IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Programme 2021 - 2027 Interreg VI-B Danube

Date of latest update: 2024-12-18

Description

Description (EN):

GNSS observations are widely used for monitoring tectonic displacements and deformations. These applications require high positioning accuracy and continuous observations are needed to be able to detect even small displacement rates. Although GNSS sensors have been used in these tasks, the spread of the technology was limited due to the high costs of the GNSS receivers. GeoNetSee will create a solution for monitoring unstable terrain and artificial structures, which will include a geosensor network and a platform for collecting, processing, and visualizing collected data in real-time. An innovation chain of technology and knowledge-intensive activities within the DRP region will be created to close off innovation gaps and the uptake of advanced technologies for a smarter and greener Danube region. The project will rely on existing infrastructure, experience, and knowledge from previously implemented and ongoing projects of similar character managed by project partners (GIMS, RISE, GeoTwinn (Horizon); EXA4MIND, safEarth, RESPONSa (Interreg); eTeren, BORIS, SoFPAS, GeoSES (infrastructure EU funded projects); MontePN, TRMODELL (innovative and IPA); URMA (Europan Space Agency funded project)). The strong support and cooperation with the associated strategic partners (Rescue and Protection Directorate in Montenegro, Innovation and Entrepreneurship Center Tehnopolis, Public Water Management-Vode Vojvodine, Directorate for emergency situations in Serbia, Traffic Institute CIP, Ministry of Natural Resources and Spatial Planning in Slovenia, Federal Administration for geodetic and property affairs in Bosnia and Herzegovina, Microrisc from Czech Republic, Hungarian Public Roads, Hungarian State Railway, Romanian Space Agency, Disaster Competence Network Austria) will increase the impact of GeoNetSee results. This cooperation will have a positive impact on regional policies and strategies implementation and ensure the project’s long-lasting sustainability in accordance with the legal framework. A collaborative digital platform that brings together universities, institutes, SMEs and governmental bodies will be established. This platform, called the Danube Collaborative Center (DCC) will share all collected data, research findings, best practices, and expertise in multidisciplinary domains. DCC will foster partnerships and collaboration with similar EU organizations and commissions, to leverage existing expertise, share resources, and align efforts in data collection, analysis, and knowledge sharing. As it will connect the DRP region, stakeholders and different research domains, it will transcend existing political borders and provide an opportunity for “vertical” communication between stakeholders (problem givers) and researchers (problem solvers). By DCC platform development the legacy of the Project is ensured as with the available large amount of easily accessible specialized data the future transfer of knowledge and good practice will be guaranteed and solutions can be harmonized even outside the DRP area. The solution will include the installation of permanent CORS stations in Serbia, Montenegro, and Bosnia & Herzegovina, that would join the European Plate Observing System (EPOS) which also includes the EUREF Permanent global positioning satellite systems (GNSS) Network (EPN). This will provide added value to the GeoNetSee and ensure bi-directional data flow between GeoNetSee digital platform and EPOS network. The project will include transnational cooperation to complement national and regional mainstream with innovative and coordinated policy, planning and pilot-tested led delivery. Partner countries are part of the Eurasian tectonic plate and thus the importance of the European Terrestrial Reference System 89 (ETRS89) usage is crucial. The GeoNetSee will contribute to the improvement of the spatial resolution of the EPOS network for monitoring the movement of tectonic plates in the DRP region. The installation of new locations for permanent GNSS monitoring contributes to the understanding of geodynamic processes in the area of the Danube basin, and they can also be used for permanent observation of all-natural and artificial structures of interest. The real-time terrain and facility monitoring service will ensure timely community response to ground movement and facility deformation, which can result in material damage and loss of life. Unstable terrain knows no national borders, and the GeoNetSee offers a solution that is important for all members of the DRP region and beyond. Using cloud technologies, anyone can access relevant data and detect measurement values that exceed the tolerance threshold. In this way, a large amount of data is provided, which would enable further research and application of geosensor networks outside geodesy, for example in domains of geotechnical, geological analyses, damage, and risk assessments, planning adequate prevention, preparedness, response, and recovery measures, etc.

Expected Achievements (EN):

The project will enhance innovation levels in the Danube region (A1.2) by analyzing the current state of innovation, developing a roadmap for improvement (A1.1), and establishing DCC (A1.4) as an open-access platform for data acquisition, analysis, and knowledge-sharing. By implementing the activities outlined, the project will achieve the objective of fostering a culture of innovation, strengthening the interconnection between academia and public institutions, building capacity among project partners, networking with relevant stakeholders (A1.3) including the European Strategy for the Danube Region (EUSDR), and establishing the DCC as a sustainable and collaborative centre for research and development in the region. The project will develop a network of cross-national research institutions, SMEs and government bodies that will share their knowledge and experience to equalize levels of innovation culture in consortium member countries. GeoNetSee’s goal is the development of new approaches in real-time monitoring of infrastructures based on cost-efficient IoT equipment, AI, and Big data processing in civil engineering (A2.1-A2.3, A3.1). This will offer significant benefits by providing continuous and accurate data on the structural behaviour, stability, and safety of infrastructure. By establishing sensor networks in areas without existing monitoring infrastructure, engineers and stakeholders can gain valuable insights into potential risks, such as ground movements, structural deformations, or geotechnical hazards. This enables timely identification of issues, proactive maintenance, and informed decision-making, ultimately ensuring the longevity and safety of critical infrastructure. The combination of IoT, AI, and Big Data empowers engineers with advanced analytics and predictive capabilities, optimizing resource allocation, reducing costs, and enhancing overall efficiency. The system with the architecture described in A2.3 will be developed and tested in both laboratory and operational environments (3 countries as pilot sites and 6 as testing sites). The project-specific objective of establishing an integrated and validated GeoNetSee system for real-time geodetic monitoring will be achieved. This objective will contribute to enhancing the region's capacity for early warning and risk assessment of unstable terrain and artificial structures, enabling effective decision-making, and supporting the development of municipal strategies for rescue and protection from landslides. Ultimately, the project seeks to improve the safety and resilience of the DRP region against geohazards with an emphasis on regions with undeveloped monitoring systems (Montenegro, Serbia, Bosnia and Herzegovina). The goal is to ensure that the quality of landslide monitoring is raised to the level of countries that are leading in the application of modern technologies (EU partners).

Project outputs: Strategy on reducing the gap in innovative activities
(EN)
GeoNetSEE system model(EN)
GeoNetSee pilot demonstrations in 3 countries(EN)
Jointly developed GeoNetSee solution for real-time geodetic monitoring(EN)
Website: https://interreg-danube.eu/projects/geonetsee

Thematic information

Innovation capacity and awareness-raising ICT and digital society Cooperation between emergency services

Priority: (VI-B_D_1) Priority 1 - A more competitive and smarter Danube Region

Priority specific objective: RSO1.1. Developing and enhancing research and innovation capacities and the uptake of advanced technologies

Priority policy objective (Interreg specific objective): PO1 A more competitive and smarter Europe by promoting innovative and smart economic transformation and regional ICT connectivity

Type of intervention: 010 Research and innovation activities in SMEs, including networking

Partners (14)

Lead Partner: Univerzitet u Beogradu

Partner’s ID if not PIC: 100206130

Department: School of Electrical Engineering

Address: Bulevar kralja Aleksandra, 11120 Belgrade, Serbia

Department address: Bulevar kralja Aleksandra, 11120 Belgrade, Serbia

Legal status: public

Organisation type: Higher education and research organisations

Website: http://www.etf.bg.ac.rs/en

Total budget: EUR 301 580.00

Partner’s programme co-financing: EUR 241 264.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 60 316.00

Contractors:

Name: MEDIATOR EVENTS D.O.O. BEOGRAD
VAT registration or tax identification number: 113897132
Name: AKADEMSKA MISAO DOO BEOGRAD
VAT registration or tax identification number: 100025623
Name: UNO-LUX NS doo
VAT registration or tax identification number: 103450053

HRVATSKI GEOLOŠKI INSTITUT

Name: HRVATSKI GEOLOŠKI INSTITUT

Department: Department of hydrogeology and engineering geology

Partner’s ID if not PIC: HR43733878539

Address: Milana Sachsa, 10000 Zagreb, Croatia

Department address: Milana Sachsa, 10000 Zagreb, Croatia

Legal status: public

Organisation type: National public authority

Website: https://www.hgi-cgs.hr

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

Geološki zavod Slovenije

Name: Geološki zavod Slovenije

Department: Geological inofrmation centre

Partner’s ID if not PIC: SI23064145

Address: Dimičeva, 1000 Ljubljana, Slovenia

Department address: Dimčeva, 1000 Ljubljana, Slovenia

Legal status: public

Organisation type: National public authority

Website: https://www.geo-zs.si/

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

VŠB-Technická unvierzita Ostrava, Fakulta elektrotechniky a informatiky

Name: VŠB-Technická unvierzita Ostrava, Fakulta elektrotechniky a informatiky

Department: Department of cybernetics and biomedical engineering

Partner’s ID if not PIC: CZ61989100

Address: 17. listopadu, 70800 Ostrava-Poruba, Czech Republic

Department address: 17. listopadu, 70800 Ostrava-Poruba, Czech Republic

Legal status: public

Organisation type: Higher education and research organisations

Website: http://vsb.cz

Total budget: EUR 109 500.00

Partner’s programme co-financing: EUR 87 600.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 900.00

MoDrone doo

Name: MoDrone doo

Partner’s ID if not PIC: 03421503

Address: Bul. Mihaila Lalica, 81000 Podgorica, Montenegro

Legal status: private

Organisation type: SME

Website: https://modrone.me/

Total budget: EUR 262 960.00

Partner’s programme co-financing: EUR 210 368.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 52 592.00

Contractors:

Name: ICT Integracija doo Podgorica
VAT registration or tax identification number: 03537846

Univerzitet Crne Gore

Name: Univerzitet Crne Gore

Department: Faculty of Civil Engineering

Partner’s ID if not PIC: 02016702

Address: Bulevar Dzordza Vasingtona, 81000 Podgorica, Montenegro

Department address: Bulevar Dzordza Vasingtona, 81000 Podgorica, Montenegro

Legal status: public

Organisation type: Higher education and research organisations

Website: https://www.ucg.ac.me/gf

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

nast consulting ZT GmbH

Name: nast consulting ZT GmbH

Department: International Projects

Partner’s ID if not PIC: ATU42682405

Address: Lindengasse, 1070 Vienna, Austria

Department address: Lindengasse, 1070 Vienna, Austria

Legal status: private

Organisation type: SME

Website: http://www.nast.at

Total budget: EUR 103 480.00

Partner’s programme co-financing: EUR 82 784.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 20 696.00

Budapesti Műszaki és Gazdaságtudományi Egyetem

Name: Budapesti Műszaki és Gazdaságtudományi Egyetem

Department: Faculty of Civil Engineering

Partner’s ID if not PIC: HU 17783305

Address: Műegyetem rkp., 1111 Budapest, Hungary

Department address: Műegyetem rkp., 1111 Budapest, Hungary

Legal status: public

Organisation type: Higher education and research organisations

Website: http://www.bme.hu

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

SURVIOT Monitoring Kft.

Name: SURVIOT Monitoring Kft.

Partner’s ID if not PIC: HU27805372

Address: Erzsebet ter, 3000 Hatvan, Hungary

Legal status: public

Organisation type: SME

Website: https://surviot.com/

Total budget: EUR 92 240.00

Partner’s programme co-financing: EUR 73 792.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 18 448.00

Medjunarodni Burč univerzitet

Name: Medjunarodni Burč univerzitet

Department: Faculty for Engineering, Natural science

Partner’s ID if not PIC: 201383350000

Address: Francuske revolucije, 71210 Ilidža-Sarajevo, Bosnia and Herzegovina

Department address: Francuske revolucije, 71210 Ilidža-Sarajevo, Bosnia and Herzegovina

Legal status: private

Organisation type: Higher education and research organisations

Website: http://www.ibu.edu.ba

Total budget: EUR 108 720.00

Partner’s programme co-financing: EUR 86 976.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 744.00

Federalni zavod za geologiju

Name: Federalni zavod za geologiju

Partner’s ID if not PIC: 4200295950009

Address: Ustanička, 71210 Ilidža-Sarajevo, Bosnia and Herzegovina

Legal status: public

Organisation type: National public authority

Website: http://www.fzzg.gov.ba

Total budget: EUR 92 240.00

Partner’s programme co-financing: EUR 73 792.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 18 448.00

Geosolutions doo

Name: Geosolutions doo

Partner’s ID if not PIC: 109687386

Address: STEVANA ĐURĐEVIĆA TROŠARINCA, 11000 Belgrade, Serbia

Legal status: private

Organisation type: SME

Website: http://geosolutions.co.rs/

Total budget: EUR 73 520.00

Partner’s programme co-financing: EUR 58 816.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 14 704.00

Contractors:

Name: Dalibor Cvetkovic PR Dias sis
VAT registration or tax identification number: 109687386

Univerzitet Novi Sad, Fakultet Tehničkih Nauka

Name: Univerzitet Novi Sad, Fakultet Tehničkih Nauka

Department: Faculty of Technical Sciences

Partner’s ID if not PIC: 100724720

Address: Trg Dositeja Obradovića , 21102 Novi Sad, Serbia

Department address: Trg Dositeja Obradovića , 21102 Novi Sad, Serbia

Legal status: public

Organisation type: Higher education and research organisations

Website: http://www.ftn.uns.ac.rs/n1386094394/faculty-of-technical-sciences

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

Institutul Geologic al României

Name: Institutul Geologic al României

Department: Department of Regional Geology

Partner’s ID if not PIC: RO1581793

Address: Caransebeș, 012271 Bucharest, Romania

Department address: Caransebeș, 012271 Bucharest, Romania

Legal status: public

Organisation type: National public authority

Website: http://www.igr.ro

Total budget: EUR 107 840.00

Partner’s programme co-financing: EUR 86 272.00

Partner’s programme co-financing rate: 80.00%

Partner contribution: EUR 21 568.00

Partners map

Partners and Projects info

CROATIAN GEOLOGICAL SURVEY

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

Geological Survey of Slovenia

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

VSB-Technical university of Ostrava, Faculty of electric engineering and computer science

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

MoDrone Ltd.

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

University of Montenegro

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

nast consulting ZT GmbH

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

Budapesti Műszaki és Gazdaságtudományi Egyetem

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

SURVIOT Monitoring Ltd.

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

International Burch University

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

Geological Survey of Federation of Bosnia and Herzegovina

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

Geosolutions ltd.

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

University of Novi Sad

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

INSTITUTUL GEOLOGIC AL ROMANIEI

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Partners and Projects info

University of Belgrade

IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Lead partner

Project partner

Summary

Project name (EN): IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

Project acronym: GeoNetSee

Project ID: DRP0200783

Project start date: 2024-01-01

Project end date: 2026-06-30

Project status: ongoing

Relevant linked projects:

GIMS (Geodetic integrated monitoring system): the main objective of the GIMS project (EU Horizon 2020, 2020-2023) was to build and commercialise an advanced low-cost system based on EGNSS, Copernicus SAR and others in-situ sensors, like inertial measurement units, to monitor ground deformations with a focus on landslides and subsidence. 7 GNSS stations were deployed in SW Slovenia on the motorway which is crossing landslide areas, and 7 in NW Slovenia on a deep-seated landslide and are still operating. https://www.gims-project.eu/
(EN) | GNSS sensor network established during the GIMS project and consisting of 14 GNSS stations located in two different landslide areas (infrastructure on landslide area in one case and landslide area itself in another) in Slovenia equipped with automatic, real-time data transfer will be integrated into the GeoNetSee sensor network. While GIMS is focused on using EGNSS, Copernicus SAR, and in-situ sensors for ground deformation monitoring, GeoNetSee offers advancements in real-time data collection, sensor integration, and cross-border cooperation, allowing for a more comprehensive and transnational approach to geoscientific monitoring. (EN), EXA4MIND will build an Extreme Data platform that brings together large-scale data storage systems and powerful computing infrastructures by implementing novel automated data management and effective data staging. This will enable integration with extreme data sources and support complex and advanced data analysis pipelines for knowledge extraction. Involving three large universities and a research centre, small and medium-sized enterprises (SMEs), and the industrial sector, EXA4MIND uses interdisciplinary top-level expertise to create a modular Extreme Data Database (EDD) analytics environment. https://cordis.europa.eu/project/id/101092944 (EN) | Described project can add a powerful interface for data processing from obtained measurements from satellites or ground stations, especially in the case of big data analysis and transformation. With the Interreg project, there is an open path to use modern supercomputing methods implemented for obtaining real-time prediction for emergency conditions etc. Unlike EXA4MIND, which focuses on extreme data analysis, GeoNetSee leverages similar analytical capabilities for geodetic applications, enhancing the project's risk management and real-time monitoring capabilities, particularly in the context of geodetic data.
(EN), “Smart buildings for a seismic resilient Montenegro”, Ministry of Science Montenegro funding programme for joining Horizon 2020 project RISE-Real-time earthquake risk reduction for a resilient Europe - No.821115, http://www.rise-eu.org. Through this project in Montenegro, for the first time, innovative technologies were applied for monitoring the buildings (Structural Health Monitoring). The instrumented "smart" building in Montenegro, the first of its kind, equipped with innovative sensors developed within the H2020 RISE project, is part of a wider European information system/platform for rapid assessment of losses due to earthquakes. The applied technology, based on MEMS sensors for detecting earthquakes, but also for real-time monitoring of the state of the building structure after an earthquake, enabled the application of smart cities logic in Montenegro in the area of earthquake preparedness. (EN) | The acquired knowledge in the area of installing and application of seismic sensors and the development of new approaches in real-time monitoring of structures will be applied in the GeoNetSee project. Also, experience gained in the development and validation of models for real-time monitoring of structures equipped with seismic sensors can be exploited within the GeoNetSee. In contrast to this project, GeoNetSee extends its expertise to geohazards beyond seismic risks, offering comprehensive real-time monitoring solutions for landslides and subsidence, thereby addressing a wider range of geoscientific challenges in the Danube Region. (EN), eTeren platform is an infrastructure project of the Geological Survey of Slovenia, co-financed by the Republic of Slovenia, the Ministry of Education, Science and Sports and the European Union from the European Regional Development Fund of the Geological Survey of Slovenia. eTeren is a centralised real-time sensor network that enables the collection, storage, processing, displaying and analysing of geological data from various types of field instruments. Daily updated field data are directly available to different end users via a web application: Researchers for their scientific work, administrators for monitoring the operation of the instruments and external clients for monitoring parameters relevant to their activities. It integrates 300 instruments of 14 different types and 10 different vendors with a total of over 2000 sensors and manages over 25,000 measurements per day. (EN) | GeoZS will share the knowledge acquired during the development of the eTeren platform and the lessons learned during the creation of the internal sensor network. This includes a system architecture, database model and data flow concept, all compliant with the OGC SensorML and INSPIRE Observation&MeasurementML standards. This knowledge will help us to build the GeoNetSee DCC platform, which is planned in activity 1.4. While the eTeren platform primarily deals with geological data management, GeoNetSee takes a step further by integrating data from various sensor types and offering real-time monitoring solutions, creating a more versatile and comprehensive geodetic system. (EN), BORIS - cross BOrder RISk assessment for increased prevention and preparedness in Europe”, European Commission UCPM-2020-PP-AG, Project n. 101004882, https://www.borisproject.eu/. In the BORIS project, the web platform and joint methodology for the assessment of seismic and flood risk in cross-border areas are developed. Existing methods, models and tools for assessing the impact of hazards in different countries are adapted and integrated into the BORIS methodology with a harmonized and common approach. This enabled the assessment of risks and scenarios with a common framework and understanding. The developed web platform is an effective tool for improving the prevention of transnational disasters and preparedness for improved management of crises involving different countries. (EN) | The acquired knowledge in the area of the shared methodology development between the project partner countries, as well as the shared web platform development for disaster risk assessment (which is closely related to the risk of landslides), will be applied in the GeoNetSee project. Also, experience gained in the implementation of developed shared methodologies, with respect to stakeholder needs, for multi-risk assessment in cross-border pilot areas can be exploited within GeoNetSee. Unlike BORIS, which focuses on transnational risk assessment, GeoNetSee offers real-time monitoring and early warning systems for geodetic monizoring, ensuring timely responses and actions to mitigate these challenges. (EN), H2020-WIDESPREAD-05-2017-Twinning project (project acronym: GeoTwinn, project ID: 809943 https://cordis.europa.eu/project/id/809943): HGI-CGS as the lead in Strengthening research in the Croatian Geological Survey: Geoscience-Twinning to develop state-of-the-art subsurface modelling capability and scientific impact with two-way scientific exchanges and training programmes in the fields of 3D geological surveying, advanced groundwater flow and contaminant transport modelling, geological hazards and geothermal energy research. (EN) | GeoNetSee project will benefit from the knowledge that HGI-CGS acquired and built through cooperation with leading geological surveys: BGS and GEUS as the Project strengthened HGI-CGS’s research potential. In these scientific exchanges and training programs in the fields of 3D geological surveying, advanced groundwater flow and contaminant transport modelling, geological hazards and geothermal energy research HGI-CGS has built up its capacity and knowledge and it is ready to transfer it to all projects partners in GeoNetSee. GeoNetSee benefits from GeoTwinn's capacity-building in geological surveying and subsurface modelling, with an emphasis on real-time monitoring and risk management, thereby enhancing the project's scientific capabilities. (EN), Interreg IPA CBC Croatia–Bosnia and Herzegovina–Montenegro: safEarth (HR-BA-ME59): With HGI-CGS as lead SafEarth tackled the issue of landslide hazards in the cross-border region. It is a well-known fact that climate change has an impact on weather extremes and flooding, which consequently leads to soil instabilities. The partners jointly handled the risks of landslides through applied research, technology transfer, knowledge dissemination and rehabilitation measures. https://interreg-hr-ba-me.eu/2014/project/safearth/
(EN) | GeoNetSee project will benefit from the knowledge that HGI-CGS acquired and built through research on climate changes and geohazards. Many landslide zones are located in densely populated areas and directly endanger people and properties, and within the aim of safEarth was to identify and classify those areas and to produce Landslide susceptibility maps (LSM), which provided information to local government and citizens in spatial planning, protection of human health, biodiversity and similar fields of work. From this viewpoint safEarth and GeoNetSee have a lot in common but what is the most important is the goal of public benefits and safety upgrade, towards which both projects strive. While this project primarily targets landslides, GeoNetSee expands its focus to real-time monitoring of various geoscientific hazards, including landslides and subsidence, in a broader regional context. (EN), Interreg IPA CBC Croatia–Bosnia and Herzegovina–Montenegro: RESPONSa: With HGI-CGS as lead RESPONSa's main objective is to improve landslide and flash flood risk prevention system by creating of Early warning system (EWS) that will enable individuals, communities and organizations threatened by a hazard to prepare and act appropriately and in sufficient time to reduce the possibility of harm or loss and it will lead to a higher level of cooperation between academic/scientific, civil protection organizations, municipalities and other relevant institutions. https://interreg-hr-ba-me.eu/2014/project/responsa/ (EN) | GeoNetSee project will benefit from the knowledge that HGI-CGS acquire and build about the creation of the Early warning system (EWS). EWS also involves the identification of risk scenarios, emergency plans, societal considerations, public awareness, etc. Implementation of RESPONSa will lead to a higher level of cooperation between academic/scientific, civil protection organizations, municipalities and other relevant institutions. As Project results will include: direct implementation of scientific methodologies in practice, obtainment of data on geological hazards from local communities, knowledge transfer between partner institutions, the establishment of a remote sensing laboratory with new equipment, application and development of new technologies and new job opportunities for young engineers, creation of a mobile team with appropriate equipment for geological hazard prospection and consulting in case of emergency, and from this viewpoint RESPONSa and GeoNetSee has a lot in common. The main goals of the projects are similar, but the way to achieve them differs and, in that sense, these two projects can gain much benefit from each other and also improve each other results. GeoNetSee expands its focus beyond landslides to cover various geoscientific hazards, offering a more comprehensive real-time monitoring system. By addressing multiple geoscientific challenges in real-time, GeoNetSee enhances the safety and preparedness of the Danube Region, ensuring greater value for communities. (EN), „Multi-layer geohazards information system concept for urban areas” (URMA) was a project funded by the European Space Agency (ESA) and was carried out by a consortium in Romania, led by the Polytechnic University of Bucharest. The project had the objective to test the capabilities of the Copernicus radar satellite Sentinel-1, compared to the results given by SAR - Synthetic Aperture Radar on ERS satellites and ASAR - Advanced Synthetic Aperture Radar on ENVISAT satellites, in order to identify land deformation on man-made structures and non-vegetated areas. Maps of Persistent Scatterer Interferometry points (PSI) identified on time-series images were displayed on a web platform specially designed for the project, to make the results available to the local authorities in the three test cities, as well as to the general public. (EN) | URMA projects capitalised on the PanGeo project „Enabling Access to Geological Information in Support of GMES - Global Monitoring for Environment and Security” by using the classification scheme of land deformation types developed within PanGeo, as well as making reports publicly available, on a dedicated platform. GeoNetSee will use the expertise obtained in the interpretation of land deformations (which are complementary, being obtained with different types of sensors) and will display it on maps in an accessible and easy-to-understand way for the local authorities in the studied area. GeoNetSee builds on the interpretation of land deformations, expanding the application to real-time monitoring of geoscientific risks through remote sensing technology. The project's expertise in interpreting land deformations offers accurate and accessible maps for local authorities, supporting proactive geoscientific risk management in the Danube Region. (EN), Joining to EUREF permanent network with Multi GNSS CORS stations in Montenegro (MontePN) project (http://montepn.udg.edu.me/) established a network of permanent stations with the ability to receive GPS, GLONASS, Galileo, EGNOS and Beidou system signals. This infrastructure consists of geodetic GNSS receivers and antennas that permanently monitor GNSS signals and are embedded in stable geodetic markers, a computer system for managing, receiving, and transmitting data via the Internet, quality control, and archiving. In accordance with the policy of densification of the EUREF network and the given guidelines for connecting the GNSS network of permanent stations in EPN, through this project, the permanent GNSS station DGOR00MNE
(https://www.epncb.oma.be/_networkdata/siteinfo4onestation.php?station=DGOR00MNE) is included in the EUREF permanent GNSS network (EPN) (https://epncb.oma.be/). By joining the EPN, it is possible to define a reference system in the European Terrestrial Reference System 89 (ETRS89) system and the ETRF2000 framework that most European countries have.
(EN) | In order to promote best practices for GNSS station operation, data quality control and data management, the GeoNetSee project will join the EPOS network (https://gnss-epos.eu/). This will provide access to GNSS data, metadata, products and software that support the solid Earth sciences. The GeoNetSee project, as part of its activities, will aim to join GNSS stations to the EPOS, which includes EPN. Through the MontePN project, the experience was gained for the realization of these activities. Namely, members of several partners participated in the MontePN project and ensured its successful implementation. GeoNetSee leverages the experience gained in joining the EUREF network to ensure high-precision positioning for its geosensor networks, facilitating real-time monitoring and accurate data collection. By combining precise positioning with real-time data collection, GeoNetSee provides more reliable and up-to-the-minute information, improving decision-making for geodetic risk management.
(EN), Study of flood-prone areas in Serbia, SoFPAS, An EU funded project, Developing a system for Laser Scanning of terrain by using the LIDAR method and geodetic data collection on river basins in Serbia. Creation of maps of flood zones. GIS visualization and interpretation of geospatial data. The surveying of riverbeds was realized using the bathymetry method. A bathymetric map is an accurate, measurable description and visual presentation of underwater terrain. It is equivalent to a topographical plan above the surface of the water. Bathymetry is the basis for hydrography, which deals with measurements of the physical characteristics of a body of water. Hydrography includes not only bathymetry but also the shape and properties of the coastline, tidal properties, waves, etc. as well as the physical and chemical properties of the water itself. The surveying of the terrain in the vicinity of the water was realized by combined GNSS and LIDAR geodetic measurements. Based on a large number of spatial data, a high-quality Digital Terrain Model (DTM) was created, which was a prerequisite for the application of effective hydrological modelling. (EN) | GeoNetSee project will benefit from the knowledge in the development of the spatial data collection system and the visualization of geospatial data for the needs of monitoring landslides in real-time. Laser scanning data and bathymetric surveys were realized in real-time. Although it is not about the same type of data that will be used in the GeoNetSee project, the experience of implementing the mentioned project can significantly contribute to the systematization of the processing and interpretation of a large amount of data, which will be used in the process of monitoring the state of landslides and dams through the GeoNetSee project. GeoNetSee applies expertise in spatial data collection and visualization to monitor landslides in real time, introducing efficient data processing and interpretation methods for better response and decision-making. The systematic processing of extensive data in real-time enhances the project's ability to monitor the state of landslides and dams, contributing to the safety and resilience of the Danube Region. (EN), Tisza River Modelling on the common interest section of Hungary and Serbia and developing of the measuring equipment-TRMODELL, IPA European Union project HU-SRB/0901/121/0. The project included integrated hydrographic and geodetic measurements of the Tisza River bed. Based on the generated data, hydraulic modelling was performed in specialized software from the field of hydraulic engineering. The research included the international cooperation of experts from Serbia and Hungary. The survey of the terrain around the Tisza River was performed with an integrated system (LIDAR+GNSS + inertial navigation system), while the Tissa River bed was measured using the bathymetry method (GNSS + echo-sonar).
(EN) | The experience gained on this project can provide certain benefits in the process of managing a large amount of data within the GeNetSee project. Based on the acquired experience in processing a large amount of data using integrated surveying systems, will contribute to increasing the efficiency of data processing and interpretation that will be generated through the GeoNetSee project. GeoNetSee benefits from the experience in integrated surveying and data processing to manage and interpret the extensive data generated by its geosensor networks for landslides and subsidence monitoring. The efficient data processing and interpretation methods ensure GeoNetSee's capacity for geodetic in real time, supporting more informed and timely decision-making. (EN), GeoSES (Extension of the operational "Space Emergency System" towards monitoring of dangerous natural and man-made geo-processes in the HU-SK-RO-UA cross-border region) ENI Cross-border Cooperation Programme project focused on the development of automatic GNSS data processing techniques for atmospheric water vapour estimation as well as the surface deformation monitoring using satellite radar interferometry (http://gpsmet.agt.bme.hu). (EN) | GeoNetSee will benefit from the experiences in automatic scientific-level GNSS data processing as well as surface deformation monitoring using satellite remote sensing. The automatic GNSS data processing techniques developed in the GeoSES project are adapted for use in GeoNetSee, enhancing its capabilities in real-time data collection and analysis. The advanced data processing methods improve the quality and speed of real-time data analysis, contributing to more effective risk management within the Danube Region. (EN)

Total budget/expenditure: EUR 1 791 280.00

Total EU funding (amount): EUR 1 433 024.00

Total EU funding (co-financing rate): 80.00%

Co-financing sources:

Investments, deliverables, policy contributions

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Deliverables:

Report on the current and future directions for innovation level enhancement in the DRP region
Training materials on GeoNetSee system building blocks
Stakeholder, EUSDR, and TAB database
Long-term Communication, Dissemination & Exploitation Plan for DCC
Established Danube Collaborative Center
User manual for the DCC platform
Report on the state-of-the-art geodetic monitoring techniques in 9 partner countries
Report on the conceptual data and AI model for landslide risk forecasting
System architecture report
Technical description of the GeoNetSee system
Report on cross-border pilot actions
Summary report on the results of benchmark evaluation for the 3 pilot areas

Contribution to wider strategies and policies:

EUStrategyDanubeRegion The project is closely related to the EUSDR PA5 which addresses the challenges of water scarcity and droughts in line with the Danube River Basin Management Plan and the ongoing work in the field of climate adaptation. One of the most common causes of landslides is underground waters that are interconnected and are part of neighbouring countries. Deformations on large structures, such as bridges and hydroelectric dams, affect the safety of travel for all people, and on the other hand, the energy network represents a unique system of countries in the region. The development of a GeoNetSee monitoring system requires joint planning and coordinated execution so that all actors receive timely information and joint action. The creation of the Danube Collaborative Center (DCC) and the adoption of the strategy by the key actors will ensure sustainability and collaborative management by defining procedures for a faster response to those dangers. EUSDR PA5 also supports the assessment of disaster risks in the Danube Region, encouraging actions to promote disaster resilience, preparedness and response activities. Through the development of the GeoNetSee system, prevention and the readiness of the organizations to take action will be strengthened. The project is also closely related to EUSDR PA8 and PA10. In particular, the PA 10 addresses institutional capacity-building at local, regional and national levels, involvement of civil society in public governance, increasing local development and better spending as well as increasing absorption rates of EU funds. GeoNetSee will create a unified solution of geosensor networks that collect data in real-time in 3 pilot countries. All SMEs in the project are companies whose activities are focused on innovation and strive to exchange knowledge with the academic and broader community. GeoNetSee is also closely related to EUSDR PA1B which addresses the challenges of transport.
EuropeanGreenDeal The project is in line with the adoption of an ambitious EU strategy for adaptation to climate and other environmental changes. GeoNetSee addresses challenges related to climate and other geologically conditioned terrain instability, their impact on artificial (human-made) structures and consequently population well-being. It positively contributes to the health of citizens and increases the resilience of the ecosystem as a whole. Important is its positive effect on strengthening efforts on climate-proofing, resilience building, prevention and preparedness. GeoNetSee is a new, sustainable, partially disruptive technology solution which includes a geosensors’ network and a platform for collecting, visualizing and processing data about unstable terrain and artificial structures. The project’s solution is in line with the Green Deal strategy of placing accessible and interoperable data in the heart of data-driven innovation tackling environmental challenges. Besides using an extensive network of geosensors and real-time data it uses also state-of-the-art technologies like cloud computing etc, which is also in line with the Green Deal strategy to place accessible and interoperable data at the heart of data-driven innovation.
Green Deal also emphasises the importance of providing support to the EU's immediate neighbours for different challenges appearing from unstable terrain. Mitigation measures as the most important project’s result can only be effective when geosensors data from a broader area of the Danube region are acquired. Therefore the project's consortium consists of EU partners as well as partners from neighbouring countries of West Balkan (the project coordinator). GeoNetSee provides data to develop adequate instruments to integrate climate and other environmental changes into regional risk management practices and policies.
TerritorialAgenda2030 GeoNetSee project addresses multiple topics from Territorial Agenda 2030, mentioned in Preamble and in chapters Sustainable development and climate change, Integration beyond borders and Healthy environment. It provides an action-oriented framework to promote territorial cohesion in Europe.
Application solutions will provide mitigation measures for terrain unbalances and artificial structures problems. In order to be successful they require to address the broader Danube region as a whole. Furthermore, this will promote balanced and harmonious territorial development between and within countries, and regions. It also reinforces solidarity and accelerates the development of regions lagging behind. GeoNetSee solution provides data for strategic spatial planning and calls for strengthening the territorial dimension of sector policies at all governance levels. Coordinated territorial, social and economic cohesion will be encouraged and territorial development and strategic spatial planning will be improved. Regions with common potential and challenges can collaborate in finding common solutions to a project’s results. Data analysis provided by geosensors will improve the quality of local, regional, national and European development. Continuous capacity building based on the project’s results at all levels will enhance the participatory implementation of the strategies. Potential for citizens’ well-being and quality of life will be increased, because unstable terrain resilient and high-quality infrastructure will be built. GeoNetSee will help to minimize as far as possible environmental degradation and tailor-made measures can be applied. As a consequence of our project foundation for more resilient towns, cities and regions will be built.
Other The GeoNetSee project will be in line with the European INSPIRE standards. In particular, the INSPIRE Directive aims to create a European Union spatial data infrastructure for the EU environmental policies and policies or activities which may have an impact on the environment. This European Spatial Data Infrastructure enables the sharing of environmental spatial information among public sector organisations, facilitates public access to spatial information across Europe and assists in policy-making across boundaries. INSPIRE is based on the infrastructures for spatial information established and operated by the Member States of the European Union. The Directive addresses 34 spatial data themes needed for environmental applications. The Directive came into force on 15 May 2007 and will be implemented in various stages, with full implementation required by 2021. GeoNetSee platform will support European INSPIRE standards and other relevant standards (Open Geospatial Consortium (OGC), Sensor Web Enablement (SWE)) in the context of data format (information model) and service interfaces (service model), to ensure the interoperability of the solution. This is extremely important due to the inclusion, and subsequent connection, of countries with different levels of use of these technologies.

Programme Common Output Indicator:

RCO 084 - Pilot actions developed jointly and implemented in projects, Measurement unit:
RCO 116 - Jointly developed solutions, Measurement unit:
RCO 083 - Strategies and action plans jointly developed, Measurement unit:
RCO 087 - Organisations cooperating across borders, Measurement unit:

Programme Common Result Indicator:

RCR 104 - Solutions taken up or up-scaled by organisations, Measurement unit:
RCR 079 - Joint strategies and action plans taken up by organisations, Measurement unit:

Programme Result Indicator:

ISI - Organisations with increased institutional capacity due to their participation in cooperation activities across the borders, Measurement unit: No. of organisations

Project part of European Union Macro-Regional or Sea Basin Strategy: EUSDR

Information regarding the data in keep.eu on the programme financing this project

Financing programme

2021 - 2027 Interreg VI-B Danube

Last month that data in keep.eu was retrieved from the Programme's website or received from the Programme

2024-12-18

No. of projects in keep.eu / Total no. of projects (% of projects in keep.eu)

82 / 139 (58.99%)

No. of project partnerships in keep.eu / Total no. of project partnerships (% of project partnerships in keep.eu)

910 / 1 381 (65.89%)

Notes on the data

Source of estimation of the number of projects as of 2025-03-17: Website of the programme

Method for estimating the number of partners as of 2025-03-17: Average partners per project based on the average of the previous period.

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IoT-based system of GEOsensor NETworks for real-time monitoring of unStablE tErrain and artificial structures An AI

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Investments, deliverables, policy contributions

Information regarding the data in keep.eu on the programme financing this project

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