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This project demonstrates the feasibility of a software hub implementation scalable to support handling of 5 GHz RF bandwidth based on cloud technology and general processing hardware. The DVB-S2/S2X/DVB-RCS2 modulation and demodulation is performed by processing of digitized I&Q samples on general x86 CPU hardware with cloud technology, without use of FPGAs.
Transparent optical modulation schemes and RF-optical modulation -demodulation technologies for Tbit/s feeder links are investigated, including a simulation tool and a lab demonstrator for transmission through the atmospheric channel.
In terrestrial 5G networks, the concept of Integrated Access and Backhaul (IAB) is nowadays being standardised and initial deployments of IAB are being experimented with. IAB will support very flexible network deployments by allowing radio access network (RAN) nodes (gNB’s) to function as a relay to other network nodes, in addition to acting as regular access node for user equipment. The application of IAB could potentially support future heterogeneous “3D” networks that consist of satellite, terrestrial, airborne and maritime nodes and still need standard mechanisms for resource management, service management and orchestration of the many links within such topologies.
The activity aims to implement a fully software defined DVB-S2X demodulator, running on general-purpose hardware, which could replace a dedicated hardware demodulator in some selected use cases with a support of consumer hardware platforms, up to 36 Msymbols/s.
This project provides an opportunity for European satellite operators and service providers to combine forces and develop a set of common standardized interfaces they can all work with as their emerging Pooling and Sharing systems (PSS) evolve, allowing the interoperability between individual systems and other operators to join the ecosystem in order to build a more appealing open solution.
R3 IoT are enabling digitisation all across the world using a novel satellite-enabled smart gateway. With 90% of the planet not serviced by communications infrastructure the system allows companies with remote operations to gain insight and improve operations.
This project is developing the next generation of R3 technology, integrating new strategic technologies, improving the value-adding capabilities of our demonstrated service, and preparing for large-scale deployments around the world.
The activity covers the development, testing and validation of a pre-operational Satellite Services Aggregation Platform (neXat SAP) with the aim to cross-sell satellite capacity and services through this platform. This is followed by a Demonstration Phase to pilot use-cases with teleports operators.
The Satellite Operations as a Service project goal is to develop a service based on GMVs ground segment products. The solution allows satellite operators to completely outsource the control of the mission and focus on final mission purposes and exploitation.
Thales Alenia Space brings over 40 years of experience to the design, integration, testing and operation of innovative space systems for telecommunications, navigation, Earth observation, environmental management, exploration, science and orbital infrastructures.
Thales Alenia Space in Belgium is an expert in many high-technology fields and a key player in Electrical Power Conditioner for travelling Wave Tube Amplifiers.
In this activity, the design and manufacturing (using Selective Layer Melting - SLM) of a monolithic cluster containing 13 closely-packed (pitch of 22 mm), dual-band, dual-circular polarization feed chains in Ka-band for GEO antenna applications is demonstrated.
The Expanse project explores the possibility and impact of data acquisition, processing and data-based actuation within a comprehensive 5G satellite-terrestrial system using additional data sources, such as Earth Observation data and data from the application layer. The intention is to widen the technology horizon of SatCom industry in the direction of a more data-centric approach.
The Enpulsion Micro R³ is a 100W class electric propulsion system for small satellites. It is based on the FEEP technology and is developed as an all in one plug-and-play propulsion system.
Free Space Optical Communications links can offer high bandwidth and secure internet without the need for fixed fibre infrastructure, however turbulence in the atmosphere causes problems. Adaptive Optics using Laser Guide Stars can compensate for the turbulence, allowing stable and reliable optical communications. In GEOStar, such a system is being developed to demonstrate links with a geostationary satellite.
The market for small satellites is currently booming on a global scale.
One of the capabilities that could allow telecommunications applications from a small satellite system is the Inter-Satellite Link. For such links High Gain Antennas are needed; BEAMSAT-2 Axially Displaced Ellipse (ADE) antenna represents one of the first
developments of a HGA for CubeSats at 60 GHz.
5G-LEO extends OpenAirInterfaceTM to support satellite systems in non-geostationary orbits. This extension implements a full 5G protocol stack (Release ≥16) for both the UE and the gNB. As a main outcome 5G-LEO provides a publicly available new version of the open source OAI software library with new features to support 5G LEO satellite communication networks.
Development of the Onesat mechanical platform & propulsion systems, and a parallel technology development for Aquarius electrolysed water based propulsion technologies for future mission applications.
The main objectives of the project consist of developing new solutions in terms of test techniques, instrumentation and methods in order to overcome the three critical difficulties facing the space industry for the testing of multi-beam antennas.
MRC100 brings new features to Newtec Dialog® as part of ST Engineering iDirect’s continuous effort to deliver efficient, high-performant, scalable, and secure products. One of the main features is the upgrade of the Mx-DMA MRC return link technology to support higher baud rates of up to 100 Mbaud.
The project also investigates the use of AI and ML in ACM, and the potential increase of satellite network sizes using virtual carriers in a physical wideband carrier.
MECANO ID takes a new step in its development for the supply of composite structures with the maturing of robotized products for SatCom in the frame of this ARTES Competitiveness and Growth co-funded activity. Three products are targeted: Hyperstable Composite Tubes for antennas and reflector arms, Composite Booms New Generation for deployable systems and One-Shot Struts for structural applications.
SCNE simulator enables the design of the future LEO satellite communication constellations, but also the study and assessment of protocol and algorithm performances ranging from low-speed data collection and mobile communications to broadband and broadcast services.
The project aims at designing a compact, robust and cost-effective two-axis-mirror tilting system based on piezoelectric actuation. Main scope of application is the utilization as beam guiding mechanism in optical intersatellite communication.
The objectives of the project were to add enhancements to an existing optimised LoRaWAN to satellite software stack for advanced LoRaWAN over Satellite features including compatibility with LoRaWAN cloud-based management tools (Third-party NOC, IoT Platforms), LoRaWAN COTS sensor integration interfaces (ThingNOC API) and LoRaWAN security standards (LoRaWAN 1.1. security, Downlink firmware updates).
A World Class data security System For Your IoT Infrastructure.
Irish Startup Tisalabs LTD, through the SecureSat Project protects Critical IoT Infrastructure through data encryption, device identity management and communication technology with ironclad security. Our system level security enables our customers to take advantage of satellite Communications to build IoT solutions at scale and with an Ironclad security by design. Devices connected through LoRa/LoRaWAN technology and Satellite communications can transmit data securely from devices to Cloud using our Gateway Software technology.
Facing an anticipated five-fold growth of the number of natural disaster events by 2050, ReSCUE consists of an end-to-end integrated System (terrestrial + satellite) able to support all relevant public safety / mission critical operations.
This study identified the key technical, programmatic and financial conditions under which critical European needs for connectivity could be addressed by an autonomous, secure, high-performance, resilient and accessible satcom system.
Hybrid-ConneX, an Excelerate Technology-led consortium project combines a hardware platform (Hybrid Communications Module) and a fully-managed service (Hybrid Communications as a Service) which integrates High Throughput Satellite, WiFi and 4G/5G networks enabling Ambulances and Healthcare Pathways access to fast, secure, seamless and fully-optimised connectivity and Cloud services.
This program provides a beam-hopping system test bed for validating a ground-space synchronization mechanism (and other added value use cases) for HTS/VHTS transparent satellites. The project addresses the need for an efficient standards-based approach (integrating Mod/Demod prototypes based on DVB-S2x Annex E) validated in realistic conditions (payload breadboards + channel emulation) allowing prospective users to adopt BH techniques with confidence.
UK-based company Oxford Space Systems developed a highly scalable and modular deployable and steerable patch panel antenna array compatible with microsatellites. This technology development directly addresses the need for high- throughput systems for microsat platforms.
With the aim of contributing to cost reductions for EEE components in space, by employing methods, materials and techniques used for commercial and automotive industry, this activity covers assembly of the GR740 die in a suitable plastic package. An evaluation program demonstrating the capability to reach required environmental standards for SATCOM constellation programs is also included in the project activities.
The project intends to study and design a broadband satellite system for RPAS communications using HAPS as a relay node. The activity considers the flight dynamics of RPAS and HAPS, and their constraints in terms of mass and power. The development includes the end-to-end link as well as physical, data link, and network layers. The project develops a system demonstrator to validate the concept.
Innovative design and Qualification of new fully European monopropellant 1N thruster developed specifically to out-perform existing flight-proven designs in terms of specific impulse, pulsing capability and longevity. Radical use of materials, catalyst loading, nozzle and injector design, filtering and fine particle control, etc. make this thruster a key player in the 1N chemical thruster market for satellite orbit control systems. ESA Qualification for NeoSat and Flex programmes have been completed to date (December 2021) and further planned delta-qualification of the MHT-1N fitted with the European Nammo CTV-D flow control valve for another European prime will take place in early 2022. Flight Model Thrusters are being supplied to fly on ESA Flex, Altius and Lunar Pathfinder missions together with other commercial programmes. Nammo are increasing production capability to meet growing demand for this high performance thruster.
The main objective of the WAKA project is to design, build, and test an Engineering Model of the RF line-up of a W to Ka-band frequency converter for future telecom payloads by using European or Canadian state-of-the-art MMIC technology.
PERSILS from Aerospacelab in Belgium is an inter-satellite link solution for persistent connectivity to LEO satellites. It consists of a Ku-band terminal that leverages existing assets in GEO to relay Telemetry and Telecommand data.
AAC Clyde Space, in collaboration with their partners, are working on a 3-year project as part of the European Space Agency (ESA) ARTES Pioneer partnership programme, developing an innovative satellite constellation service, including the manufacturing of 10 spacecraft. xSPANCION is transformational, laying the groundwork for AAC Clyde Space to provide space data and services quickly, at low cost, to organisations who are eager to harness the power of satellites to tackle problems on-earth.
The activity aims to prototype DOG-1, a multi-mode receive modem, compliant to the optical CCSDS specifications and able to process up to 10Gb/s. The modem addresses both high and low intensity laser reception by using hard decision decoding and state-of-the-art soft decision decoding. DOG-1 will address the market need for very high bandwidth CCSDS compliant optical receive modem which can be deployed in a varienty of missions: LEO Earth observation to deep space data relays.
The objective of SATNEX V is to study medium/long term directions of Space and Satellite Telecommunication Systems for any of the Commercial or Institutional applications that can be considered appealing to key players in the space technologies domain but that are still not mature enough for attracting industry or initiating dedicated ESA R&D activities.
ARTES3-4 High Power Solar Array program purpose is to develop a Solar Array product family with enhanced performances and competitiveness. The different Solar Array configurations – from 4 to 6 panels per wing, with Small or Large panel size - allow to fit with the power range of the new generation of full electric geostationary satellites (Spacebus NEO).
