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 purpose of this activity is to implement the required receiver technologies to detect multiple DVB-CID signals, and verify the effectiveness of current technologies in realistic interference scenario. The activity is instrumental to enhance and improve the capability for detecting the presence of unwanted transmitter signatures.
The M2M market is increasing fast and more bandwidth is required. Ku-band M2M services can offer this bandwidth but require low-cost front-end components to be accepted by the market. The SiGeM2M project is demonstrating the implementation of the complete front-end transmitter functionality in a low-cost and low-power SiGe RF IC.
The European Space Agency (ESA) and Dublin City University have joined forces to establish a Satcom IoT ‘Maker Space’, which will support the development of innovative Machine-to -Machine (M2M) and Internet of Things (IoT) technologies for satellite communications.
Satellite systems have unique advantages for M2M/IoT such as broad coverage and connecting remote areas where there is no or limited terrestrial network infrastructure.
Today’s M2M/IoT protocols work well in terrestrial settings, while their applicability for space communication systems has received little attention so far.
In the frame of space debris mitigation, ESA has implemented new requirements and recommendations, which state that satellite propulsion systems shall be passivated at end of life. The main objective of the project is to develop a Gas Passivation Valve (GPV) to meet applicable passivation requirements related to the existing European Geostationary...