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    Please use this identifier to cite or link to this item: http://tkuir.lib.tku.edu.tw:8080/dspace/handle/987654321/76918


    Title: 應用於室內自然環境且可與人自然溝通之居家服務機器人-子計畫四:居家服務機器人之自然溝通與智慧行為之設計與實現
    Other Titles: Design and Implementation of Nature Communication and Intelligent Behavior for Home Service Robots
    Authors: 翁慶昌
    Contributors: 淡江大學電機工程學系
    Date: 2011
    Issue Date: 2012-05-22 21:54:07 (UTC+8)
    Abstract: 本計畫之主要目的在於設計開發居家服務機器人之自然溝通與智慧行為策略。在計畫的第一年, 本計畫擬延續之前的成果持續研發可以完成世界盃機器人競賽RoboCup@Home 所指定的競賽項目之 居家服務機器人,以機構設計、電路設計、移動控制、語音控制、與智慧行為策略及環境模擬為5 大 研究方向,並與其他子計畫整合來讓所設計實現的居家服務機器人可以有效完成RoboCup@Home 所 指定的基礎競賽項目與進階競賽項目。在計畫的第二年,本計畫擬研發可以應用於華人社會環境之居 家服務機器人,使之能以華語溝通,並且陪伴照顧幼童、老人或身心殘障者。本計畫擬用二年的時間, 以穩定且循序漸近的方式與其他子計畫整合完成一台可以使用自然語言方式溝通的居家服務機器 人,二年的規劃概述如下: 在計畫的第一年,本子計畫的研究主題為居家服務機器人之可擴充式上架平台設計及進階智慧行 為策略設計,擬完成一台具有進階智慧功能的居家服務機器人。延續之前的成果,在機構設計方面, 由一個可以承受100 公斤重量的三輪全方位移動底盤。擬再設計一個可以組合成一台具有機械手臂及 全方位移動的可擴充式上架平台;在電路設計方面,由一個穩定的三輪全方位移動驅動系統與感測電 路系統。擬再設計一個穩定的電源管制與監控硬體系統;在移動控制方面,由一個可FPGA 硬體電路 實現之全方位移動控制器。擬再設計一個可FPGA 硬體電路實現之模糊全方位移動控制器,讓機器人 的移動與轉動效果更加平順;在語音控制方面,由一套可以快速辨識語音的語音控制介面。擬再整合 模糊分類來設計一套可以快速且正確辨識語音的語音控制介面;在智慧行為及環境模擬方面,擬依據 RoboCup@Home 所指定的進階競賽項目來設計一個可以快速決定更複雜行為動作的策略介面,並且 加入虛擬的雜訊輸入來增加策略系統的強健性。 在計畫的第二年,本子計畫的研究主題為居家服務機器人之華人或台灣居家環境應用設計及智慧 行為策略設計。在機構設計方面,擬設計一個具有懸吊系統的全方位移動底盤,讓機器人在起伏的地 面亦能夠順利的全方位移動;在電路設計方面,擬設計一個穩定的配電與充電硬體電路系統,增加機 器人耐用性與實用性;在運動控制方面,擬整合粒子群最佳化學習架構來設計一個可FPGA 硬體電路 實現之模糊全方位移動控制器,其可以學習各種不同材質的地面所需的轉動參數來加強機器人移動的 穩定度;在語音控制方面,擬針對華語與應用類神經網路來設計一套可以快速學習不同聲音及語調的 人說話的語音控制介面,增加語音應用的廣泛度;在智慧行為及環境模擬方面,擬設計一個具有機器 人合作行為、照顧服務、與共同遊戲策略的策略介面,讓機器人可以實際應用於華人或台灣居家環境 的日常生活中。
    The main purpose of this project is to design and implement a home service robot with the abilities of natural communication and intelligent behavior with human being. The implemented home service robot can successfully accomplish competitions of RoboCup@Home league in the first year. There are five design topics: the mechanism design, the circuit design, the motion control design, the speech control design, and the intelligent behavior strategy and environment simulation. The proposed design methods will be integrated with that of the other three subprojects to implement a home service robot so that it can accomplish the competition topics of the RoboCup@Home league. In the second year, the implemented home service robot can communicate with human being in Chinese language and accompany with the children and elder person. This project is organized two years. They are described as follows: In the first year, the purpose is to implement a home service robot with an extensible frame mechanism and some intelligent behavior strategies to accomplish the advanced-stage competition of RoboCup@Home. At the mechanism design, from a three-wheeled omni-directional chassis which can support 100 kg weight to an extensible frame mechanism which can compose of the other subprojects is proposed. At the circuit design, from a stable circuit for the drivers and sensors of the three-wheeled home service robot to a powerful power monitor and controller is proposed. At the motion control design, from a hardware motion control structure for the three-wheeled omni-directional mobile robot designed and implemented in a FPGA chip to a three-input and two-output omni-directional fuzzy motion controller is proposed so that the three-wheeled omni-directional mobile robot can effectively and smoothly move toward any direction. At the speech control design, from a faster speech recognition system to a fuzzy classify module is proposed so that the speech recognition can be more correct and faster. At the intelligent strategy and environment simulation, some intelligent behavior strategies to accomplish the advanced-stage competition of RoboCup@Home are proposed. Furthermore, a noise simulation interface is designed. In the second year, the purpose is to implement a home service robot which can communicate with human being in Chinese language and accompany with the children and elder person. At the mechanism design, a suspension system in chassis which can avoid shaken when the robot moves at an uneven floor is proposed. At the circuit design, a useful cell charge system is proposed to increase its enduring and practical quality. At the motion control design, a particle swarm optimization algorithm is applied to modify the fuzzy controller so that the home service robot can quickly adapt the floor with different material. At the speech control design, a neural network learning module is proposed to increase the correct recognition rate and Chinese speech recognition is implemented so that the home service robot can service in Chinese society. At the intelligent strategy and environment simulation, a multi-robot corporate strategy is proposed so that the robot can service together.
    Appears in Collections:[電機工程學系暨研究所] 研究報告

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