We examine potential improvements to public transport systems induced by the autonomous vehicle technology (AVT). To do so, we study a feeder system that operates on-demand in an idealized local zone, and the design of a trunk system that operates over a more general city model and with traditional lines. It is shown that the AVT encourages larger fleets of smaller vehicles that follow more direct routes, when compared with the traditional technology (TT). In both sub-systems, the total savings induced by the AVT reach up to one third of TT's costs. Congestion could increase by a marginal amount
With the advent of self-driving cars, Autonomous Mobility on Demand (AMoD) may become a very popular...
Under active research, technology of autonomous vehicles (AVs) is getting mature and many AVs will r...
An important problem for surface transport is road traffic congestion, which is ubiquitous and diffi...
Autonomous vehicles are predicted to disrupt the current landscape of urban mobility.Many studies ha...
This chapter brings an overview of the evolution of automation in public transport, from the first a...
Licensee MDPI, Basel, Switzerland. Mobility is experiencing a revolution, as advanced communicat...
Autonomous vehicles (AVs), here self-driving and driverless vehicles, SAE levels 4 and 5 are becomin...
The maturing of autonomous driving technology in recent years has led to several pilot projects and ...
The introduction of automation technology in transport systems brings both opportunities and challen...
Autonomous vehicles (AVs, here self-driving and driverless vehicles, SAE (1) levels 4 and 5) are bec...
It is widely recognised that digital technology – and in particular dynamic ride sharing systems (DR...
32 pagesOur transportation system is likely to face significant changes through the adoption of auto...
International audienceThe technological development of autonomous vehicles (AVs) challenges their ec...
Given the rapid technological advances in developing autonomous vehicles (AV), the key question appe...
Autonomous vehicles (AVs), also called driverless vehicles, according to SAE International (2016) le...
With the advent of self-driving cars, Autonomous Mobility on Demand (AMoD) may become a very popular...
Under active research, technology of autonomous vehicles (AVs) is getting mature and many AVs will r...
An important problem for surface transport is road traffic congestion, which is ubiquitous and diffi...
Autonomous vehicles are predicted to disrupt the current landscape of urban mobility.Many studies ha...
This chapter brings an overview of the evolution of automation in public transport, from the first a...
Licensee MDPI, Basel, Switzerland. Mobility is experiencing a revolution, as advanced communicat...
Autonomous vehicles (AVs), here self-driving and driverless vehicles, SAE levels 4 and 5 are becomin...
The maturing of autonomous driving technology in recent years has led to several pilot projects and ...
The introduction of automation technology in transport systems brings both opportunities and challen...
Autonomous vehicles (AVs, here self-driving and driverless vehicles, SAE (1) levels 4 and 5) are bec...
It is widely recognised that digital technology – and in particular dynamic ride sharing systems (DR...
32 pagesOur transportation system is likely to face significant changes through the adoption of auto...
International audienceThe technological development of autonomous vehicles (AVs) challenges their ec...
Given the rapid technological advances in developing autonomous vehicles (AV), the key question appe...
Autonomous vehicles (AVs), also called driverless vehicles, according to SAE International (2016) le...
With the advent of self-driving cars, Autonomous Mobility on Demand (AMoD) may become a very popular...
Under active research, technology of autonomous vehicles (AVs) is getting mature and many AVs will r...
An important problem for surface transport is road traffic congestion, which is ubiquitous and diffi...