In this study, the authors propose a hierarchical control architecture for dealing with faults and adverse environmental conditions on an Automated Highway System (AHS). The faults are classified according to the capabilities remaining on the vehicle or roadside after the fault has occurred. Information about these capabilities is used by supervisors in each of the layers to select appropriate control strategies. The extended control strategies that are needed by these supervisors in each layer of the hierarchy are outlined. A companion paper, abstracted in PATH Database record no. 9597, develops and verifies protocols for extended coordination strategies and maneuvers
This paper sets out a configuration for an Automated Highway System (AHS) which is believed to have ...
The purpose of this paper is to design and test a vehicle control system in order to achieve full ve...
Abstract—The operation and transit of emergency vehicles on an automated highway system (AHS) design...
In this paper, the authors propose a hierarchical control architecture for dealing with faults an ad...
007740281055-14171995PDFTech ReportCalifornia PATH Working Paper UCB-ITS-PWP-95-3Automated highway s...
This report describes research in the area of fault detection and handling designs used in the longi...
The goal of this dissertation is to design controllers that guarantee collision-free operation of ve...
This report addresses the problem of designing safe controllers for the hybrid system composed by th...
The purpose of this project is to extend and integrate existing results on fault diagnostics and fau...
Once a baseline level of full automation is possible for an Automated Highway System, there are nume...
This report presents the hierarchical structure for the control design of an Automated Highway Syste...
Once a baseline level of full automation is possible for an Automated Highway System, there are nume...
This paper is concerned with the consequences of control system failures and external intrusions to ...
In a fully automated Automated Highway System (AHS), the roadside control system and the vehicles th...
his article describes vehicle control issues that must be faced T in designing a fully automated hig...
This paper sets out a configuration for an Automated Highway System (AHS) which is believed to have ...
The purpose of this paper is to design and test a vehicle control system in order to achieve full ve...
Abstract—The operation and transit of emergency vehicles on an automated highway system (AHS) design...
In this paper, the authors propose a hierarchical control architecture for dealing with faults an ad...
007740281055-14171995PDFTech ReportCalifornia PATH Working Paper UCB-ITS-PWP-95-3Automated highway s...
This report describes research in the area of fault detection and handling designs used in the longi...
The goal of this dissertation is to design controllers that guarantee collision-free operation of ve...
This report addresses the problem of designing safe controllers for the hybrid system composed by th...
The purpose of this project is to extend and integrate existing results on fault diagnostics and fau...
Once a baseline level of full automation is possible for an Automated Highway System, there are nume...
This report presents the hierarchical structure for the control design of an Automated Highway Syste...
Once a baseline level of full automation is possible for an Automated Highway System, there are nume...
This paper is concerned with the consequences of control system failures and external intrusions to ...
In a fully automated Automated Highway System (AHS), the roadside control system and the vehicles th...
his article describes vehicle control issues that must be faced T in designing a fully automated hig...
This paper sets out a configuration for an Automated Highway System (AHS) which is believed to have ...
The purpose of this paper is to design and test a vehicle control system in order to achieve full ve...
Abstract—The operation and transit of emergency vehicles on an automated highway system (AHS) design...