Vibration-based terrain classification for planetary exploration rovers

Author

Brooks, Christopher A. ; Iagnemma, Karl

Author_Institution

Dept. of Mech. Eng., Massachusetts Inst. of Technol., Cambridge, MA, USA

Volume

21

Issue

6

fYear

2005

Firstpage

1185

Lastpage

1191

Abstract

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. Visual features are often used to classify terrain; however, vision can be sensitive to lighting variations and other effects. This paper presents a method to classify terrain based on vibrations induced in the rover structure by wheel-terrain interaction during driving. This sensing mode is robust to lighting variations. Vibrations are measured using an accelerometer mounted on the rover structure. The classifier is trained using labeled vibration data during an offline learning phase. Linear discriminant analysis is used for online identification of terrain classes, such as sand, gravel, or clay. This approach has been experimentally validated on a laboratory testbed and on a four-wheeled rover in outdoor conditions.

Keywords

accelerometers; aerospace robotics; aerospace safety; image classification; mobile robots; planetary rovers; vibrations; wheels; accelerometer; autonomous mobility; linear discriminant analysis; planetary exploration rovers; safety; vibration based terrain classification; visual features; wheel-terrain interaction; Accelerometers; Extraterrestrial measurements; Laboratories; Linear discriminant analysis; Robustness; Rough surfaces; Safety; Surface roughness; Testing; Vibration measurement; Mobile robots; pattern classification; robot sensing systems; rough terrain;

fLanguage

English

Journal_Title

Robotics, IEEE Transactions on

Publisher

ieee

ISSN

1552-3098

Type

jour

DOI

10.1109/TRO.2005.855994

Filename

1549945