Rezultaty
Recommendations for future international standard in Rail and road environment for data interoperability and communication to improve safety at level crossing. (Task 5.3)
Evaluation of new human centred low cost measuresReport on the evaluation of the measures described in D2.3 using the criteria of the “Human factor” methodological framework, developed in Task 2.2 and the results of the field test. (Task 2.3)
Communication and Dissemination activities (final report)Description of all the dissemination actions conducted during the project
Human factor methodological frameworkImprovement and refining of the methodological framework (D2.3) using the results from the pilot tests. (Task 2.3)
Results of the evaluation of the pilot testsReport on the impact assessment of the use cases (based on technological and non-technological solutions) and list of a set of indicators that will prove the performance of the proposed measures.(Task 4.3)
Exploitation Plan – updated versionUpdated version of D 6.4 (First version of the exploitation plan). (Task 6.4)
Report on risk evaluation system and use cases for pilot testResults on risk evaluation after deployment of the acquisition platform developed. (Task 3.1)
Communication and Dissemination PlanDescription of a comprehensive dissemination strategy for the project (Task 6.1)
Definition of new human centred low cost countermeasuresDescription of concept of low cost countermeasures to enhance the safety of current LC infrastructures and make them more self-explaining and forgiving. (Task 2.3)
Needs and requirements for improving level crossing safetyList of recommendations and requirements to be considered in WP2, WP3, WP4 and WP5. Specifically this deliverable will list safety requirements which should be satisfied by level crossings both during normal operations and degraded modes by also taking consideration the digitalisation of railways. (Task 1.3)
Pilot operation reportReport on the implementation of the pilot tests describing the simulation, controlled and field tests implemented based on the use cases defined in WP1 and WP2 as well as the scenarios proposed by WP3. (Task 4.2)
Exploitation Plan – First versionThe Exploitation plan will describe how the members of the consortium will exploit the knowledge, the tools and the recommendations developed during the carrying out of the project. The possible impact of the project recommendations on relevant existing standardization framework will be identified. (Task 6.4)
Report on smart detection systemReport on the evaluation of the safety effect of the LC’s ‘smart detection system’ developed in task 3.2 and tested together with the communication system developed in task 3.4. (task 3.2)
Communication and Dissemination activities (mid-term report)Report on the dissemination actions of the 18 first months and update of the dissemination strategy for the project (Task 6.1)
Level crossing accidents and factors behind themIn-depth review of accident data available on each country. Study will cover accident data from the past 5 year period. Analysis will concentrate on factors such as LC type, legal requirements, road and rail vehicle speeds, and involvement in secondary tasks, visibility / sight distances, driving ability, passive signs and active warning devices. (Task 1.2)
Recommendations BrochureA public brochure with the recommendations and lessons learned from the project will be published at the end of the project (Task 6.4)
Exploitation Plan - Final versionFinal version of the exploitation plan
Analysis of level crossing safety in Europe and beyondReport on the analysis of level crossing safety in Europe and beyond based on available sources on the differences in LC environments between countries covering legal aspects, division of responsibilities between stakeholders by country, safety arrangement and user requirements taking into account user groups. (Task 1.1)
Business models for safer LC innovative solutionsDevelopment of Business Models for the deployment of the solutions developed in WP2 and WP3 and tested in WP4. (Task 5.2)
Adopted cost-benefit analysis approachAnalysis of existing practices of Cost Benefit Analysis related to safety in railway sectors and identification of an harmonised approach based on the results of WP4. (Task 5.1)
Evaluation frameworkDescription of the evaluation framework to monitor and evaluate the pilot tests. The evaluation framework will define in detail the performance indicators focusing in technical, safety and business related issues and data to be collected for the measurement and/or estimation of the indicator (Task 4.1)
State of the art of LC safety analysis: identification of key safety indicators concerning human errors and violationsAnalysis of LC and safety systems taking into account the road and rail user’s perspective and identifying key safety indicators concerning user requirements and human errors, mainly focusing on attentional processes and risk perception (paying special attention to vulnerable users). (Task 2.1)
Proof-of-concept on data acquisition platform for risk evaluation and AID systemsDescription of the data acquisition platform for risk evaluation and AID systems. (Task 3.1)
Recommendations for national policy and regulations regarding the LC from the infrastructure point of viewSynthesis of recommendations on technical specifications and human processes, but also on the organizational and legal framework when implementing the proposed solutions, so as to meet the requirements of the latest cooperative standards. (Task 5.3)
Report on communication and warning systemReport on the results of task 3.4 on emerging and existing communication standards to transmit the risk and hazard information detected by Task 3.2 and Task 3.3 at LCs to all concerned road users, road and rail traffic managers. (Task 3.4)
Implementation guidelinesGuidelines for the execution of the pilot tests from the data collection and monitoring to the daily interaction with the testing partners; Harmonized pilot monitoring guidelines will be provided for all the environments. (Task 4.1)
Human factor methodological framework and application guide for testing (interim report)Analysis of LC and safety systems taking into account the road and rail user’s perspective and identifying key safety indicators concerning user requirements and human errors, mainly focusing on attentional processes and risk perception (paying special attention to vulnerable users).(Task 2.2)
4-page Brochure (project presentation)4-page brochure to present the project that will be distributed in international safety and land transport events. (Task 6.1)
Guidelines for installation of smart sensors for monitoring of LC infrastructureGuidelines for installation of smart sensors for monitoring of LC infrastructure (Task 3.3)
Online toolbox bringing together all information produced during SAFER-LC project will be designed, implemented and continuously updated, even after the end of the project. (Task 6.3)
Publikacje
Autorzy:
Havârneanu, G.M., Dreßler, A., Grippenkoven, J., Silla, A, Prieto, E., & Bonneau, M.-H.
Opublikowane w:
Proceedings of 7th Transport Research Arena TRA 2018, April 16-19, 2018, Vienna, Austria., 2018
Wydawca:
Zenodo
DOI:
10.5281/zenodo.1486712
Autorzy:
Anne Silla, Esko Lehtonen, Ari Virtanen, Johannes Mesimäki, Katrin Bialinska, Jan Grippenkoven, Annika Dressler
Opublikowane w:
Proceedings of 26th Intelligent Transport Systems World Congress, ITS Singapore 2019, 2019
Wydawca:
26th Intelligent Transport Systems World Congress, ITS Singapore 2019
Autorzy:
Ari Virtanen, Anne Silla, Maria Jokela, Kimmo Kauvo
Opublikowane w:
Proceedings of 13th ITS European Congress: Fulfilling ITS promises - Brainport Eindhoven, Netherlands, 2019
Wydawca:
13th ITS European Congress: Fulfilling ITS promises - Brainport Eindhoven, Netherlands
Autorzy:
Stefano Carrese, Marco Petrelli, Alessandra Renna
Opublikowane w:
Transportation Research Procedia, Numer 45, 2020, Strona(/y) 562-571, ISSN 2352-1465
Wydawca:
Transportation Research Procedia
DOI:
10.1016/j.trpro.2020.03.056
Autorzy:
Neofytos Boufidis, Josep Maria Salanova Grau, Panagiotis Tzenos, Georgia Aifandopoulou
Opublikowane w:
Transportation Research Procedia, Numer 47, 2020, Strona(/y) 346-352, ISSN 2352-1465
Wydawca:
Transportation Research Procedia
DOI:
10.1016/j.trpro.2020.03.108
Autorzy:
Anastasios Skoufas, Socrates Basbas, Josep Maria Salanova Grau, Georgia Aifadopoulou
Opublikowane w:
Periodica Polytechnica Transportation Engineering, 2016, ISSN 0303-7800
Wydawca:
Budapesti Muszaki es Gazdasagtudomanyi Egyetem/Budapest University of Technology and Economics
DOI:
10.3311/pptr.14892
Autorzy:
Brandies, A., Brinkmann, F. & Grippenkoven, J.
Opublikowane w:
SIGNAL + DRAHT, 2019, ISSN 0037-4997
Wydawca:
DVV Media Group
Autorzy:
Dreßler, A., Grippenkoven, J., Silla, A. & Virtanen, A.
Opublikowane w:
EI – Der Eisenbahningenieur, 2020, ISSN 0013-2810
Wydawca:
Tetzlaff Verlag GmbH & Co. KG
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