This paper proposes a computational trajectory optimization framework for solving the problem of multi-objective automatic parking motion planning. Constrained automatic parking maneuver problem is usually difficult to solve because of some practical limitations and requirements. This problem becomes more challenging when multiple objectives are required to be optimized simultaneously. The designed approach employs a swarm intelligent algorithm to produce the trade-off front along the objective space. In order to enhance the local search ability of the algorithm, a gradient operation is utilized to update the solution. In addition, since the evolutionary process tends to be sensitive with respect to the flight control parameters, a novel ad...
This paper introduces a hierarchical framework that integrates graph search algorithms and model pre...
[EN] Autonomous vehicle guidance and trajectory planning is one of the key technologies in the auton...
International audienceThis paper formalizes, under a single common Multi-Sensor-Based Predictive Con...
This paper proposes a computational trajectory optimization framework for solving the problem of mul...
This paper proposes a computational trajectory optimization framework for solving the problem of mul...
This paper proposes a two-stage optimization framework for generating the optimal parking motion tra...
AbstractThis paper proposes a motion planner for autonomous parking. Compared to the prevailing and ...
This MSc. thesis explores the design and implementation of a motion planner for non-holonomic autono...
This paper presents a framework to plan and execute autonomous parking maneuvers in complex parking ...
This paper proposes a multi-optimization approach to the autonomous parking of car-like vehicles. It...
Abstract — This paper proposes a multi-optimization ap-proach to the autonomous parking of car-like ...
In the recent era, machine learning-based autonomous vehicle parking and obstacle avoidance navigati...
In this study, an algorithm presents a solution to 4-wheel-car parking. This algorithm is suitable f...
This paper introduces an autonomous parking trajectory planning method in an unstructured environmen...
Path planning that considers accurate vehicle dynamics and obstacle avoidance is an important proble...
This paper introduces a hierarchical framework that integrates graph search algorithms and model pre...
[EN] Autonomous vehicle guidance and trajectory planning is one of the key technologies in the auton...
International audienceThis paper formalizes, under a single common Multi-Sensor-Based Predictive Con...
This paper proposes a computational trajectory optimization framework for solving the problem of mul...
This paper proposes a computational trajectory optimization framework for solving the problem of mul...
This paper proposes a two-stage optimization framework for generating the optimal parking motion tra...
AbstractThis paper proposes a motion planner for autonomous parking. Compared to the prevailing and ...
This MSc. thesis explores the design and implementation of a motion planner for non-holonomic autono...
This paper presents a framework to plan and execute autonomous parking maneuvers in complex parking ...
This paper proposes a multi-optimization approach to the autonomous parking of car-like vehicles. It...
Abstract — This paper proposes a multi-optimization ap-proach to the autonomous parking of car-like ...
In the recent era, machine learning-based autonomous vehicle parking and obstacle avoidance navigati...
In this study, an algorithm presents a solution to 4-wheel-car parking. This algorithm is suitable f...
This paper introduces an autonomous parking trajectory planning method in an unstructured environmen...
Path planning that considers accurate vehicle dynamics and obstacle avoidance is an important proble...
This paper introduces a hierarchical framework that integrates graph search algorithms and model pre...
[EN] Autonomous vehicle guidance and trajectory planning is one of the key technologies in the auton...
International audienceThis paper formalizes, under a single common Multi-Sensor-Based Predictive Con...