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IROS
2008
IEEE
2008
IEEE
A relative information metric for vehicle following systems
— Vehicle following can be achieved by minimizing the relative information (Kullback-Leibler or K-L distance), between the estimated poses of leader and follower vehicles by formulating the vehicle following system as an optimization problem. The aim is to search for an optimal control action for the follower vehicle in the admissible control command space. Relative information is used as a metric in the search space and for evaluating the expected performance of vehicle following. With this metric, and based on the assumption that both vehicle pose (position and orientation) distributions are Gaussian functions, the K-L distance of the vehicle following system can be computed. With a series of admissible actions, such as steering and velocity commands, for the follower vehicle at each pose prediction step, and by minimizing the K-L distance, an optimized action for the follower vehicle can be obtained. The proposed vehicle following algorithm has been tested and the performance of t...
Real-time TrafficFollower Vehicle | IROS 2008 | K-L Distance | Robotics | Vehicle |
| Added | 31 May 2010 |
| Updated | 31 May 2010 |
| Type | Conference |
| Year | 2008 |
| Where | IROS |
| Authors | Teck Chew Ng, Martin David Adams, Javier Ibanez Guzman |
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