DocumentCode
1655904
Title
Motion Control of Landmine Detection Vehicle Equipped with Low-Ground-Pressure Tires
Author
Fukuda, Toshio ; Sato, Shinsuke ; Hasegawa, Yohei ; Matsuno, Takayuki ; Zyada, Zakarya
Author_Institution
Nagoya Univ.
fYear
2006
Firstpage
1
Lastpage
6
Abstract
Most of landmine detection robots proposed before have been strongly restricted to locomote because they have not been able to enter the minefield. So we have proposed a mine detection vehicle which can enter minefield with low-ground-pressure tires and scan landmines directly using GPR. Low-ground-pressure tire decrease ground contact pressure. And we are intended to make accurate map that point out the position where landmines are buried. The position of the vehicle is able to be observed with internal sensors (for the posture measurement) and external sensors (for the position measurement). However, when controlling the vehicle, the sampling time of external sensors and communication time from external sensors to the vehicle cannot be disregarded. Exact position of the vehicle must be predicted with dynamical model of the vehicle. We therefore propose dynamical model of the vehicle for low-ground-pressure vehicle. Based on experimental results, the dynamical model for low-ground-pressure vehicle is in consistency with actual behavior of it
Keywords
landmine detection; military systems; mobile robots; motion control; robot dynamics; vehicle dynamics; GPR; landmine detection robots; landmine detection vehicle; low-ground-pressure tires; motion control; position measurement; posture measurement; vehicle dynamical model; Communication system control; Ground penetrating radar; Landmine detection; Motion control; Position measurement; Robots; Sampling methods; Tires; Vehicle detection; Vehicles;
fLanguage
English
Publisher
ieee
Conference_Titel
Micro-NanoMechatronics and Human Science, 2006 International Symposium on
Conference_Location
Nagoya
Print_ISBN
1-4244-0717-6
Electronic_ISBN
1-4244-0718-1
Type
conf
DOI
10.1109/MHS.2006.320238
Filename
4110376
Link To Document