cost of operational optical ground stations - Enabling no…
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…
Q/V BAND PHASED ARRAY ANTENNAS FOR GROUND TERMINALS (ARTES AT 7C.070) (ON DELEGATION REQUEST)
The objective of this activity is to develop and test a receive Q-band prototype, and a transmit V-band beamformer, both supporting2 beams scanning in a large field of view for the mobility market (e.g. aeroplanes, buses, trains). Targeted Improvements:Enabling technology for Q/V band user terminals for the mobility market (aeroplanes, buses, trains). Description:Today, terminal antennas are mainly exploiting the Ka- and the Ku-frequency bands…