Copyright © 2017 Inderscience Enterprises Ltd. The road terrain type is important information about a passenger vehicle’s surroundings. It suggests an appropriate control algorithm and driving strategy. In this paper, a Lidar sensor is employed to reconstruct the road surface and extract features for terrain classification. The experiment vehicle was driven on four specific road terrains at a variety of speeds. The speed dependency and the effect of using principal component analysis were investigated. The simulation experimental results show that this Lidar sensor-based approach is feasible and robust for passenger vehicles in a range of outdoor scenarios
Self-driving cars require a holistic perception of their environment. To achieve this requirement, ...
The monitoring of pavement distress takes a key role with respect to the functionality of a road str...
The quick and accurate understanding of the ambient environment, which is composed of road curbs, ve...
For road vehicles, knowledge of terrain types is useful in improving passenger safety and comfort. T...
The recent developments in applications that have been designed to increase road safety require reli...
© 2017 IEEE. The perception of the environment around a land vehicle plays a crucial role for its dr...
Abstract—This paper describes an algorithm for an au-tonomous car to identify the shape of a roadway...
Various researches and technologies are being developed and utilized to improve the function of auto...
Generating of a highly precise map grows up with development of autonomous driving vehicles. The hig...
2011PDFTech ReportLaser radarRadarAutomatic vehicle detection and identification systemsAutomatic ve...
The monitoring of pavement distress takes a key role with respect to the functionality of a road str...
his thesis deals with detection of the road adjacent to an autonomous vehicle. The road is recogniti...
The purpose of our master thesis is to locate and find a mathematical model of the road surface from...
The focus of this work is addressing the challenges of performing object recognition in real world s...
© 2001-2011 IEEE. Road terrain identification is one of the important tasks for driving assistant sy...
Self-driving cars require a holistic perception of their environment. To achieve this requirement, ...
The monitoring of pavement distress takes a key role with respect to the functionality of a road str...
The quick and accurate understanding of the ambient environment, which is composed of road curbs, ve...
For road vehicles, knowledge of terrain types is useful in improving passenger safety and comfort. T...
The recent developments in applications that have been designed to increase road safety require reli...
© 2017 IEEE. The perception of the environment around a land vehicle plays a crucial role for its dr...
Abstract—This paper describes an algorithm for an au-tonomous car to identify the shape of a roadway...
Various researches and technologies are being developed and utilized to improve the function of auto...
Generating of a highly precise map grows up with development of autonomous driving vehicles. The hig...
2011PDFTech ReportLaser radarRadarAutomatic vehicle detection and identification systemsAutomatic ve...
The monitoring of pavement distress takes a key role with respect to the functionality of a road str...
his thesis deals with detection of the road adjacent to an autonomous vehicle. The road is recogniti...
The purpose of our master thesis is to locate and find a mathematical model of the road surface from...
The focus of this work is addressing the challenges of performing object recognition in real world s...
© 2001-2011 IEEE. Road terrain identification is one of the important tasks for driving assistant sy...
Self-driving cars require a holistic perception of their environment. To achieve this requirement, ...
The monitoring of pavement distress takes a key role with respect to the functionality of a road str...
The quick and accurate understanding of the ambient environment, which is composed of road curbs, ve...