Devina Manoeva scite author profile

Devina Manoeva

5Publications

3Citation Statements Received

0Citation Statements Given

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Otto-von-Guericke University Magdeburg, Technical University of Sofia

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Shared autonomous cargo bike fleets '“ approaches for a novel sustainable urban mobility solution

Schmidt¹,

Junge²,

Höfer³

et al. 2021

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The societal mission of mitigating air pollution and greenhouse gas emissions are forcing urban agglomerations worldwide strongly greening their urban transportation systems. The global megatrend of urbanization aggravates those challenges by steadily increasing the demand for urban movements of people and goods. Recent research concludes that the autonomous cars propagated in this context carry the risk of significant rebound effects and therefor make the overall societal benefit appear at least doubtful [Fraedrich et al. 2017; Hörl et al. 2019]. Shared autonomous fleets of electrically powered micro-vehicles, on the other hand, have the potential to reduce emissions through their electric powertrains, to avoid traffic jams by substituting of passenger cars, to achieve a high degree of comfort and flexibility compared to the classic car through automated provision and at the same time strengthen public transport as integrated last mile service. At the same time, micro-vehicles, for example in the form of cargo bikes, can be tailored very variably to a specific usage scenario to exploiting further efficiency gains. The authors propose a use case in which an electrified three-wheeled cargo bike, flexibly called to any location at any time, is provided in an automated manner and can be transferred to manual operation after being handed over to the user. After use, the vehicle is released and returns to the depot or is ready for the next request. The separation into automated provision and manual mobility service simplifies the safety concepts and functional safety of the system and thus, from the authors' point of view, increases the realization potential compared to the privat autonomous vehicles (PAV) or shared autonomous vehicles (SAV). The technical implications of this scenario are very similar to those of the autonomous car, but in some cases address significantly different focus, as the article will show. This paper describes the approaches developed during the prototypical realization of the usage scenario and presents proposals for solutions. For this purpose, first relevant requirements are defined, the existing vehicle and sensor concept are described in detail, and solutions for environment perception, prediction, localization, trajectory planning, and interaction design as well as for the confection of the overall logistics system are presented and evaluated in a simulative or experimental manner.

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Introducing a road interaction-focused approach towards autonomous driving cargo bikes as a new urban mobility offer

Manoeva

Gehlmann

Maiwald

et al. 2020

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An investigation into design engineering aspects of a shared autonomous micro vehicle concept

Manoeva¹,

Salzer²,

Schmidt³

2022

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Future transport will require fundamental changes if we are to tackle the climate crisis efficiently. Autonomous vehicles could play a crucial role as alternatives for private cars without hindering basic individual transport needs. That is especially true for the first and last mile, which is not covered by the public transport network. The scientific project AuRa (“Autonomes Rad”, engl. autonomous bicycle) comes in here. It develops a use case in which an electrified three-wheeled cargo bike will become an on-demand, shared autonomous vehicle for the city. The present work in progress focuses on the development of a user-centered design for such a vehicle. Recently, there has been a growing interest to illustrate the potential early involvement of future users can have on the successful introduction of new products. A better understanding of user needs, behavior, and expectations could inform de-signers and enable them to develop products that better correspond with the true needs of users. For the investigation into design engineering aspects of the future concept, a qualitative method was selected. A series of moderated discussions (focus groups) were conducted with potential users. The main goal was to investigate features regarding safety, comfort, personalization, and interaction, which enable comfortable usage for the user and might increase the acceptance of the vehicle. The results were used to inform engineering designers and support the further development of the next prototype of the autonomous cargo bike.

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Lighting utilization as a tool for interaction of small autonomous urban vehicles in mixed traffic environment

Manoeva

Sasho

2019

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Addressable LED/ Buzzer structures for signaling/ reflection for urban E-Bikes

Manoeva

Pichurov

2020

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Devina Manoeva

Shared autonomous cargo bike fleets '“ approaches for a novel sustainable urban mobility solution

Introducing a road interaction-focused approach towards autonomous driving cargo bikes as a new urban mobility offer

An investigation into design engineering aspects of a shared autonomous micro vehicle concept

Lighting utilization as a tool for interaction of small autonomous urban vehicles in mixed traffic environment

Addressable LED/ Buzzer structures for signaling/ reflection for urban E-Bikes

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