GLOBAL CONTROL FOR ROBOTIC EXCAVATION USING FUZZY LOGIC AND STATECHARTS

机译：使用模糊逻辑和StateCharts的机器人挖掘的全球控制

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This paper presents global strategies for the computer control of autonomous backhoe-type excavators. The control structure is divided into low and high levels. The low level control utilises fuzzy logic to encapsulate expert experience for capturing soil in many excavation scenarios. UML statecharts are used at the higher level for mapping environment and machine sensor data to actuator control signals. This mapping is based on a deep understanding of excavation performed by a skilful operator and is coded into rule sets. Transition between states or behaviours is accomplished via associated task characteristic functions that not only switch among tasks but also enable/disable rules according to digging phases. Typical excavation tasks are decomposed into statecharts and task elements. The control schemes are illustrated by autonomous trench digging. Field test results are provided to verify the validity of the proposed control architecture.

机译：本文介绍了自主反铲式挖掘机计算机控制的全球策略。控制结构分为低电平。低级控制利用模糊逻辑在许多挖掘场景中封装捕获土壤的专家体验。 UML StateCharts用于更高的级别，用于将环境和机器传感器数据映射到执行器控制信号。该映射基于对由熟练操作者执行的挖掘的深度理解，并被编码为规则集。通过关联的任务特征函数实现状态或行为之间的转换，该函数不仅不仅在任务之间切换而且根据挖掘阶段启用/禁用规则。典型的挖掘任务被分解为StateCharts和任务元素。控制方案由自主沟槽挖掘说明。提供现场测试结果以验证所提出的控制架构的有效性。

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《IAARC/CIB/IEEE/IFAC/IFR International Symposium on Automation and Robotics in Construction》|2000年||共7页
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M. Santos; Q. P. Ha; D. C. Rye; H. F. Durrant-Whyte;
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中图分类 TP2-53;
关键词
Robotic excavation; Global control; Fuzzy logic; UML; Statecharts;

机译：机器人挖掘;全球控制;模糊逻辑;UML;StateCharts;

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机译：使用模糊逻辑和StateCharts的机器人挖掘的全球控制

GLOBAL CONTROL FOR ROBOTIC EXCAVATION USING FUZZY LOGIC AND STATECHARTS

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