The problem of motion planning of an autonomous vehicle amidst other vehicles on a straight road is considered. Traffic in a number of countries is unorganized, where the vehicles do not move within predefined speed lanes. In this paper, we formulate a mechanism wherein an autonomous vehicle may travel on the “wrong” side in order to overtake a vehicle. Challenges include assessing a possible overtaking opportunity, cooperating with other vehicles, partial driving on the “wrong” side of the road and safely going to and returning from the “wrong” side. The experimental results presented show vehicles cooperating to accomplish overtaking manoeuvres
In the context of intelligent transportation, this paper presents a novel on-line trajectory-generat...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
Overtaking is a maneuver that consists of passing another vehicle traveling on the same trajectory, ...
The problem of motion planning of an autonomous vehicle amidst other vehicles on a straight road is ...
Planning is one of the key problems for autonomous vehicles operating in road scenarios. Present pla...
Planning of autonomous vehicles in the absence of speed lanes is a less-researched problem. However...
Autonomous driving of multi-lane vehicle platoons have attracted significant attention in recent yea...
Unorganized traffic is characterized by the vehicles not adhering to the marked lanes, and is a real...
Chaotic traffic, prevalent in many countries, is marked by a large number of vehicles driving with d...
In this paper we deal with an overtaking and lane change strategy for autonomous vehicles. The algor...
Self-driving vehicles will soon be a reality, as main automotive companies have announced that they ...
The planning of semi-autonomous vehicles in traffic scenarios is a relatively new problem that contr...
The planning of semi-autonomous vehicles in traffic scenarios is a relatively new problem that contr...
In this paper we present a trajectory generation method for autonomous overtaking of unexpected obst...
With self-driving vehicles being pushed towards the main-stream, there is an increasing motivation ...
In the context of intelligent transportation, this paper presents a novel on-line trajectory-generat...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
Overtaking is a maneuver that consists of passing another vehicle traveling on the same trajectory, ...
The problem of motion planning of an autonomous vehicle amidst other vehicles on a straight road is ...
Planning is one of the key problems for autonomous vehicles operating in road scenarios. Present pla...
Planning of autonomous vehicles in the absence of speed lanes is a less-researched problem. However...
Autonomous driving of multi-lane vehicle platoons have attracted significant attention in recent yea...
Unorganized traffic is characterized by the vehicles not adhering to the marked lanes, and is a real...
Chaotic traffic, prevalent in many countries, is marked by a large number of vehicles driving with d...
In this paper we deal with an overtaking and lane change strategy for autonomous vehicles. The algor...
Self-driving vehicles will soon be a reality, as main automotive companies have announced that they ...
The planning of semi-autonomous vehicles in traffic scenarios is a relatively new problem that contr...
The planning of semi-autonomous vehicles in traffic scenarios is a relatively new problem that contr...
In this paper we present a trajectory generation method for autonomous overtaking of unexpected obst...
With self-driving vehicles being pushed towards the main-stream, there is an increasing motivation ...
In the context of intelligent transportation, this paper presents a novel on-line trajectory-generat...
Autonomous driving is a disrupting technology that is expected to reshape transportation systems. Th...
Overtaking is a maneuver that consists of passing another vehicle traveling on the same trajectory, ...