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In this project a proof-of concept composite tank using a non-metallic liner was developed and demonstrated with an engineering model. The verification of design and materials was done analytically by FE analysis and experimentally by testing.
The aim of this program was to develop a product which will be suitable for use with mono-propellant thrusters with thrust levels of up to 200N (ex: Ariane 5 SCA thruster valves) and bi-propellant thrusters up to 650N (ex: LEROS engine range).
The objective of the activity is to develop a low cost, miniaturised antenna unit for automotive applications suitable for S-band Mobile Satellite Systems based on DVB-SH and in particular suitable for the systems of the two European S-band licensees Solaris Mobile and Inmarsat.
The aim of the INCAS project is to develop a fully redundant EM Innovative Contactless Angular Sensor to be embarked on TLC satellites, also including suitable signal conditioning electronics.
The main objectives of the FBAR (Film Bulk Acoustic Resonator) activity are to establish technologies, manufacturing processes and design methods for filters utilizing FBAR resonators.
The scope of the project is to develop a terminal able to cope with all the technical and commercial requirements related to the data full-duplex communication 'on the move' in a car application.
The objective of the project is the assessment of new filter design concepts based on dielectric technology for L- and S-band applications to improve performances mainly in terms of mass and volume minimization.
This study addresses the request to investigate antenna architectures able to shield a single selectable transponder channel of 36 MHz by the modification of an existing payload for broadcasting coverage application.
The FENICE project aims at developing an innovative, enhanced AIS receiver able to improve significantly the low probability of detection of AIS messages from a LEO satellite.
The FENICE product is designed and developed on the base of the excellent results coming from the ESA AIS System Study (in which CGS and CNIT are involved for the space segment and AIS receiver design).
The FENICE development provides a complete evaluation about the proposed AIS receiver complexity and performances.
The objective of this project is to develop the introduced and well-proven Media Fleet Manager software to support the needs of service providers and large broadcasters.
The main objective of the present project is the design and development of a Mobility Testing Environment (MTE) for the validation and verification of an Air-Ground Router (AGR).
The project involves the analysis, design, implementation and validation of a fully passive and highly accurate ranging system for geostationary satellites.
The intention of this project was to move the centralized functionality of our Wireless-To-Go™ pre-pay platform into the Cloud, in order to be able to support local ISPs offering pre-pay Internet services to their customers.
Within the OADT project, SwissOptic is developing two high performance optical assemblies, which form a substantial part of the reception and calibration path of Laser Communication Terminals for the European Data Relay Satellite system.
The project objective is to develop circulators and isolators with coaxial interface for various frequency bands from C-band downlink to Ka-band downlink.
In order to avoid the issue of parts obsolescence, the development of a new version (SCU MK2) is crucial. An objective is to benefit from this mandatory evolution and introduce upgrades consistent with the overall Eurostar evolutions driven by competitiveness and customer needs.
Taking advantage of the upgrading of the Spacecraft Computer Unit (SCU) towards a more optimized architecture, EADS Astrium is currently designing and developing a new security function for the Telecommand (TC) link between the Ground and Space segments.
The objective is to increase competitiveness by the standardization of East / West satellite sides including accommodation standardization of C and Ku-Band antennas meeting stringent customer needs.
The main objective of the DVB-S2 Satellite Experiment project is to perform an in-depth verification and optimisation by satellite of the many new features present in the DVB-S2 standard.
The objective of Galileo Avionica is to develop and test an elegant breadboard of an Active Pixel Sensor (APS) based star sensor, and to analyse the competitiveness of these sensors against existing CCD based star sensors.
The first phase of this project is to validate the experimental means and the degradation behaviours under irradiation of triple-junction and component cells developed by Azur. The second main phase is devoted to the realization of the tests and the exploitation of the data.
The overall aim of this activity is the development of thin Ge-based substrates for the fabrication of high-voltage integrated multi-junction solar cell modules.
The project objective is to develop a Three-way Isolation Valve (3IV) for satellite propulsion systems. The valve will connect the propellant tanks, the thruster branches and the fill and drain valve. It will also be possible to totally isolate each branch from the other two.
This proposal provides a basis for the study and the design of an Emulator for an ETSI BSM-Compliant SI-SAP Interface. The work will be based on an existing simulator of Satellite Dependent layers (DVB-RCS/S2), available at DLR. The partners will implement the required modifications in it, and will develop new modules, in order to enable the real-time emulation of a DVB-RCS/S2 network with an SI-SAP-compliant access interface.
This project will develop a new type of Low Noise Block (LNB) receiver, a so called Multi-Input Element Low Noise Block MLNB, which can replace a conventional LNB. This new MLNB allows signal reception with a small antenna where otherwise a larger dish would be needed with a conventional LNB.
The objective of this study is to design, manufacture and test an Engineering Model of a compact and low cost reference oscillator meeting the requirements specified in Updated Requirements Specifications for Reference Oscillator.
With the Alphabus product line, European Industry extends its telecommunication satellite range significantly beyond the capabilities of the existing platforms, such as Eurostar 3000 and Spacebus 4000, both with respect to maximum payload power and mass.
The objective of the RESKUE project is to design and implement a prototype of a novel antenna for a portable satellite user terminal for provision of high data rates via a GEO satellite in Ku-band. The satellite terminal has to be easy to transport without a vehicle and easy to deploy.
The aim of the proposed development is to improve the frequency flexibility of the Thales Alenia Space France (TAS-F) generic Command Receiver Product.
For future flight applications it is essential to demonstrate the maturity of a design by building up an Engineering Qualification Model (EQM) and to perform a complete qualification test campaign. This is also true for the High Data Rate 8-PSK Modulator and can be considered the main objective of this project.
The main goal of the project is to standardise solutions for IMS Satcom integration. In this process the project creates awareness in the satellite industry for integrating the IP Multimedia Subsystem (IMS) in Satellite based core telecom networks.
The objective of this study is to determine if and how ESA can play a significant role in In-Orbit-Validation to help filling the gap in important technology innovations in the market place.
This project aims to produce a space-qualified coated cover glass for telecoms use. Cover glasses are routinely used to protect photovoltaic cells from the space radiation environment, which prolongs the life of the spacecraft. Cover glasses also provide a performance enhancement, allowing optimal efficiency of the solar array.
The project objective was to perform the system accommodation of some of the electrical & power units developed in the frame of the Alphabus program within the Eurostar platform.
The project goal was to build a methodology and a software tool able to analyze the system performances of next generation S (or L) -band mobile satellite hybrid networks.
The objective of the current activity is to develop a Local Oscillator with enhanced phase noise performance to be integrated as part of MIER frequency converters.
