This study presents the development and analysis of a technique for planning the autonomous vehicle (AV) motion references using sequential optimization. The method determines the trajectory plan, speed and acceleration distributions, and other AV kinematic parameters. The approach combines the basics of the finite element method (FEM) and nonlinear optimization with nonlinear constraints. First, we briefly described the generalization of representing an arbitrary function by finite elements (FE) within a road segment. We chose a one-dimensional FE with two nodes and three degrees of freedom (DOF) in a node corresponding to the 5th-degree polynomial. Next, we presented a method for defining the motion trajectory. The following are considere...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
We propose a motion planning method for automated vehicles (AVs) to complete driving tasks in dynami...
Autonomous vehicles must be able to react in a timely manner to typical and unpredictable situations...
To allow future autonomous passenger vehicles to be used in the same driving situations and conditio...
This paper proposes an optimized trajectory planner and motion planner framework, which aim to deal ...
This paper presents a spatial-based trajectory planning method for automated vehicles under actuator...
This thesis studies motion planning for future autonomous vehicles with main focus on passenger cars...
Autonomous driving is an emerging technology that is advancing in a very fast way. It is a complex c...
This article presents a procedure algorithm and vehicle dynamics models that can be applied to plann...
The paper addresses a velocity planning problem for autonomous vehicles. Appropriate bounds on veloc...
This paper describes trajectory planning for an Autonomous Vehicle (AV) in the freeway path. Three t...
This thesis addresses smooth motion planning and path following control of autonomous large and heav...
In this paper, an efficient real-time autonomous driving motion planner with trajectory optimization...
This paper presents a hierarchical motion planning approach based on discrete optimization method. W...
© 1993-2012 IEEE. Autonomous vehicles require a collision-free motion trajectory at every time insta...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
We propose a motion planning method for automated vehicles (AVs) to complete driving tasks in dynami...
Autonomous vehicles must be able to react in a timely manner to typical and unpredictable situations...
To allow future autonomous passenger vehicles to be used in the same driving situations and conditio...
This paper proposes an optimized trajectory planner and motion planner framework, which aim to deal ...
This paper presents a spatial-based trajectory planning method for automated vehicles under actuator...
This thesis studies motion planning for future autonomous vehicles with main focus on passenger cars...
Autonomous driving is an emerging technology that is advancing in a very fast way. It is a complex c...
This article presents a procedure algorithm and vehicle dynamics models that can be applied to plann...
The paper addresses a velocity planning problem for autonomous vehicles. Appropriate bounds on veloc...
This paper describes trajectory planning for an Autonomous Vehicle (AV) in the freeway path. Three t...
This thesis addresses smooth motion planning and path following control of autonomous large and heav...
In this paper, an efficient real-time autonomous driving motion planner with trajectory optimization...
This paper presents a hierarchical motion planning approach based on discrete optimization method. W...
© 1993-2012 IEEE. Autonomous vehicles require a collision-free motion trajectory at every time insta...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
We propose a motion planning method for automated vehicles (AVs) to complete driving tasks in dynami...
Autonomous vehicles must be able to react in a timely manner to typical and unpredictable situations...