Strategies and spacing requirements for lane changing and merging in automated highway systems
| Autor: | Kanaris, Alexander, Kosmatopoulos, E. B., Ioannou, Petros A. |
|---|---|
| Přispěvatelé: | Ioannou, Petros A. [0000-0001-6981-0704] |
| Rok vydání: | 2001 |
| Předmět: |
Engineering
Computer Networks and Communications Stability (learning theory) Aerospace Engineering Automotive engineering Minimum safety spacing Intelligent vehicle highway systems Automated highway systems Position control Maneuverability Electrical and Electronic Engineering Collision avoidance Rest (physics) Automated highway systems (AHSs) business.industry High capacity Remote sensing Motion control Collision Vehicle driving Collision lane changing Spacing requirements Control system Collision free merging Automotive Engineering Lane changing Safety business Algorithms |
| Zdroj: | IEEE Transactions on Vehicular Technology IEEE Trans.Veh.Technol. |
| ISSN: | 0018-9545 |
| DOI: | 10.1109/25.966586 |
| Popis: | In automated highway systems (AHS) vehicles are expected to operate using their own sensing and control systems by interacting with other vehicles and the infrastructure in a way that guarantees safety, stability, and high capacity. One of the crucial vehicle maneuvers in a AHS environment that could affect safety and capacity is that of merging and lane changing. Such a vehicle maneuver would influence the operation of the vehicles in the vicinity and may have to alter their speed and position coordinates in order to accommodate the maneuver of the merging or lane changing vehicle in a way that safety is guaranteed and the disturbance in the traffic flow is minimized. In this paper, we analyze the problem of collision-free merging and lane changing. We examine various alternative scenaria for merging and lane changing and we present an algorithm for calculating the minimum safety spacing for lane changing (MSSLC) that is, we calculate the inter-vehicle spacing that the vehicles should maintain during a merging or lane changing maneuver so that in the case where one of the vehicles executes an emergency braking maneuver, the rest of the vehicles have enough time and space to stop without any collision taking place. The calculation of the MSSLCs for merging or lane changing maneuvers is more complicated than the calculation of the minimum safety spacing for longitudinal vehicle following since, in the former case we have to take into account the particular lane-changing policy of the merging vehicle as well as the effects of combined lateral/longitudinal motion during the lane changing maneuver. The braking profiles of the vehicles involved in an emergency scenario during a lane changing maneuver depends on the particular AHS operational concept, i.e., on the degree of communication between the vehicles and between the vehicles and the infrastructure. We consider six different AHS operational concepts for each concept we consider possible emergency braking profiles and we investigate the effect of the particular operational concept on the MSSLC. 50 6 1568 1581 Cited By :38 |
| Databáze: | OpenAIRE |
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