@article{roider_recognition_2015, title = {Recognition of sustainable mobility as basis for the transition into a digitial gaming concept for young people}, url = {http://www.iatbr2015.org.uk/index.php/iatbr/iatbr2015/paper/view/399}, abstract = {Mobility behaviour is often shaped through social habituation in childhood and adolescence. Persons who are accustomed to use sustainable transport modes will stick to their manner later on in life too. Since children and young adults undergo drastic physical and mental developmental steps in a short period of time, awareness raising campaigns must exactly match with different age groups and their current mobility behavior. Against this background of behavioral development of children, the research project BewusstMobil developed a concept for a smartphone application which automatically collects individual travel behaviour patterns, quantifies current environmental-friendly and health promoting behaviour and acts as platform for a game which young people can play online. The basic idea is that children and young people aged 12 to 18 years collect points by their current mobility behavior and chosen transport mode. Depending on how they travel (bus, tram, walking, etc.) and how environmental-friendly or healthy this mode of transport is, they collect more or less points i.e. for example if a person walks or travels by train, he/she gets more points as if traveling by car. Recognition of trip data (start and end points, mileage, time used, transport mode) is activated after the start of the application in the background and as soon as the person moves. Data are assessed by using GPS positioning and movement data such as speed and acceleration. In most cases, indicators for sustainable mobility are available on a very general level and rather aimed at assessing infrastructure projects. However, in this application, individual mobility and the benefit for the young transport user has to be evaluated. Thus, indicators known from research and practice are selected and transferred to an individual level. This includes pollutants and GHG-emissions (ecological impacts), costs (economic impacts), travel time and health benefits (social aspects). Depending on the selected transport mode, quantities are calculated for each indicator. The factors included in the calculation are the trip length [km] and the trip duration [min], which are determined through GPS tracking. The normalization is done by monetization, mainly based on recommendations for a cost-benefit analysis, i.e. different dimensions [g / veh-km, min, €] are converted to costs by using market prices (or "shadow prices"). These values are weighted according to their importance in order to ensure the assessment of environmentally friendliness and health promotion of individual mobility of children and adolescents. These parameters form the basis for the games’ scoring system. Points earned due to individual mobility behavior, can be traded in for proceeding on virtual routes of different modes on a map of Austria in the smartphone application, in order to reach virtual locations where the player can win goodies (promotional gifts, shopping vouchers, concert tickets, etc.). As several players try to reach these locations simultaneously, and the number of goodies at each location is limited the game creates motivation for playing and competing among participants. The application was tested in three different schools in the Province of Lower Austria covering pupils aged 13 to 18. A clear knowledge of the environmental impact of the transport system was identified prior to the test phase, but this knowledge hardly influences the choice of transport mode currently. However, a change in behavior had been reported during the gaming. Since this is not due to the transfer of (new) knowledge, it can be assumed that this shift was primarily caused by the game design and the information contained in the game mechanics that were incorporated resulting in a change of behavior. Generally, data collection as well as the overall concept and usage were clear for all users. However, younger people; age 13 years seems to lose interest faster than the other age classes. In particular, the interests concerning the competition were more relevant to higher classes, but at the same time the willingness to cheat increased. Thus, the full technical functionality was mentioned as requirement for further use of the application. Particularly, mode detection and tracking of individual trips have to ensure high accuracy and thus a fair scoring, since the desire for fair playing conditions was at the top in all age groups. From a scientific point of view, the application offers the opportunity to learn more about mobility behavior of young people and to use the digital world to raise the awareness and to influence user’s mode choice in a positive way. The presentation will give an overview of the data collection, the scoring system quantifying sustainable mobility behavior and illustrate the game concept based on the automatic recognition of individual trip data. Moreover, results of the before and after attitudinal and mobility surveys will demonstrate current mobility behavior, the perception of the application and the influence on the individual mobility behavior of young people based on current data.}, author = {Roider, Oliver and Judmaier, Peter and Barberi, Alessandro and Michelberger, Frank}, year = {2015}, keywords = {2015, Department Medien und Digitale Technologien, Department Technologie, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, interdisziplinär, peer-reviewed, ⛔ No DOI found}, } @inproceedings{judmaier_untersuchungsmethoden_2014, address = {Berlin}, title = {Untersuchungsmethoden zur {Gendersensibilität} von {Arbeitsplätzen} im {Umfeld} sicherheitskritischer {Systeme}}, booktitle = {Gender {UseT}}, publisher = {Kompetenzzentrum Technik – Diversity – Chancengleichheit e.V.}, author = {Judmaier, Peter and Pohl, Margit and Michelberger, Frank and Bichler, Romana and Erharter, Dorothea and Fränzl, Thomas and Kunz, Angelika}, year = {2014}, keywords = {Creative Industries, Department Gesundheit, Department Technologie, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Institut für Gesundheitswissenschaften, Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, SP IGW Health Promotion \& Healthy Ageing, Studiengang Physiotherapie, best, peer-reviewed, user centered design, ⛔ No DOI found}, } @article{geiger_mobile_2020, title = {Mobile {Applikation} für {Brückeninspektion}- {Ein} {App}-basiertes {Tool} zur {Unterstützung} von {Inspektionen} an {Stahlbetonbrücken}}, issn = {0013-28450}, language = {Deutsch}, journal = {ETR Eisenbahntechnische Rundschau}, author = {Geiger, Alexander and Grossberger, Hirut and Michelberger, Frank}, month = jun, year = {2020}, keywords = {Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, pages = {68--71}, } @article{michelberger_entwicklung_2017, title = {Entwicklung eines innovativen, höhenverstellbaren {Fahrleitungsmasten}}, volume = {Bahntechnik, Schiffbautechnik}, issn = {1868-5919}, language = {Deutsch}, number = {02/2017}, journal = {Ingenieurspiegel - Fachmagazin für Ingenieure}, author = {Michelberger, Frank and Röhl, Jan and Jahnel, Felix}, month = feb, year = {2017}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, best-lbmichelberger, peer-reviewed, ⛔ No DOI found}, pages = {18--21}, } @article{oberzaucher_nudging_2018, title = {Nudging im Ö{PNV} - menschengerechtes {Design} für optimierte {Betriebsqualitäten} im öffentlichen {Verkehr}}, number = {12/2018}, journal = {ETR - Eisenbahntechnische Rundschau}, author = {Oberzaucher, Elisabeth and Rüger, Bernhard}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {74--77}, } @article{michelberger_uberlegungen_2020, title = {Überlegungen zur {Wiedereinführung} der {Beförderung} von {Postgütern} mit der {Bahn}}, issn = {1868-5919,}, number = {02/2020}, journal = {Ingenieurspiegel}, author = {Michelberger, Frank and Heil, Gernot}, month = feb, year = {2020}, keywords = {Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, pages = {7--8}, } @article{michelberger_schotterflug_2018, title = {Schotterflug durch {Eisabwurf} – {Problematik} und mögliche {Maßnahmen}}, issn = {ISSN 1868-5919}, number = {2/2018}, journal = {Ingenieurspiegel}, author = {Michelberger, Frank and Ostermann, Michael and Maly, Thomas}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {56--57}, } @article{egger_martin_schraubenkupplung_2019, title = {Die {Schraubenkupplung} ist automatisierbar!}, issn = {0013-2810}, number = {06/2019}, journal = {Der Eisenbahningenieur}, author = {{Egger Martin} and Stadlmann, Burkhard and Peter, Traussenegger and Jürgen, Zajicek and Frank, Michelberger}, year = {2019}, keywords = {Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, pages = {18--21}, } @inproceedings{grossberger_mobile_2019, address = {Budapest, Hungary}, title = {Mobile {Application} for bridge maintenance and management}, author = {Grossberger, Hirut and Geiger, Alexander and Michlberger, Frank}, year = {2019}, keywords = {Institut für Mobilitätsforschung, Poster, best, peer-reviewed, ⛔ No DOI found}, } @inproceedings{wagner_proposal_2020, address = {Zagreb}, title = {Proposal of an ergonomic interface for supervision and control of an automated shunting device}, publisher = {Springer Nature}, author = {Wagner, Adrian and Haramina, Hrvoje and Michelberger, Frank}, month = mar, year = {2020}, keywords = {Institut für Mobilitätsforschung, Mobilität, Vortrag, best, best-awagner, peer-reviewed}, } @inproceedings{grossberger_mobile_2019, address = {Budapest, Hungary}, title = {Mobile {Application} for bridge maintenance and management}, author = {Grossberger, Hirut and Geiger, Alexander and Michlberger, Frank}, year = {2019}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, Poster, best, peer-reviewed, ⛔ No DOI found}, } @misc{anderluh_effects_2022, address = {Wien}, type = {Vortrag}, title = {{EFFECTS} of {Cycling} - {Ein} {Plus} für {Gesundheit}, {Wirtschaft} und {Verkehr}}, author = {Anderluh, Alexandra}, year = {2022}, note = {Projekt: EFFECTS}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, Wiss. Beitrag, best}, } @article{egger_automatisches_2018, title = {Automatisches {Trennen} von {Güterwagen} mit {Schraubenkupplung}}, number = {09/2018}, journal = {ETR - Eisenbahntechnische Rundschau}, author = {Egger, Martin and Zellner, Christoph and Stadlmann, Burkhard and Saliger, Florian and Traussenegger, Peter and Zajicek, Jürgen and Michelberger, Frank}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {136--140}, } @misc{anderluh_implementation_2021, address = {Athen/hybrid}, type = {Invited talk}, title = {Implementation of cargo bikes in urban freight delivery schemes - {Benefits} and {Challenges}}, url = {https://euro2021athens.com/}, author = {Anderluh, Alexandra}, year = {2021}, note = {Projekt: Inns'Paket}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, Wiss. Beitrag, best}, } @techreport{michelberger_ergebnisbericht_2018, address = {Wien}, type = {Endbericht}, title = {Ergebnisbericht {Projekt} {StilvA} - {Studie} für eine innovative, lärm- und verschleißarme {Bremsung} am {Abrollberg}}, url = {https://www2.ffg.at/verkehr/projekte.php?id=1473&lang=de}, language = {Deutsch}, institution = {Österreichische Forschungsförderungsgesellschaft mbH}, author = {Michelberger, Frank and Fabian, Christian and Jungwirth, Mario and Kalteis, Martin and Merschak, Simon and Stadlmann, Burkhard and Stock, Lukas and Wagner, Adrian}, month = aug, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, best, best-lbmichelberger, peer-reviewed}, } @incollection{michelberger_modularisation_2018, title = {Modularisation as a key-success factor for academia-industry collaboration}, isbn = {978-3-319-78543-1}, url = {https://www.springer.com/gp/book/9783319785431}, booktitle = {Sustainable {Rail} {Transport} - {Proceedings} of {RailNewcastle} 2017}, publisher = {Springer International Publishing 2018}, author = {Michelberger, Frank and Blauensteiner, Birgit}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed}, pages = {93--99}, } @inproceedings{ruger_effizienzsteigerung_2019, address = {Wien}, title = {Effizienzsteigerung von {Reisezügen} durch geeignete {Innenraumkonzepte}}, volume = {95 (2019)}, isbn = {978-3-903249-05-9}, booktitle = {30 {Jahre} {Hochleistungsbahnen} in Österreich - {Bilanz} und {Ausblick}}, publisher = {OVE Schriftenreihe}, author = {Rüger, Bernhard}, month = mar, year = {2019}, keywords = {Institut für Mobilitätsforschung, Vortrag, best, peer-reviewed}, pages = {49--54}, } @incollection{stadlmann_automatisierung_2018, address = {Linz}, title = {Automatisierung im {Verschiebebahnhof}}, isbn = {978-3-99062-175-}, booktitle = {Jahrbuch der {Logistikforschung} - {Innovative} {Anwendungen}, {Konzepte} \& {Technologie}}, publisher = {Trauner Verlag + Buchservice}, author = {Stadlmann, Burkhard and Egger, Martin and Michelberger, Frank and Zajicek, Jürgen}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed}, pages = {73--82}, } @incollection{ruger_influence_2018, address = {Cham}, title = {Influence of {Passenger} {Behaviour} on {Railway}-{Station} {Infrastructure}}, isbn = {978-3-319-78544-8}, language = {English}, booktitle = {Sustainable {Rail} {Transport}}, publisher = {Springer International Publishing}, author = {Rüger, Bernhard}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Buch, best, peer-reviewed}, pages = {S. 127 -- 160}, } @inproceedings{grossberger_smart_2018, address = {Vienna}, title = {Smart {Inspection} – {Innovative} solutions for maintenance of railway bridges}, author = {Grossberger, Hirut and Michelberger, Frank and Wagner, Adrian}, month = apr, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @inproceedings{zellner_automated_2018, address = {Vienna}, title = {Automated handling of a screw coupling of freight wagons}, author = {Zellner, Christoph and Michelberger, Frank and Stadlmann, Burkhard and Egger, Martin and Hattinger, Matthias and Zajicek, Jürgen}, month = apr, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @inproceedings{zellner_automated_2018, address = {Vienna}, title = {Automated handling of a screw coupling of freight wagons}, author = {Zellner, Christoph and Michelberger, Frank and Stadlmann, Burkhard and Egger, Martin and Hattinger, Matthias and Zajicek, Jürgen}, month = apr, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @inproceedings{michelberger_inspiring_2019, address = {Rabat, Morocco}, title = {Inspiring and {Hiring} the {Next} {Generation} - {Strategies} for a {Common} {Approach}}, author = {Michelberger, Frank and Grossberger, Hirut}, month = oct, year = {2019}, keywords = {Institut für Mobilitätsforschung, Vortrag, best, peer-reviewed}, } @article{geiger_mobile_2020, title = {Mobile {Applikation} für {Brückeninspektion}- {Ein} {App}-basiertes {Tool} zur {Unterstützung} von {Inspektionen} an {Stahlbetonbrücken}}, issn = {0013-28450}, language = {Deutsch}, journal = {ETR Eisenbahntechnische Rundschau}, author = {Geiger, Alexander and Grossberger, Hirut and Michelberger, Frank}, month = jun, year = {2020}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, pages = {68--71}, } @article{oberzaucher_elisabeth_nudging_2018, title = {Nudging im Ö{PNV} - menschengerechtes {Design} für optimierte {Betriebsqualitäten} im öffentlichen {Verkehr}}, number = {12/2018}, journal = {ETR - Eisenbahntechnische Rundschau}, author = {Oberzaucher, Elisabeth and Rüger, Bernhard}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {74--77}, } @inproceedings{grossberger_combined_2022, address = {Lisbon, Portugal}, title = {A combined application of {LCA} and {CE} in bridge lifecycle management: {A} case study on a reinforced concrete bridge.}, language = {ENGLISH}, booktitle = {Transportation {Research} {Procedia}}, author = {Grossberger, Hirut and Schwarzinger, Matthias}, year = {2022}, keywords = {Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, } @article{michelberger_erkennung_2020, title = {Erkennung von {Schienenbrüchen} mittels {Lichtwellenleiter}}, abstract = {Im Projekt Broken Rail Detection, durchgeführt für die UIC (International Union of Railways), konnte erarbeitet werden, dass ein entlang der Strecke verlegter Lichtwellenleiter (LWL) verwendet werden könnte, um Schienenbrüche zu erkennen. Auf Basis dieser Theorie wurde ein Feldtest durchgeführt, bei dem untersucht wurde, ob es möglich ist, einen Schienenbruch mit einem LWL zu erkennen. Der Versuch zeigte, dass es sowohl möglich ist, einen Schienenbruch zu erkennen als auch diesen aufgrund der Art des Signals von anderen Erschütterungen wie Schienenstößen oder Steinen auf der Schienenoberkante zu unterscheiden. Außerdem wurde erstmalig ein künstlich herbeigeführter Schienenbruch erzeugt.}, language = {Deutsch}, number = {12/2020}, journal = {Der Eisenbahningenieur}, author = {Michelberger, Frank and Graf, Philipp and Wagner, Adrian and Stock, Lukas and Huber, Stefan and Lancaster, Gavin}, year = {2020}, note = {Projekt: Broken Rail Detection}, keywords = {Institut für Mobilitätsforschung, Mobilität, best, peer-reviewed}, pages = {40--42}, } @article{nolz_consistent_2022, title = {The consistent electric-{Vehicle} routing problem with backhauls and charging management}, copyright = {CC BY-NC-ND}, issn = {03772217}, url = {https://linkinghub.elsevier.com/retrieve/pii/S0377221722000455}, doi = {10.1016/j.ejor.2022.01.024}, language = {en}, urldate = {2022-02-17}, journal = {European Journal of Operational Research}, author = {Nolz, Pamela C. and Absi, Nabil and Feillet, Dominique and Seragiotto, Clóvis}, month = jan, year = {2022}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, best, peer-reviewed}, pages = {S0377221722000455}, } @article{michelberger_uberlegungen_2020, title = {Überlegungen zur {Wiedereinführung} der {Beförderung} von {Postgütern} mit der {Bahn}}, issn = {1868-5919,}, number = {02/2020}, journal = {Ingenieurspiegel}, author = {Michelberger, Frank and Heil, Gernot}, month = feb, year = {2020}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, best, peer-reviewed}, pages = {7--8}, } @article{michelberger_entwicklung_2017, title = {Entwicklung eines innovativen, höhenverstellbaren {Fahrleitungsmasten}}, volume = {Bahntechnik, Schiffbautechnik}, issn = {1868-5919}, language = {Deutsch}, number = {02/2017}, journal = {Ingenieurspiegel - Fachmagazin für Ingenieure}, author = {Michelberger, Frank and Röhl, Jan and Jahnel, Felix}, month = feb, year = {2017}, note = {Projekt: AUFTRAG17}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, best-lbmichelberger, peer-reviewed, ⛔ No DOI found}, pages = {18--21}, } @article{egger_martin_schraubenkupplung_2019, title = {Die {Schraubenkupplung} ist automatisierbar!}, issn = {0013-2810}, number = {06/2019}, journal = {Der Eisenbahningenieur}, author = {{Egger Martin} and Stadlmann, Burkhard and Peter, Traussenegger and Jürgen, Zajicek and Frank, Michelberger}, year = {2019}, note = {Projekt: EntKuRo}, keywords = {Institut für Mobilitätsforschung, best, peer-reviewed, ⛔ No DOI found}, pages = {18--21}, } @inproceedings{wagner_proposal_2020, address = {Zagreb}, title = {Proposal of an ergonomic interface for supervision and control of an automated shunting device}, publisher = {Springer Nature}, author = {Wagner, Adrian and Haramina, Hrvoje and Michelberger, Frank}, month = mar, year = {2020}, keywords = {Institut für Mobilitätsforschung, Mobilität, Vortrag, best, best-awagner, peer-reviewed}, } @inproceedings{grossberger_smart_2018, address = {Vienna}, title = {Smart {Inspection} – {Innovative} solutions for maintenance of railway bridges}, author = {Grossberger, Hirut and Michelberger, Frank and Wagner, Adrian}, month = apr, year = {2018}, note = {Projekt: SIZI}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @inproceedings{michelberger_inspiring_2019, address = {Rabat, Morocco}, title = {Inspiring and {Hiring} the {Next} {Generation} - {Strategies} for a {Common} {Approach}}, author = {Michelberger, Frank and Grossberger, Hirut}, month = oct, year = {2019}, note = {Projekt: SIZI}, keywords = {Center for Sustainable Mobility, Institut für Mobilitätsforschung, Vortrag, best, peer-reviewed}, } @inproceedings{ruger_effizienzsteigerung_2019, address = {Wien}, title = {Effizienzsteigerung von {Reisezügen} durch geeignete {Innenraumkonzepte}}, volume = {95 (2019)}, isbn = {978-3-903249-05-9}, booktitle = {30 {Jahre} {Hochleistungsbahnen} in Österreich - {Bilanz} und {Ausblick}}, publisher = {OVE Schriftenreihe}, author = {Rüger, Bernhard}, month = mar, year = {2019}, note = {Projekt: TaS2}, keywords = {Institut für Mobilitätsforschung, Vortrag, best, peer-reviewed}, pages = {49--54}, } @techreport{michelberger_ergebnisbericht_2018, address = {Wien}, type = {Endbericht}, title = {Ergebnisbericht {Projekt} {StilvA} - {Studie} für eine innovative, lärm- und verschleißarme {Bremsung} am {Abrollberg}}, url = {https://www2.ffg.at/verkehr/projekte.php?id=1473&lang=de}, language = {Deutsch}, institution = {Österreichische Forschungsförderungsgesellschaft mbH}, author = {Michelberger, Frank and Fabian, Christian and Jungwirth, Mario and Kalteis, Martin and Merschak, Simon and Stadlmann, Burkhard and Stock, Lukas and Wagner, Adrian}, month = aug, year = {2018}, note = {Projekt: StilvA}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, best, best-lbmichelberger, peer-reviewed}, } @incollection{stadlmann_automatisierung_2018, address = {Linz}, title = {Automatisierung im {Verschiebebahnhof}}, isbn = {978-3-99062-175-}, booktitle = {Jahrbuch der {Logistikforschung} - {Innovative} {Anwendungen}, {Konzepte} \& {Technologie}}, publisher = {Trauner Verlag + Buchservice}, author = {Stadlmann, Burkhard and Egger, Martin and Michelberger, Frank and Zajicek, Jürgen}, year = {2018}, note = {Projekt: EntKuRo}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed}, pages = {73--82}, } @incollection{michelberger_modularisation_2018, title = {Modularisation as a key-success factor for academia-industry collaboration}, isbn = {978-3-319-78543-1}, url = {https://www.springer.com/gp/book/9783319785431}, booktitle = {Sustainable {Rail} {Transport} - {Proceedings} of {RailNewcastle} 2017}, publisher = {Springer International Publishing 2018}, author = {Michelberger, Frank and Blauensteiner, Birgit}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed}, pages = {93--99}, } @inproceedings{zellner_automated_2018, address = {Vienna}, title = {Automated handling of a screw coupling of freight wagons}, author = {Zellner, Christoph and Michelberger, Frank and Stadlmann, Burkhard and Egger, Martin and Hattinger, Matthias and Zajicek, Jürgen}, month = apr, year = {2018}, note = {Projekt: EntKuRo}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Präsentation, Publikationstyp Schriftpublikation, best, peer-reviewed}, } @incollection{ruger_influence_2018, address = {Cham}, title = {Influence of {Passenger} {Behaviour} on {Railway}-{Station} {Infrastructure}}, isbn = {978-3-319-78544-8}, language = {English}, booktitle = {Sustainable {Rail} {Transport}}, publisher = {Springer International Publishing}, author = {Rüger, Bernhard}, year = {2018}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Buch, best, peer-reviewed}, pages = {S. 127 -- 160}, } @article{michelberger_schotterflug_2018, title = {Schotterflug durch {Eisabwurf} – {Problematik} und mögliche {Maßnahmen}}, issn = {ISSN 1868-5919}, number = {2/2018}, journal = {Ingenieurspiegel}, author = {Michelberger, Frank and Ostermann, Michael and Maly, Thomas}, year = {2018}, note = {Projekt: EISMON}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {56--57}, } @article{roider_recognition_2015, title = {Recognition of sustainable mobility as basis for the transition into a digitial gaming concept for young people}, url = {http://www.iatbr2015.org.uk/index.php/iatbr/iatbr2015/paper/view/399}, abstract = {Mobility behaviour is often shaped through social habituation in childhood and adolescence. Persons who are accustomed to use sustainable transport modes will stick to their manner later on in life too. Since children and young adults undergo drastic physical and mental developmental steps in a short period of time, awareness raising campaigns must exactly match with different age groups and their current mobility behavior. Against this background of behavioral development of children, the research project BewusstMobil developed a concept for a smartphone application which automatically collects individual travel behaviour patterns, quantifies current environmental-friendly and health promoting behaviour and acts as platform for a game which young people can play online. The basic idea is that children and young people aged 12 to 18 years collect points by their current mobility behavior and chosen transport mode. Depending on how they travel (bus, tram, walking, etc.) and how environmental-friendly or healthy this mode of transport is, they collect more or less points i.e. for example if a person walks or travels by train, he/she gets more points as if traveling by car. Recognition of trip data (start and end points, mileage, time used, transport mode) is activated after the start of the application in the background and as soon as the person moves. Data are assessed by using GPS positioning and movement data such as speed and acceleration. In most cases, indicators for sustainable mobility are available on a very general level and rather aimed at assessing infrastructure projects. However, in this application, individual mobility and the benefit for the young transport user has to be evaluated. Thus, indicators known from research and practice are selected and transferred to an individual level. This includes pollutants and GHG-emissions (ecological impacts), costs (economic impacts), travel time and health benefits (social aspects). Depending on the selected transport mode, quantities are calculated for each indicator. The factors included in the calculation are the trip length [km] and the trip duration [min], which are determined through GPS tracking. The normalization is done by monetization, mainly based on recommendations for a cost-benefit analysis, i.e. different dimensions [g / veh-km, min, €] are converted to costs by using market prices (or "shadow prices"). These values are weighted according to their importance in order to ensure the assessment of environmentally friendliness and health promotion of individual mobility of children and adolescents. These parameters form the basis for the games’ scoring system. Points earned due to individual mobility behavior, can be traded in for proceeding on virtual routes of different modes on a map of Austria in the smartphone application, in order to reach virtual locations where the player can win goodies (promotional gifts, shopping vouchers, concert tickets, etc.). As several players try to reach these locations simultaneously, and the number of goodies at each location is limited the game creates motivation for playing and competing among participants. The application was tested in three different schools in the Province of Lower Austria covering pupils aged 13 to 18. A clear knowledge of the environmental impact of the transport system was identified prior to the test phase, but this knowledge hardly influences the choice of transport mode currently. However, a change in behavior had been reported during the gaming. Since this is not due to the transfer of (new) knowledge, it can be assumed that this shift was primarily caused by the game design and the information contained in the game mechanics that were incorporated resulting in a change of behavior. Generally, data collection as well as the overall concept and usage were clear for all users. However, younger people; age 13 years seems to lose interest faster than the other age classes. In particular, the interests concerning the competition were more relevant to higher classes, but at the same time the willingness to cheat increased. Thus, the full technical functionality was mentioned as requirement for further use of the application. Particularly, mode detection and tracking of individual trips have to ensure high accuracy and thus a fair scoring, since the desire for fair playing conditions was at the top in all age groups. From a scientific point of view, the application offers the opportunity to learn more about mobility behavior of young people and to use the digital world to raise the awareness and to influence user’s mode choice in a positive way. The presentation will give an overview of the data collection, the scoring system quantifying sustainable mobility behavior and illustrate the game concept based on the automatic recognition of individual trip data. Moreover, results of the before and after attitudinal and mobility surveys will demonstrate current mobility behavior, the perception of the application and the influence on the individual mobility behavior of young people based on current data.}, author = {Roider, Oliver and Judmaier, Peter and Barberi, Alessandro and Michelberger, Frank}, year = {2015}, note = {Projekt: FORSCH31}, keywords = {2015, Center for Sustainable Mobility, Department Medien und Digitale Technologien, Department Technologie, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, interdisziplinär, peer-reviewed, ⛔ No DOI found}, } @inproceedings{judmaier_untersuchungsmethoden_2014, address = {Berlin}, title = {Untersuchungsmethoden zur {Gendersensibilität} von {Arbeitsplätzen} im {Umfeld} sicherheitskritischer {Systeme}}, booktitle = {Gender {UseT}}, publisher = {Kompetenzzentrum Technik – Diversity – Chancengleichheit e.V.}, author = {Judmaier, Peter and Pohl, Margit and Michelberger, Frank and Bichler, Romana and Erharter, Dorothea and Fränzl, Thomas and Kunz, Angelika}, year = {2014}, note = {Projekt: GenSiSys}, keywords = {Center for Sustainable Mobility, Creative Industries, Department Gesundheit, Department Technologie, Forschungsgruppe Media Computing, Institut für Creative Media Technologies, Institut für Gesundheitswissenschaften, Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, SP IGW Health Promotion \& Healthy Ageing, Studiengang Physiotherapie, best, peer-reviewed, user centered design, ⛔ No DOI found}, } @article{egger_automatisches_2018, title = {Automatisches {Trennen} von {Güterwagen} mit {Schraubenkupplung}}, number = {09/2018}, journal = {ETR - Eisenbahntechnische Rundschau}, author = {Egger, Martin and Zellner, Christoph and Stadlmann, Burkhard and Saliger, Florian and Traussenegger, Peter and Zajicek, Jürgen and Michelberger, Frank}, year = {2018}, note = {Projekt: EntKuRo}, keywords = {Institut für Mobilitätsforschung, Publikationstyp Schriftpublikation, best, peer-reviewed, ⛔ No DOI found}, pages = {136--140}, }