Livrables
Legal issues relating to the use of IoT technologies for enabling or improving autonomous driving in a connected environment. Related tasks: T4.5, T4.6.
Vehicle IoT integration report"Results of the integration of an ""Open"" IOT platform component to allow vehicles to access and use IoT devices and capabilities, thus enabling AD functions enhancement. Related tasks: T1.1, T1.2, T1.3, T1.4, T1.5, T2.1, T2.2, T2.3. An Internal Report (IR2.1) will be delivered at M14 to provide a preliminary version of the necessary documentation about the IoT vehicle platform to WP2 and WP3. "
Final technical evaluationThis final version completes D4.x with the evaluation results. Related tasks: T1.2, T1.3, T1.4, T2.5, T3.1, T3.4, T4.2, and T4.3.
Standards and conformance of IoT in ADReport on the applicable reference standards, related processes and procedures identified in the involved standardisation or government organisations, which can be used for conformance testing. Related task: T5.5
Final specification of IoT-enabled Autonomous Driving use casesSpecifies the IoT enabled automated driving scenarios scenarios where the potential of Internet of Things can be assessed for enhancement and enabling of Automated Driving functions. Final revision based on the pilot site experiences.
Report about AD functions adaptation for IoTResults of the autonomous driving functions adaptation to enable the project use cases. Related tasks: T2.1, T2.2, T2.3, T2.4 An Internal Report (IR2.2) will be delivered at M14 to provide a preliminary version of the necessary documentation about the automated driving functions to WP2 and WP3.
User requirements analysisAnalysis of user requirements, concerns and expectations with view to ensure their acceptance and trust. A survey in several countries on motivation, perceived usefulness, ease-of-use of Level 3, 4 and 5 autonomous technologies and willingness to pay, will serve the user requirement analysis. Related tasks: WP1, WP2, T3.1, T3.4, T4.1, T4.4, T4.5 and T4.6.
Test Data Management platform architectureRecommendations to test data management. Related tasks: T3.4, WP4.
Final pilot tests specificationsUpdate of D3.1 based on outcome from pilot site adaptation. Related tasks: T3.1, T3.4, T4.1.
Standardisation planThe report will form the basis of task 5.5 and provide the main applicable standards in the IoT and ITS domain for the other WPs in the project to take into account in the architectural and design choices in order to make credible, interoperable and future-proof decisions. Related task: T5.5
Methodology for evaluationCommon methodology for evaluation, and integrates methodologies for each of the evaluation tasks. The methodology will be enhanced from practical experience and recommendations will be provided to enhance the FESTA methodology. Related tasks: WP1, WP2 and WP3, T4.1, T3.4. An Internal Report (IR4.1) was delivered at M10 to provide a preliminary version of the necessary documentation about the evaluation methodology to WP2, WP3 and WP4.
Initial pilot tests specificationsActions required for setting up the pilot sites, from the beginning of the project, until they become fully operational. Related tasks: T3.1, T3.4, T4.1.
Report on development and Integration of IoT devices into IoT ecosystemResults from the development of mobile IoT objects and IoT infrastructure and their integration into the IoT ecosystem (other IoT devices, vehicle IoT platform and Open IoT platform). Related tasks: T1.1, T1.2, T1.3, T1.4, T2.1, T2.3, T2.4 An Internal Report (IR2.4) will be delivered at M14 to provide a preliminary version of the necessary documentation about the IoT device integration to WP2 and WP3.
Initial open IoT Vehicle Platform SpecificationSpecification of the Open IoT vehicle platform, including the definition of the format to be used for exchanging data between the in-vehicle proprietary network and the IoT platform components embedded into the vehicle itself. Initial release
Final report about the AUTOPILOT IoT platformThis final report will update the Deliverable D2.3, as the IoT platform is likely to be updated during the pilot operation.
Initial technical evaluationThis initial version includes the evaluation plans. Related tasks: T1.2, T1.3, T1.4, T2.5, T3.1, T3.4, T4.2, and T4.3.
Final specification of Communication System for IoT-enhanced ADSpecification of requirements concerning communication means and in particular the capabilities necessary for IoT and AD use cases. Final release on the basis of the pilot site experience.
Communication planThe deliverable defines the overall communication strategy of the project, includes identified target groups and describe the channels, the planned activities and materials to be developed throughout the project. It is a living document that will be updated on a yearly basis based on project phase and related key areas for dissemination. Related tasks: T5.1, T5.2, T5.3, T5.4, T5.5.
Pilot sites adaptation validation (test report)Results from validation of pilot sites adaptations and readiness to start execution phase. Related tasks: T2.4, T3.1, T3.2, T3.3.
IoT Policy Framework for autonomous vehicles applicationsFindings and conclusions of the coordination framework of autonomous vehicle and IoT pilot activities for transfer to other pilot areas. Related tasks: T5.4
Quality of life impact assessmentExpected impacts in the society due to deployment of IoT and automated driving. D4.4 will be delivered as a draft in M24. Related tasks: WP1, WP2, T3.1, T3.4, T4.1, T4.4.
Initial specification of Communication System for IoT-enhanced ADSpecification of requirements concerning communication means and in particular the capabilities necessary for IoT and AD use cases.Initial release.
User acceptance assessmentAssessment of acceptance of IoT solutions by users through polls and workshops will ensure to account for regional specificities. Related tasks: WP1, WP2, T3.1, T3.4, T4.1, T4.4, T4.5 and T4.6.
Data collection and integration methodologyD3.4 will describe data collection and integration methodology together with a summary of the state of the art on tools needed for data acquisition, transmission, database structure, quality assurance, data storage. Related tasks: T2.3, T2.4, T3.1, T3.4, T4.1
Final specification of Security and Privacy for IoT-enhanced ADSpecification of security and privacy requirements which impact on identified use cases, having as a reference the specified architecture and selected communications technologies. Final release on the basis of the pilot site experience.
Performance and KPIs for autonomous vehicles and IoT pilot impact measurementKPIs for design, testing, validation and impact assessment of autonomous vehicles and IoT pilots. Related tasks: T5.4
Report on the implementation of the IoT platformD2.3 will document the implementation of the IoT platform. Related tasks: T1.1, T1.2, T1.5, T2.3, T2.4, WP3 and T4.2. An Internal Report (IR2.3) will be delivered at M14 to provide a preliminary version of the necessary documentation about the IoT Cloud platform to WP2 and WP3.
Final open IoT Vehicle Platform SpecificationSpecification of the Open IoT vehicle platform, including the definition of the format to be used for exchanging data between the in-vehicle proprietary network and the IoT platform components embedded into the vehicle itself. Final release on the basis of the pilot site experience.
Legal perspectives on use of IoT for ADLegal issues relating to the use of IoT technologies for enabling or improving autonomous driving in a connected environment. Related tasks: T4.5, T4.6.
Initial specification of Security and Privacy for IoT-enhanced ADSpecification of security and privacy requirements which impact on identified use cases, having as a reference the specified architecture and selected communications technologies. Initial release.
Initial specification of IoT-enabled Autonomous Driving use casesSpecifies the IoT enabled automated driving scenarios scenarios where the potential of Internet of Things can be assessed for enhancement and enabling of Automated Driving functions. - Initial release
This final data management plan will provide updates about the data management plan, reflecting the evolution of the data management components and processes at the end of the project. It is essential in the context of ORDP to provide this final version, to allow the access and usage of the AUTOPILOT public data.
Data management planD6.7 will determine how research data will be handled during the research project and after the project is completed. It will describe what data will be collected, processed or generated, what methodologies and standards will be followed, whether and how this data will be shared and/or made open, and how it will be curated and preserved. Related tasks: T3.4, T6.4.
Interim revision of the data management planThis updated data management plan will provide updates concerning the data management plan, as the data management components and processes will be updated during the pilot site integration, until the pilot test are expected to start in M18.
Project identifiers, including a logo and associated visual identity for project materials and templates will be produced. A public website will be launched that will be used as the main information platform for the project outreach activities. Related task: T5.1
Publications
Auteurs:
Jeong-Woo Lee, Shin-Kyung Lee, Hyun-Seo Oh
Publié dans:
The Journal of Korean Institute of Communications and Information Sciences, Numéro 43/1, 2018, Page(s) 83-90, ISSN 1226-4717
Éditeur:
Korea Communications Society/ KCI listed
DOI:
10.7840/kics.2018.43.1.83
Auteurs:
Flavio Cirillo, Fang-Jing Wu, Gürkan Solmaz, Ernö Kovacs
Publié dans:
Sensors, Numéro 19/2, 2019, Page(s) 351, ISSN 1424-8220
Éditeur:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/s19020351
Auteurs:
Gurkan Solmaz, Fang-Jing Wu, Flavio Cirillo, Erno Kovacs, Juan Ramon Santana, Luis Sanchez, Pablo Sotres, Luis Munoz
Publié dans:
IEEE Communications Magazine, Numéro 57/4, 2019, Page(s) 40-46, ISSN 0163-6804
Éditeur:
Institute of Electrical and Electronics Engineers
DOI:
10.1109/mcom.2019.1800611
Auteurs:
Andrea Simonetto, Julien Monteil, Claudio Gambella
Publié dans:
Transportation Research Part C: Emerging Technologies, Numéro 101, 2019, Page(s) 208-232, ISSN 0968-090X
Éditeur:
Pergamon Press Ltd.
DOI:
10.1016/j.trc.2019.01.019
Auteurs:
Flavio Cirillo, Gurkan Solmaz, Everton Luis Berz, Martin Bauer, Bin Cheng, Erno Kovacs
Publié dans:
IEEE Internet of Things Magazine, Numéro 2/3, 2019, Page(s) 12-18, ISSN 2576-3180
Éditeur:
IEEE
DOI:
10.1109/iotm.0001.1800022
Auteurs:
J. Javier Yebes, David Montero, Ignacio Arriola
Publié dans:
IEEE Intelligent Transportation Systems Magazine, 2020, Page(s) 1-1, ISSN 1939-1390
Éditeur:
Institute of Electrical and Electronics Engineers
DOI:
10.1109/mits.2019.2926370
Auteurs:
Venktesh Pandey, Julien Monteil, Claudio Gambella, Andrea Simonetto
Publié dans:
Transportation Research Part C: Emerging Technologies, Numéro 108, 2019, Page(s) 269-288, ISSN 0968-090X
Éditeur:
Pergamon Press Ltd.
DOI:
10.1016/j.trc.2019.09.021
Auteurs:
François Fischer, AUTOPILOT Coordinator and Senior Manager at ERTICO-ITS Europe,
and Francesca Corazza, FIA Region I
Publié dans:
Baltic Transport Journal, 2017
Éditeur:
Baltic Transport Journal
Auteurs:
Javier Yebes, David Montero, Ignacio Arriola (Vicomtech)
Publié dans:
Poster presentation of related paper, 2018
Éditeur:
Nvidia GTC Europe
Auteurs:
Vermesan, Ovidiu and Bahr, Roy and Falcitelli, Mariano and Brevi, Daniele and Bosi, Ilaria and Dekusar, Anton and Velizhev, Alexander and Ben Alaya, Mahdi and Firmani, Carlotta and Simeon, Jean-Francois and Touko Tcheumadjeu, Louis Calvin and Solmaz, Gürkan and Bisconti, Francesco and Di Mauro, Luca and Noto, Sandro and Pagano, Paolo and Ferrera, Enrico and Gavilanes Castillo, Guido Alejandro and
Publié dans:
RIVER PUBLISHERS SERIES IN COMMUNICATIONS, 2020
Éditeur:
RIVER PUBLISHERS
Auteurs:
Ovidiu Vermesan, Joël Bacquet
Publié dans:
Cognitive Hyperconnected Digital Transformation, Numéro 1, 2017, Page(s) 1-310, ISBN 9788-793609105
Éditeur:
River Publisher
DOI:
10.13052/rp-9788793609105
Auteurs:
Willenbrock, Ralf (et al.), T-SYSTEM
Publié dans:
How IOT based Automated Driving can help cities to reduce Air Pollution, 2019, ISBN 978-3-030-14156-1
Éditeur:
SPRINGER
DOI:
10.1007/978-3-030-14156-1
Auteurs:
Gürkan Solmaz, Everton Luís Berz, Marzieh Farahani Dolatabadi, Samet Aytaç, Jonathan Fürst, Bin Cheng, Jos den Ouden
Publié dans:
Proceedings of the 1st ACM Workshop on Emerging Smart Technologies and Infrastructures for Smart Mobility and Sustainability - SMAS '19, 2019, Page(s) 27-32, ISBN 9781-450369305
Éditeur:
ACM Press
DOI:
10.1145/3349622.3355446
Auteurs:
Danila Rukhovich, Daniel Mouritzen, Ralf Kaestner, Martin Rufli, Alexander Velizhev (IBM Research - Zurich, Switzerland)
Publié dans:
ICCV 2019 workshop papers, 2019
Éditeur:
Computer Vision Foundation
Auteurs:
Stella Nikolaou and Ioannis Gragopoulos/ CERTH
Publié dans:
ICTR 2017 (8th International Congress on Transportation Research), 2017
Éditeur:
Hellenic Institute of Transport/Hellenic Institute of Transportation Engineers
Auteurs:
Elina Aittoniemi, VTT Technical Research Centre of Finland Ltd., Viktoriya Kolarova, German Aerospace Center (DLR), Yvonne Barnard, University of Leeds, UK, Katerina Touliou, CERTH, Greece, Bart Netten, TNO, Netherlands
Publié dans:
2018
Éditeur:
ITS World Congress
Auteurs:
Louis Calvin Touko Tcheumadjeu, Franz Andert, Qinrui Tang, Alexander Sohr, Robert Kaul, Jörg Belz, Philipp Lutz, Moritz Maier, Marcus Gerhard Müller, Wolgang Stürzl (DLR)
Publié dans:
2018
Éditeur:
21st International Conference on Intelligent Transportation Systems (ITSC)
Auteurs:
Ilaria Bosi, Enrico Ferrera, Daniele Brevi, Claudio Pastrone
Publié dans:
Proceedings of the 4th International Conference on Internet of Things, Big Data and Security, 2019, Page(s) 232-240, ISBN 978-989-758-369-8
Éditeur:
SCITEPRESS - Science and Technology Publications
DOI:
10.5220/0007690602320240
Auteurs:
Giovanna Larini, Giovanni Romano, Mariano Falcitelli, Sandro Noto, Paolo Pagano, Miodrag Djurica, Georgios Karagiannis, Gurkan Solmaz
Publié dans:
2019 European Conference on Networks and Communications (EuCNC), 2019, Page(s) 204-208, ISBN 978-1-7281-0546-8
Éditeur:
IEEE
DOI:
10.1109/eucnc.2019.8801948
Auteurs:
Elina Aittoniemi, Fanny Malin (VTT), Viktoriya Kolarova (DLR), Katerina Touliou (CERTH)
Publié dans:
2019
Éditeur:
ITS World Congress
Auteurs:
Daniele Brevi/LINKS, Mariano Falcitelli/CNIT, Stella Nikolaou/CERTH, {Lorenzo Maraia, Lorenzo Pieri}/AVR, {Francesco Bisconti, Luca Di Mauro, Sandro Noto, Paolo Pagano, Niccolò Pieretti, Alexandr Tardo, Andrea Tesei}/CNIT, {Edoardo Bonetto, Guido Gavilanes, Francesco Scappatura}/LINKS
Publié dans:
2019
Éditeur:
ITS Europe Congress
Auteurs:
Louis Touko Tcheumadjeu, Qinrui Tang, Marcus Gerhard Müller, Thomas Lobig, Philipp Lutz, Robert Kaul (DLR), Emi Mathews, Arjan Teerhuis (TNO), Garcia Castano Jorge (Vicomtech)
Publié dans:
2019
Éditeur:
ITS Europe Congress
Auteurs:
TNO, Antoine Schmeitz, Ramon S. Schwartz, Daan Ravesteijn, Geert Verhaeg, Daniel Altgassen and Harry Wedemeijer (TNO)
Publié dans:
2019
Éditeur:
ITS Europe Congress
Auteurs:
M. Djurica (TNO), G. Romano (TIM) , G. Karagiannis (Huawei), Y. Lassoued ( IBM Research – Ireland), G. Solmaz (NEC)
Publié dans:
2019
Éditeur:
ITS Europe Congress
Auteurs:
Siavash Shakeri (TomTom)
Publié dans:
2019
Éditeur:
ITS Europe Congress
Auteurs:
Dr Gillian Harrison, Professor Simon Shepherd, Dr Haibo Chen, Dr Yvonne Barnard (University of Leeds)
Publié dans:
2019
Éditeur:
Association For European Transport
Auteurs:
Viktoriya Kolarova, German Aerospace Center, Institute of Transport Research; David Ertl, FIA; Elina Aittoniemi, VTT; Gillian Harrison, University of Leeds; Yvonne Barnard, University of Leeds; Katerina Touliou, CERTH
Publié dans:
2019
Éditeur:
Automated Vehicles Symposium (AVS)
Droits de propriété intellectuelle
Numéro de demande/publication:
FR
1906976
Date:
2019-06-26
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