Abstract
This paper is concerned with the assessment of future applications of CASE (Co-operative, Autonomous, Shared, and Electric) mobility—a term that is also taken to include the more traditionally known applications of ITS (Intelligent Transport Systems). It sets the objective of making such assessments more holistic and horizontal in nature because future CASE mobility applications will include many technologies and service concepts as an integrated whole serving specific mobility objective. Traditional evaluation methodologies will therefore have to be modified to account for this situation, and to this end, the paper focuses on assessing and adapting such “traditional” methodologies. It draws from the experience gained in Greece in the last decade when a substantial number of ITS applications were implemented and assessed, especially in the second largest urban area of the country, the city of Thessaloniki (part of the EU’s European Network of Living Labs). Four basic methodologies are selected: the use of KPIs (Key Performance Indicators), focused interviews, the CMME (CASE Mobility Matrix Evaluation), and the use of safety audits before and after the CASE mobility application. For the first three, the paper suggests specific indicators and/or content. It also gives an example of the use of CMME based on a use case from Thessaloniki. The contents and recommendations of this paper provide a better understanding of the emerging situation as regards CASE mobility applications and point to the need for establishing a timely and comprehensive CASE mobility evaluation framework at both national and European levels, for future implementations.
Highlights
Definitions and objectivesThe acronym “CASE” stands for Co-operative, Autonomous, Shared, and Electric but the term “CASE mobility” that is used in this paper denotes these four advanced forms of urban mobility and all Information Technology (IT) or ArtificialIntelligence (AI)-based applications that form the so-called Intelligent Transport Systems (ITS), or the connected intelligent transport systems (C-ITS) as well as other non-transport, but related, technologies such as the Internet of Things (IoT) or the big Giannopoulos Journal of Engineering and Applied Science (2021) 68:1 data collection and analysis infrastructures [1, 2]
The experience gained from the CASE mobility applications in Greece is valuable in terms of the advanced technological performance of transportation networks and services that they provide, and in terms of the appraisal of the applicability and effectiveness of the various evaluation methodologies used for their evaluation and assessment
These methodologies have been tested, in one form or another, in a number of CASE mobility applications that were part of European Union (EU) co-funded research projects implemented in the city of Thessaloniki, Greece, by the authors’ company (TREDIT SA) or the Hellenic Institute of Transport (HIT/CERTH), both of which are based in Thessaloniki
Summary
Definitions and objectivesThe acronym “CASE” stands for Co-operative, Autonomous, Shared, and Electric but the term “CASE mobility” that is used in this paper denotes these four advanced forms of urban mobility and all Information Technology (IT) or ArtificialIntelligence (AI)-based applications that form the so-called Intelligent Transport Systems (ITS), or the connected intelligent transport systems (C-ITS) as well as other non-transport, but related, technologies such as the Internet of Things (IoT) or the big Giannopoulos Journal of Engineering and Applied Science (2021) 68:1 data collection and analysis infrastructures [1, 2]. CASE mobility became, for the first time, the subject of an official EU policy document in the Urban Mobility Package (UMP) of 2013 where the coordinated deployment of urban ITS, became one of the five key focus policy areas (see https://ec.europa.eu/transport/themes/urban/urban-mobility/urban-mobilitypackage_en). There were provisions for the development and implementation of Sustainable Urban Mobility Plans (SUMPs) for each urban area of the EU with over 100 000 population. These plans include measures and policies for the development of sustainable mobility, several of which fall under the CASE mobility category [3]. Already hundreds of European urban areas have developed such SUMPs
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