ARTES Advanced Technology is dedicated to long term technological development of the satcom industry based on ESA's initiative. This element focuses on research and development of new technologies and techniques in telecom satellites, ground and user equipment for future or evolving satcom systems.
The European Space Agency (ESA) and Dublin City University have joined forces to establish a ‘Maker Space’ environment, which will support the development of innovative Machine-to...
12 October 2016 – The European Space Agency’s Telecoms and Integrated Applications directorate (TIA) has announced a new element of the ARTES programme, called ...
28 June 2016 – ESA has launched a new Invitation to Tender with the goal of encouraging development of low data rate satellite communications concepts that would be suitable for...
7 March 2016 – Using GNSS for autonomous station-keeping is a significant breakthrough that should reduce operational costs and improve pointing performance of telecoms satellites...
The RF Systems, Payloads & Technology Division (TEC-ET) and the Payload Technologies and Products Section (TIA-TTP) have scheduled Final Presentation Days for Payload...
17 December 2015 – ESA's Directorate of Telecommunications and Integrated Applications (TIA) announces some major changes to ARTES 5.1, 5.2 and 3-4. In addition, these...
2 October 2015 – Satellite monitoring of wildlife has become a critical tool for environmental research purposes. Through the ARTES programme, ESA has been supporting the...
26 August 2015 – ESA is making funding available to help promising European SMEs build satcom components for modular smartphones. This ARTES 5.1 ITT closes on 14 October...
The Contract Change Notice template should be used when a contract change is required that affects only the schedule of a running ARTES 5.1 activity. If further contractual...
This project aims for an advanced air interface demonstrator able to support the development of future broadband mobile interactive services for land-mobile, maritime and aeronautical applications.
The VDES uplink testbed consists of a fast software based global system simulator, a hardware rack for ship transmitter or a satellite receiver testing, a software PL modulator/demodulator and a low power test transmitter.
The system is used to test VDES compatibility and system performance over a wide range of conditions.
The Ka-band feed positioner enables cross polarisation to be optimised, while
the terminal is transmitting. For 1.8 and larger offset Ka-band reflectors, this
saves a lot of installation time, because the AzEl don’t need adjustment. Having
set the AzEl for receive cross polarisation, the transmit will be a few millimetres
away, and this can be...
Waveguide harnesses for multi-beam satellite applications are contributing a substantial portion of the overall payload mass budget.
Thus, a novel bundled waveguide harness solution has been developed that provides essential advantages over state-of-the-art implementations. It does not only exhibit mass savings of more than 20%, but also improved...
In this activity, the consortium investigated an exhaustive and
comprehensive approach towards devising and prototyping an
enhanced cost-effective modem for MEO satellite broadband access.
The main prototype activity considered diversity combining and
seamless handover without packet loss. Additionally a scenario for
coverage extension...
