Automated Guided Vehicles (AGV) are important components of modern automated transport systems. Increasing the system efficiency and throughput requires the use of heavy vehicles travelling at high speeds. As the AGV's payload capacity and travelling speed increases, the ensuing increase in lateral acceleration requires thorough dynamic modelling and more sophisticated controller design. To establish the sufficient level of model complexity necessary for this work, a 3-DOF nonlinear dynamic model comprising yaw, lateral, and roll motions is developed. The suspension, lateral and longtudinal load transfer, nonlinear behaviour of tires, and steering dynamics are included in this model. The model also comprises the effect of actuators, differe...
This report focuses on dynamic modeling and lateral control of commercial heavy-duty vehicles for hi...
Title:3rd International Conference on Advances in Vehicle Control and Safety 2007 (AVCS'07) and 3rd ...
This paper examines the performance of different active control strategies for improving lateral sta...
In this report, achievements under TO4201, "Robust Lateral Control of Heavy Duty Vehicles," are pres...
The problem of controlling an Automated Guided Vehicles (AGV) with the minimum number of sensors is ...
Abstract—Dynamics of automated guided vehicles (AGVs) are described by a nonlinear nonholonomic mode...
Automated Guided Vehicles (AGV) exhibit serious instability in its steering mechanisms, in most case...
Tracked Autonomous Guided Vehicles (TAGVs) are becoming an important tool for surveillance and secur...
Automated guided vehicles (AGVs) are used for the internal and external transport of materials. Trad...
Current heavy vehicles having two or more trailers suffer from unique dynamic characteristics which...
This paper proposes a robust load-dependent controller synthesis to improve the lateral stability an...
The control of the longitudinal, lateral and vertical dynamics of four-wheeled vehicles, both of con...
This is the final report for MOU 313, "Lateral Control of Heavy Vehicles for Automated Highway Syste...
This work presents a control strategy for the trajectory tracking problem of an Automated Guided Veh...
Abstract: The research work focuses on issues of vehicle modeling incorporating wheel-terrain intera...
This report focuses on dynamic modeling and lateral control of commercial heavy-duty vehicles for hi...
Title:3rd International Conference on Advances in Vehicle Control and Safety 2007 (AVCS'07) and 3rd ...
This paper examines the performance of different active control strategies for improving lateral sta...
In this report, achievements under TO4201, "Robust Lateral Control of Heavy Duty Vehicles," are pres...
The problem of controlling an Automated Guided Vehicles (AGV) with the minimum number of sensors is ...
Abstract—Dynamics of automated guided vehicles (AGVs) are described by a nonlinear nonholonomic mode...
Automated Guided Vehicles (AGV) exhibit serious instability in its steering mechanisms, in most case...
Tracked Autonomous Guided Vehicles (TAGVs) are becoming an important tool for surveillance and secur...
Automated guided vehicles (AGVs) are used for the internal and external transport of materials. Trad...
Current heavy vehicles having two or more trailers suffer from unique dynamic characteristics which...
This paper proposes a robust load-dependent controller synthesis to improve the lateral stability an...
The control of the longitudinal, lateral and vertical dynamics of four-wheeled vehicles, both of con...
This is the final report for MOU 313, "Lateral Control of Heavy Vehicles for Automated Highway Syste...
This work presents a control strategy for the trajectory tracking problem of an Automated Guided Veh...
Abstract: The research work focuses on issues of vehicle modeling incorporating wheel-terrain intera...
This report focuses on dynamic modeling and lateral control of commercial heavy-duty vehicles for hi...
Title:3rd International Conference on Advances in Vehicle Control and Safety 2007 (AVCS'07) and 3rd ...
This paper examines the performance of different active control strategies for improving lateral sta...