首页> 外国专利> AUTOMATIC BLADE CONTROL SYSTEM DURING A PERIOD OF A GLOBAL NAVIGATIONSATELLITE SYSTEM REAL-TIME KINEMATIC MODE SYSTEM OUTAGE

AUTOMATIC BLADE CONTROL SYSTEM DURING A PERIOD OF A GLOBAL NAVIGATIONSATELLITE SYSTEM REAL-TIME KINEMATIC MODE SYSTEM OUTAGE

机译：全球航行期间的自动叶片控制系统卫星系统实时运动模式系统中断

页面导航

摘要
著录项
相似文献

摘要

For precision grading of terrain by a dozer, the dozer blade can be automatically controlled based on measurements from a combination of a global navigation satellite system real-time kinematic mode (GNSS RTK) system and inertial sensors. At least one GNSS sensor and at least one inertial sensor are mounted on the dozer. Control algorithms are based on blade elevation and blade slope angle. During a period of GNSS RTK system outage, control of blade elevation is not available. Blade control is maintained by switching to control algorithms based on blade slope angle and blade pitch angle. Blade slope angle and blade pitch angle are controlled based on extrapolated target values of blade slope angle and blade pitch angle. The extrapolated target values of the angles are extrapolated from target values of the angles prior to the GNSS RTK system outage with the use of a distance travelled by the dozer.

机译：为了通过推土机对地形进行精确平整，可以基于来自全球导航卫星系统实时运动模式（GNSS RTK）系统和惯性传感器组合的测量结果来自动控制推土铲。推土机上安装有至少一个GNSS传感器和至少一个惯性传感器。控制算法基于叶片高程和叶片倾斜角。在GNSS RTK系统停机期间，无法控制刀片高程。通过切换到基于叶片倾斜角和叶片俯仰角的控制算法来维持叶片控制。基于叶片倾斜角和叶片倾斜角的外推目标值来控制叶片倾斜角和叶片倾斜角。角度的外推目标值是根据推土机行进的距离从GNSS RTK系统中断之前的角度目标值推断出来的。

著录项

公开/公告号WO2012028916A1

专利类型
公开/公告日2012-03-08

原文格式PDF
申请/专利权人 TOPCON POSITIONING SYSTEMS INC.;OMELCHENKO ALEXANDER N.;ZHDANOV ALEXEY V.;
展开▼

申请/专利号WO2011IB01894
发明设计人 OMELCHENKO ALEXANDER N.;ZHDANOV ALEXEY V.;
展开▼

申请日2011-08-16
分类号G01S19/25;G01C21/16;
国家 WO
入库时间 2022-08-21 17:17:25

相似文献

专利
外文文献
中文文献