EU RESEARCH

INTEGRUAS
Tecnologías para la INTEGRAción de UAS en el espacio aéreo
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  • 2023-09-01
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  • 2025-06-30
PROGRAMA TECNOLÓGICO AERONÁUTICO INTEGRUAS investigará en tecnologías para el desarrollo de sistemas de vigilancia y posicionamiento, aumentando el nivel de seguridad y automatización en las operaciones. También contempla el desarrollo de nuevas tecnologías relacionadas con el centro de misión y procesamiento de datos.
Este proyecto está parcialmente subvencionado por el CDTI, con el apoyo del Ministerio de Ciencia e Innovación.

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GALIRUMI
Galileo-assisted robot to tackle the weed Rumex obtusifolius and increase the profitability and sustainability of dairy farming
  • H2020
  • 2019-12-01
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  • 2022-11-30
The main objective of GALIRUMI is to deliver robot weeding for herbicide-free weed control in dairy farming. Robotic weeding will reduce the environmental impact of dairy farming by eliminating herbicide use and reducing exposure of farm workers to herbicides. It will also remove an important obstacle for dairy farmers to switch to organic production, thereby contributing to an increase in production of organically produced milk and higher incomes for farmers.GALIRUMI will develop and demonstrate a number of innovative technologies in weed detection, weed degradation, autonomous vehicles and robot-as-a-service for precision dairy farming based on precise navigation provided by EGNSS.
Main Partners:
STICHTING WAGENINGEN RESEARCH, DANMARKS TEKNISKE UNIVERSITET, Loon- en grondverzetbedrijf Koonstra BV, Pekkeriet Dalfsen B.V., MACHINEFABRIEK STEKETEE BV, INSTITUT DE L'ELEVAGE.
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 870258.
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COMP4DRONES
Framework of key enabling technologies for safe and autonomous drones’ applications
  • ECSEL
  • 2019-10-01
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  • 2022-09-30
The COMP4DRONES project complements SESAR JU efforts with a particular focus on safe software and hardware drone architectures. COMP4DRONES will bear a holistically designed ecosystem ranging from application to electronic components, realized as a tightly integrated multi-vendor and compositional drone embedded architecture solution and a tool chain complementing the compositional architecture principles. The ecosystem aims at supporting (1) efficient customization and incremental assurance of drone embedded platforms, (2) safe autonomous decision making concerning individual or cooperative missions, (3) trustworthy drone-to-drone and drone-to-ground communications even in presence of malicious attackers and under the intrinsic platform constraints, and (4) agile and cost-effective compositional design and assurance of drone modules and systems. COMP4DRONES will also build an open sustainable ecosystem around public, royalty-free and goal-driven software platform standards that will ease the development of new drone functionalities for multiple application domains. Lead applications driving ecosystem development and benchmarking on the fields of transport, inspection, logistic, precision agriculture, parcel delivery.
Main Partners:
Indra, CEA, IKERLAN, UNICAN,SIEMENS THALES, INFINEON, TOTAL, ALTRAN
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 826610.  
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GLAD 2
GNSS/INS Low-cost attitude determination and navigation systems – Phase 2
  • H2020
  • 2016-02-01
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  • 2018-01-31
GLAD-2 is aimed at the industrialization of an innovative product (GNSS low cost attitude determination and navigation system, reinforced magnetic immunity) and its commercialization plan. The innovative and technologically advanced prototype (TRL6), outcome of an FP7 project, (with proven feasibility through SME-INST-1 project) will be transformed into a TRL9 profitable product. It avails an identified business opportunity derived from the UAS/RPAS expansion and lack of precise and low cost attitude determination and navigation solutions. This will be done in parallel to the regulation harmonization in Europe, thus fostering this niche market, mainly in the civilian professional sector, for applications requiring low cost attitude and navigation determination, mainly in magnetic interference sensitive applications.|
Main Partners:
ACORDE
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 698729
Low Cost, Positioning
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AUDITOR
Advanced multi-constellation EGNSS augmentation and monitoring network and its application in precision agriculture
  • H2020
  • 2016-01-01
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  • 2017-12-31
The goal of AUDITOR is the implementation of novel precise-positioning techniques based on augmentation data in custom GNSS receivers to improve the performance of current augmentation services and reducing costs. These techniques are already patented by the consortium and proven to offer better accuracy with faster convergence times than solutions commercially available. More sophisticated atmospheric models will be implemented to provide better corrections of ionospheric errors and further increase accuracy. All these advances will be integrated in a software demonstrator that will use public data from GNSS networks to generate these correction data streams. These new receivers will enable costeffective.
Main Partners:
CTTC, UPC, TUM, DRAXIS, ALPHA, DLO
This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 687367
Augmentation, Positioning
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GLAD
GNSS/INS Low-cost attitude determination system
  • H2020
  • 2014-10-01
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  • 2015-03-31
The objective of GLAD Phase 1 is the study of the commercial feasibility of a low-cost attitude determination and navigation system based on non-dedicated mass market GNSS receivers and antennas aided by MEMS sensors. The fusion of GNSS and inertial data takes advantage of the complementarity of these two technologies to achieve accurate and reliable navigation: inertial sensors provide excellent dynamic response at very high data rates, while GNSS serves as an absolute reference to prevent the drift inherent to the numerical integration of acceleration to calculate velocity and position. In addition, differential GNSS carrier-phase measurements can be used to obtain extremely accurate orientation by using a multi-antenna configuration.
Main Partners:
ACORDE
Low Cost, Positioning
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TRITON
Trusted vessel information from trusted on-board instrumentation
  • FP7
  • 2012-09-01
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  • 2016-03-31
A new consciousness has arisen in the scenario of civilian and commercial maritime control: surveillance and safety systems may be under the attack of intentional or unintentional or malevolent players.| TRITON is an R&D project that gives some of the possible answers to the threats above, focusing on increasing the trustworthiness of on-board instrumentation used to report vessel information to the control organisms. Today’s maritime surveillance operations rely on ship reporting systems such as AIS (Automatic Identification System), LRIT (Long Range Identification and Tracking) and VMS (Vessel Monitoring System), whose reported data (such as vessel ID, accurate position and time, course over ground, speed over ground, heading, rate of turn, etc.) are typically not verified nor validated in any way.
Main Partners:
ISMB, Kongsberg Norcontrol
Positioning, Security
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LOGAM
Low cost GNSS attitude and navigation system with inertial MEMS aiding
  • FP7
  • 2011-09-01
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  • 2014-03-31
The main objective of the LOGAM project is the design and development of an ultra low-cost attitude determination and navigation system based primarily on non dedicated mass market GNSS receivers and antennas and aided by MEMS inertial sensors. Accuracy at low cost is needed in various real-time applications such as vehicle tracking, unmanned aerial vehicles (UAVs), etc… To open the way for its widespread use the embedded applications requires not only accurate position and attitude information, but also strictly real time abilities, such as system efficiency, reliability and feasibility as well as the size, consumption and cost. At the end of the project our aim is to produce a functional prototype capable of demonstrating the targeted system characteristics fitting with a great number of present and future applications.
Main Partners:
ISMB, CEA-LETI, Aermatica, CTC
Low Cost, Positioning
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ARMOURS
Antenna and fRont-end Modules for pUblic Regulated Service applications
  • FP7
  • 2011-08-01
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  • 2014-03-31
The ARMOURS proposal is committed to the development of novel technologies for the implementation of future multi-frequency PRS receivers, filling some of the technological gaps to enable affordable and robust solutions for future demanding applications relying on the continuous availability of the PRS service. Target segments are Low-End and Medium-End PRS receiver implementations, with the widest potential market in the PRS application domain. The developments that will be addressed in the frame of the project aim to give a tangible response to the problem of low-cost implementation of multi-frequency radio modules for professional applications.
Main Partners:
EPFL, Sofant, IMEC
Security, Positioning
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GRAMMAR
Galileo ready advanced mass market receiver
  • FP7
  • 2009-02-01
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  • 2011-07-30
GRAMMAR represents a highly innovative approach to developing a prototype GNSS receiver, targeted at mass market applications, with the widest potential exploitation. We aim to produce functional prototypes of the receiver and its components, enabling practical testing and demonstration at the completion of the project.
Main Partners:
DLR, Tampere University of Technology
Masb, Positioning
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TIGER
Trusted innovative GNSS receiver
  • FP7
  • 2009-01-01
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  • 2010-09-30
The TIGER project represents the development of a highly innovative security platform and target application exploiting current and future GNSS as well as augmentations systems such as EGNOS. Development of such technology not only provides a platform for the target mass-market application, an access control token, but also ensures development of European intellectual property that can be leveraged for a myriad of security applications and future research, presenting significant market opportunity
Main Partners:
Quascomm
Security, Positioning
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GREAT
Galileo receivers for mass market
  • FP6
  • 2006-03-01
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  • 2008-03-31
The GREAT project aims to enable the fast commercialization of Mass Market Receivers for the Galileo service, by designing critical Intellectual Property (IP) blocks for early production. The work Programme has been focused primarily on the practical issues facing the designer of a first generation mass market Galileo Receiver.
Main Partners:
DLR, Qualcomm, uBlox
Positioning, Masb
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