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Using Interval Type-2 Recurrent Fuzzy Cerebellar Model Articulation Controller Based on Improved Differential Evolution for Cooperative Carrying Controller of Mobile Robots

机译：基于改进的移动机器人合作携带控制器的改进差分演化，采用间隔型-2复发模糊小脑模型铰接控制器

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Mobile robot is widely utilized in various fields such as navigation control, obstacle avoidance and object carrying. For keeping away from obstacles to avoid collision and preventing object carrying from dropping down, we propose a state manager (SM) designed to assist the mobile robots so that they can switch operation between wall-following carrying (WFC) and toward goal carrying (TGC) by different external condition. In this controlling model, interval type-2 recurrent fuzzy cerebellar model articulation controller (IT2RFCMAC), embedded with a modified evolutionary optimization and dynamic grouping differential evolution (DGDE), is implemented for WFC and TGC. By adopting reinforcement learning strategy, mobile robots equip with adaptively wall-following control to make cooperative carrying control in real.

机译：移动机器人广泛用于诸如导航控制，障碍物避免和携带的各种领域。为了远离障碍以避免碰撞和防止携带掉落的物体，我们提出了一个旨在帮助移动机器人的国家经理（SM），以便它们可以在携带（WFC）和目标携带之后的墙壁之间切换操作（TGC ）通过不同的外部条件。在该控制模型中，嵌入有修改的进化优化和动态分组差分演进（DGDE）的间隔类型-2复发模糊大脑模型铰接控制器（IT2RFCMAC）用于WFC和TGC。通过采用强化学习策略，移动机器人配备自适应墙面的控制，以便在真实中进行协作携带控制。

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《International Conference on Fuzzy Theory and Its Applications》|2020年|1-3|共3页
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Tzu-Chao Lin; Chao-Chun Chen; Cheng-Jian Lin;
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Adaptation models; Navigation; Heuristic algorithms; Time series analysis; Switches; White noise; Mobile robots;

机译：适应模型;导航;启发式算法;时间序列分析;开关;白噪声;移动机器人;

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1. Using Interval Type-2 Recurrent Fuzzy Cerebellar Model Articulation Controller Based on Improved Differential Evolution for Cooperative Carrying Control of Mobile Robots [J] . Jhang Jyun-Yu, Lin Cheng-Jian, Lin Tzu-Chao, Sensors and materials . 2018,第11a2a期

机译：基于改进差分进化的区间2型递归模糊小脑模型关节控制器在移动机器人协同控制中的应用
2. Mobile robot navigation control using recurrent fuzzy cerebellar model articulation controller based on improved dynamic artificial bee colony: [J] . Lingling Li, Cheng-Jian Lin, Mei-Ling Huang, Advances in Mechanical Engineering . 2016,第11期

机译：基于改进的动态人工蜂群的递归模糊小脑模型关节控制器的移动机器人导航控制：
3. Navigation control of mobile robot using interval type-2 neural fuzzy controller optimized by dynamic group differential evolution: [J] . Tzu-Chao Lin, Chao-Chun Chen, Cheng-Jian Lin Advances in Mechanical Engineering . 2018,第1期

机译：动态区间微分进化优化的区间2型神经模糊控制器对移动机器人的导航控制：
4. Recurrent Fuzzy Cerebellar Model Articulation Controller and Its Application on Robotic Tracking Control [C] . WRI Global Congress on Intelligent Systems . 2009

机译：经常性模糊小脑模型铰接控制器及其在机械跟踪控制中的应用
5. Comparative Analysis of Interval Type-2 Fuzzy PI Controllers with Different Antecedent Fuzzy Sets [D] . Yip, Chun Ming Tommy. 2018

机译：不同前一种模糊集的间隔类型2模糊PI控制器的比较分析
6. Interval Type-2 Neural Fuzzy Controller-Based Navigation of Cooperative Load-Carrying Mobile Robots in Unknown Environments [O] . Chun-Hui Lin, Shyh-Hau Wang, Cheng-Jian Lin 2018

机译：未知环境中基于区间2型神经模糊控制器的协作式移动机器人导航
7. Navigation control of mobile robot using interval type-2 neural fuzzy controller optimized by dynamic group differential evolution [O] . Tzu-Chao Lin, Chao-Chun Chen, Cheng-Jian Lin 2018

机译：移动机器人的导航控制使用动态组差分演进优化的间隔类型-2神经模糊控制器

Using Interval Type-2 Recurrent Fuzzy Cerebellar Model Articulation Controller Based on Improved Differential Evolution for Cooperative Carrying Controller of Mobile Robots

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