Livrables
The deliverable is the output of T10.1. It includes the update of the dissemination and communication plan and reporting on the dissemination and communication activities till M18.
Quality and Risk Management PlanThe deliverable is the output of T1.5. It will include all quality procedures to be followed and establish a risk registry.
Dissemination and Communication PlanThe deliverable is the output of T10.1. It includes the design a dissemination and communication plan which will be maintained during the life of the project.
Training Tools and MaterialThe deliverable is the output of T103 The deliverable will include development of training material and delivery of training sessions
Final Report on Dissemination and Communication of the ResultsThe deliverable is the output of T101 It includes the final reporting on the dissemination and communication activities till M18
KPIs; Evaluation methodology; Techno-Economic, Env., Social analysesThe deliverable is the output of T2.4 and T2.5. It will define success criteria and the KPIs to be used in WP9, I will also define a framework for techno-economic/environmental/social analyses and for the assessment of the effects of the proposed solutions on regional economy and the environment.
Data Management Plan 2nd updateThe deliverable is the output of T14 It will be an update of D17
Data Management Plan 1st updateThe deliverable is the output of T1.4. It will be an update of D1.3.
End-User Requirements and proceedings of the workshop in month no 4The deliverable is the output of T2.2. This will include the proceedings of the M4 workshop and a an initial set of user requirements.
Standardisation ActivitiesThe deliverable is the output of T112 This will be an extensive report of all standardisation activities taking place within RESIST
Innovation Management PlanThe deliverable is the output of T1.3. It will provide information on innovation management procedures to be followed within the project.
The state-of-the-art in regards to physical/cyber damage detection/prevention/response/mitigation technologies and risk analyses in the land transport sectorThe deliverable is the output of T2.1. It involves compilation and comparison of existing physical/cyber damage detection/prevention/response technologies in regards to land transport infrastructure and infostructure and the determination of existing safety and security gaps.
The deliverable is the output of T10.3. The Project Flyer will include project related information and a printable version of these posters and leaflets will be available on the project's web site.
Web site of the ProjectThe deliverable is the output of T10.3. It will be the major source of information to the wider public for the project. It will be updated throughout the project .
The deliverable is the output of T1.4. It will include details for the data that will be collected and generated, how data need to be handled, classified and stored to comply with data protection regulations and good practice, and which data can be shared or need to be protected/restricted. It will not include information with regard to the processes needed for collecting and processing personal data which will be dealt separately.
Publications
Auteurs:
Kostas Bouklas, Angelos Amditis, Rafael Weilharter, Visvanathan Ramesh, Miguel Ángel Trujillo Soto, Guillermo Heredia, Luca Belsito, Stephanos Camarinopoulos & Friedrich Fraundorfer
Publié dans:
Civil Structural Health Monitoring, 2021, Page(s) 761-774, ISBN 978-3-030-74258-4
Éditeur:
Springer, Cham
DOI:
10.1007/978-3-030-74258-4_48
Auteurs:
G. Heredia, A. Ollero
GRVC Robotics Lab at the University of Seville, Spain
Publié dans:
Aerial Robotic Systems Physically Interacting with the Environment (AIRPHARO), 2021
Éditeur:
IEEE
DOI:
10.1109/airpharo52252.2021.9571031
Auteurs:
I. OPPENHEIM & T. ORON GILAD
Department of Industrial Engineering, Ben Gurion University of The Negev, Israel
Publié dans:
2022
Éditeur:
PIARC- World Road Congress
Auteurs:
Diego Benjumea, Alfonso Alcántara, Agustin Ramos, Arturo Torres-Gonzalez, Pedro Sánchez-Cuevas, Jesus Capitan, Guillermo Heredia and Anibal Ollero
Publié dans:
SENSORS, 2021
Éditeur:
MDPI
DOI:
10.3390/s21175937
Auteurs:
Othonas Soultatos, Konstantinos Fysarakis, George Spanoudakis, Hristo Koshutanski, Ernesto Damiani, Kristian Beckers, Dirk Wortmann, George Bravos and Menelaos Ioannidis
Publié dans:
MSTEC 2019, 2019
Éditeur:
Springer
Auteurs:
Manuel J. Fernandez, Pedro J. Sanchez-Cuevas, Guillermo Heredia, Anibal Ollero
Publié dans:
2019 Workshop on Research, Education and Development of Unmanned Aerial Systems (RED UAS), 2019, Page(s) 237-246, ISBN 978-1-7281-6600-1
Éditeur:
IEEE
DOI:
10.1109/REDUAS47371.2019.8999685
Auteurs:
Nicolas Cortes, Manuel J. Fernandez, Guillermo Heredia, Anibal Ollero
Publié dans:
IEEE, 2021
Éditeur:
IEEE
DOI:
10.1109/airpharo52252.2021.9571058
Auteurs:
A. ADESIYUN (Forum of European National Highway Research Laboratories, Belgium)
A. AMDITIS (Institute of Communication and Computer Systems, Greece)
R. WEILHARTER & F. FRAUNDORFER (Technische Universitaet Graz, Austria)
V. RAMESH (Goethe-Universität Frankfurt am Main, Germany)
M.A. TRUJILLO (CATEC - Advanced Center for Aerospace Technologies, Spain)
G. HEREDIA (Universidad De Sevilla, Spain)
L.
Publié dans:
XVI World Winter Service and Road Resilience Congress, 2022
Éditeur:
PIARC - World Road Congress
Auteurs:
Ambar Garofano-Soldado, Pedro J.Sanchez-Cuevasa, Guillermo Heredia, Anibal Ollero
Publié dans:
Aerospace Science and Technology, Numéro 0346251X, 2022, ISSN 0346-251X
Éditeur:
Pergamon Press Ltd.
DOI:
10.1016/j.ast.2022.107625
Auteurs:
Alvaro Caballero, Pedro J. Sanchez-Cuevas, Manuel Bejar, Guillermo Heredia, Miguel A. Trujillo, and Anibal Ollero
Publié dans:
International Journal of Aerospace Engineering, Numéro 16875974, 2020, ISSN 1687-5974
Éditeur:
Hindawi
DOI:
10.1155/2020/6348035
Auteurs:
Pedro Sanchez-Cuevas, Pablo Ramon-Soria, Begoña Arrue, Anibal Ollero, Guillermo Heredia
Publié dans:
Sensors, Numéro 19/2, 2019, Page(s) 305, ISSN 1424-8220
Éditeur:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/s19020305
Auteurs:
Antonio E. Jimenez-Cano, Pedro J. Sanchez-Cuevas, Pedro Grau, Anibal Ollero, Guillermo Heredia
Publié dans:
IEEE Robotics and Automation Letters, Numéro 4/4, 2019, Page(s) 3561-3568, ISSN 2377-3766
Éditeur:
IEEE
DOI:
10.1109/LRA.2019.2928206
Auteurs:
Maria Krommyda, Anastasios Rigos, Kostas Bouklas and Angelos Amditis
Publié dans:
Informatics, Numéro 20782489, 2021, ISSN 2078-2489
Éditeur:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/informatics8010019
Auteurs:
Pedro J. Sanchez-Cuevas, Antonio Gonzalez-Morgado, Nicolas Cortes, Diego B. Gayango, Antonio E. Jimenez-Cano, Aníbal Ollero, and Guillermo Heredia
Publié dans:
SENSORS, Numéro 14248220, 2020, ISSN 1424-8220
Éditeur:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/s20174708
Auteurs:
Rafael Weilharter, Friedrich Fraundorfer
Publié dans:
IEEE, Numéro 21693536, 2021, ISSN 2169-3536
Éditeur:
Institute of Electrical and Electronics Engineers Inc.
DOI:
10.1109/access.2021.3050556
Auteurs:
FEHRL
Publié dans:
FEHRL Infrastructure Research Magazine, Numéro Numéro 15, 2020, ISSN 2294-8295
Éditeur:
FEHRL
Auteurs:
FEHRL
Publié dans:
FEHRL Infrastructure Research Magazine, Numéro Numéro 13, 2019, ISSN 2294-8295
Éditeur:
FEHRL
Auteurs:
FEHRL
Publié dans:
FEHRL Infrastructure Research Magazine, Numéro Numéro 14, 2019, ISSN 2294-8295
Éditeur:
FEHRL
Auteurs:
ED, FEHRL
Publié dans:
FEHRL Infrastructure Research Magazine, Numéro Numéro 16, 2020, ISSN 2294-8295
Éditeur:
FEHRL
Auteurs:
P. J. Sanchez-Cuevas, Victor Martín, Guillermo Heredia, Aníbal Ollero
Publié dans:
Robot 2019: Fourth Iberian Robotics Conference - Advances in Robotics, Volume 1, Numéro 1092, 2020, Page(s) 63-74, ISBN 978-3-030-35989-8
Éditeur:
Springer International Publishing
DOI:
10.1007/978-3-030-35990-4_6
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