Automatic asset manager extreme landings1/27/2024 ![]() In addition to survey-based approaches, virtual and/or live motion and simulation (M&S) based approaches are warranted for in-depth investigation of safety-, infrastructure-, sustainability-, environment-, and human factor-specific requirements (as shown in Figure 1). In addition, whether general population is willing to embrace and pay for flying cars as personal vehicles and/or as a shared mobility service are major research questions that have been investigated as well ( Ahmed et al., 2019 Eker et al., 2020b). A number of recent studies have demonstrated that people's perception toward potential benefits and concerns from the future use of flying cars, as well as the associated safety and security issues are multifaceted, and influenced by a broad range of socio-demographic factors ( Eker et al., 2019, 2020a). Evaluation and statistical analysis of public perception toward a forthcoming transportation technology pose significant methodological challenges in terms of unobserved heterogeneity and temporal instability ( Mannering and Bhat, 2014 Mannering et al., 2016 Fountas et al., 2018 Mannering, 2018). However, regardless of the superior transportation capabilities likely to be offered by this technology, the widespread adoption of flying cars will be predominantly shaped by public perception. Specifically, a Flying Car is much more maneuverable and would be less susceptible to traffic jams while traversing three dimensional airspace as compared to two dimensional ground-based roadways ( Soffar, 2018). The surmised advantages of a Flying Car network are many, as it effectively combines ideal characteristics of both planes and cars. However, recent technological advances are slowly bringing these capabilities closer to reality ( Covington, 2018). Since the depictions of flying cars were mostly confined in the science fiction movies, the notion of a real “Flying Car” has long-seemed nearer to science fiction than science fact. The “Transportation network of Tomorrow” has long been a topic of discussion and debate, with numerous forward-thinking possibilities. Insights offered by this data will help inform next-generation policies and standards associated with the gradual advancement of flying cars. This paper concludes with a preliminary quantitative analysis exploring the public perceptions associated with flying cars-including anticipated benefits, concerns, and willingness to both hire and acquire the technology once available to consumers. Specifically, issues pertinent to training, safety, environment, navigation, infrastructure, logistics/sustainability, and cybersecurity and human factors are explored. In this paper, an extensive review of current literature is conducted to explore the technological capabilities of flying cars-each requiring appropriate regulations and governance-to become fully sustainable. However, as a long-term solution, transportation scientists are also investigating the once-seemingly futuristic notion of flying car technology-a convergent form of ground/air vehicle transportation, and assessing associated regulations. Current pathways to overcoming these issues include the gradual transition toward a number of emerging transportation technologies, such as, autonomous motor vehicles for human transport, as well as unmanned aerial vehicles (UAV's) and “drone” technologies for surveillance, and package deliveries. Instead of following the traditional infrastructure expansion policy, current transportation research focuses on developing innovative and novel solutions to the aforementioned issues. In recent years, our surface transportation infrastructure is suffering from overuse, extreme traffic congestion, and roadway disrepair. 4Transport Research Institute, Edinburgh Napier University, Edinburgh, United Kingdom.3Motion Simulation Laboratory, University at Buffalo, Buffalo, NY, United States.2Stephen Still Institute for Sustainable Transportation and Logistics, University at Buffalo, Buffalo, NY, United States.1Department of Civil, Structural and Environmental Engineering, University at Buffalo, Buffalo, NY, United States. ![]() Hulme 2,3, Grigorios Fountas 4, Ugur Eker 5, Irina V.
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |