Autonomous vehicle following : a virtual trailer link approach
This thesis addresses the automation of the vehicle following function in an urban city environment, i.e., travelling under heavy traffic conditions or in a ‘stop-and-go’ motion. A virtual trailer link model for vehicle following has been proposed. With this perspective, the leader is represented...
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sg-ntu-dr.10356-189012023-07-04T16:49:59Z Autonomous vehicle following : a virtual trailer link approach Ng, Teck Chew Martin David Adams School of Electrical and Electronic Engineering Javier Ibanez Guzman DRNTU::Engineering::Electrical and electronic engineering::Control and instrumentation This thesis addresses the automation of the vehicle following function in an urban city environment, i.e., travelling under heavy traffic conditions or in a ‘stop-and-go’ motion. A virtual trailer link model for vehicle following has been proposed. With this perspective, the leader is represented as a tractor pulling the follower, which is modelled as a trailer, in the form of a virtual link. The optimum configuration and the length of the virtual trailer link model have been determined by taking into consideration the safe following distance as well as general car-like vehicle dynamics and constraints. In implementing the virtual trailer link model for vehicle following, sensors are required for the estimation of the relative pose and velocity of the lead vehicle in relation to the follower. However, inherent sensor noise, as well as limitations on their fields of view and resolution can affect the performance of the vehicle following function. A Bayesian formulation is thus proposed to model the process and sensor noise in the system. The key to a tractable solution for this formulation is based on the justified assumption that the pose of the follower vehicle is statistically independent of that of the leader. By estimating the poses of both vehicles, together with the uncertainties of the system, it is possible to minimize the path deviations between them. Moreover, as a result of uncertainties in the system, the computed driving commands based on the virtual trailer link model need to be optimized. Hence, a metric is required to evaluate and optimize the driving commands for the follower vehicle. An information theoretic framework is proposed. The aim of this framework is to select an optimal control input to the follower so as to minimize the pose error between the vehicles. Under this framework, the relative information has been used as a metric to evaluate a sequence of controlling actions, which act as inputs to the follower vehicle. DOCTOR OF PHILOSOPHY (EEE) 2009-08-12T03:39:53Z 2009-08-12T03:39:53Z 2009 2009 Thesis Ng, T. C. (2009). Autonomous vehicle following : a virtual trailer link approach. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/18901 10.32657/10356/18901 en 248 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Control and instrumentation Ng, Teck Chew Autonomous vehicle following : a virtual trailer link approach |
| description |
This thesis addresses the automation of the vehicle following function in an
urban city environment, i.e., travelling under heavy traffic conditions or in a
‘stop-and-go’ motion. A virtual trailer link model for vehicle following has been
proposed. With this perspective, the leader is represented as a tractor pulling
the follower, which is modelled as a trailer, in the form of a virtual link. The
optimum configuration and the length of the virtual trailer link model have been
determined by taking into consideration the safe following distance as well as
general car-like vehicle dynamics and constraints. In implementing the virtual
trailer link model for vehicle following, sensors are required for the estimation
of the relative pose and velocity of the lead vehicle in relation to the follower.
However, inherent sensor noise, as well as limitations on their fields of view
and resolution can affect the performance of the vehicle following function. A
Bayesian formulation is thus proposed to model the process and sensor noise
in the system. The key to a tractable solution for this formulation is based
on the justified assumption that the pose of the follower vehicle is statistically
independent of that of the leader. By estimating the poses of both vehicles,
together with the uncertainties of the system, it is possible to minimize the
path deviations between them. Moreover, as a result of uncertainties in the system, the computed driving commands based on the virtual trailer link model need to be optimized. Hence, a metric is required to evaluate and optimize the
driving commands for the follower vehicle. An information theoretic framework
is proposed. The aim of this framework is to select an optimal control input to
the follower so as to minimize the pose error between the vehicles. Under this
framework, the relative information has been used as a metric to evaluate a sequence of controlling actions, which act as inputs to the follower vehicle. |
| author2 |
Martin David Adams |
| author_facet |
Martin David Adams Ng, Teck Chew |
| format |
Theses and Dissertations |
| author |
Ng, Teck Chew |
| author_sort |
Ng, Teck Chew |
| title |
Autonomous vehicle following : a virtual trailer link approach |
| title_short |
Autonomous vehicle following : a virtual trailer link approach |
| title_full |
Autonomous vehicle following : a virtual trailer link approach |
| title_fullStr |
Autonomous vehicle following : a virtual trailer link approach |
| title_full_unstemmed |
Autonomous vehicle following : a virtual trailer link approach |
| title_sort |
autonomous vehicle following : a virtual trailer link approach |
| publishDate |
2009 |
| url |
https://hdl.handle.net/10356/18901 |
| _version_ |
1772826843013971968 |