Add to ORKGAbstract—Safe, autonomous mobility in rough terrain is an important requirement for planetary exploration rovers. Knowledge of local terrain properties is critical to ensure a rover’s safety on slopes and uneven surfaces. This paper presents a method to classify terrain based on vibrations induced in the rover structure by wheel-terrain interaction during driving. Vibrations are measured using an accelerometer on the rover structure. The classifier is trained using labeled vibration data during an off-line learning phase. Linear discriminant analysis is used for on-line identification of terrain classes such as sand, gravel, or clay. This approach is experimentally validated on a laboratory testbed. Index Terms—Rough terrain, mobile robots,...
Abstract — We present a novel terrain classification technique both for effective, autonomous locomo...
Knowledge of the physical properties of terrain surrounding a planetary exploration rover can be use...
AbstractTo run safely and carry out the mission, a mobile robot should identify types, physical and/...
Abstract—Autonomous mobility in rough terrain is key to enabling increased science data return from ...
Abstract—Future planetary exploration missions will require rovers to perform difficult tasks in rou...
Abstract — There is a variety of different terrain types in outdoor environments, each posing differ...
In off-road applications, where mobile robots operate on rough environments, the physical properties...
In off-road applications, where mobile robots operate on rough environments, the physical properties...
This paper introduces novel methods for terrain classification and characterization with a mobile ro...
Off road navigation demands ground robots to traverse complex and often changing terrain. Classifica...
Abstract. When an outdoor mobile robot traverses different types of ground surfaces, different types...
We present a new terrain classification technique both for effective, autonomous locomotion over rou...
We present a new terrain classification technique both for effective, autonomous locomotion over rou...
Future planetary exploration missions will require wheeled mobile robots ("rovers") to traverse very...
Abstract—Knowledge of the physical properties of terrain surrounding a planetary exploration rover c...
Abstract — We present a novel terrain classification technique both for effective, autonomous locomo...
Knowledge of the physical properties of terrain surrounding a planetary exploration rover can be use...
AbstractTo run safely and carry out the mission, a mobile robot should identify types, physical and/...
Abstract—Autonomous mobility in rough terrain is key to enabling increased science data return from ...
Abstract—Future planetary exploration missions will require rovers to perform difficult tasks in rou...
Abstract — There is a variety of different terrain types in outdoor environments, each posing differ...
In off-road applications, where mobile robots operate on rough environments, the physical properties...
In off-road applications, where mobile robots operate on rough environments, the physical properties...
This paper introduces novel methods for terrain classification and characterization with a mobile ro...
Off road navigation demands ground robots to traverse complex and often changing terrain. Classifica...
Abstract. When an outdoor mobile robot traverses different types of ground surfaces, different types...
We present a new terrain classification technique both for effective, autonomous locomotion over rou...
We present a new terrain classification technique both for effective, autonomous locomotion over rou...
Future planetary exploration missions will require wheeled mobile robots ("rovers") to traverse very...
Abstract—Knowledge of the physical properties of terrain surrounding a planetary exploration rover c...
Abstract — We present a novel terrain classification technique both for effective, autonomous locomo...
Knowledge of the physical properties of terrain surrounding a planetary exploration rover can be use...
AbstractTo run safely and carry out the mission, a mobile robot should identify types, physical and/...