商品描述
Advances in Robotics - Modeling, Control and Applications is suitable for advanced undergraduate students and postgraduate students. It takes a practical approach rather than a conceptual approach. It offers a truly reader-friendly way to get to the subject, providing a definitive guide in this vibrant and evolving discipline. This book is an invaluable companion for students from their first encounter with the subject to more advanced studies, while the high quality artworks are designed to present the key concepts with simplicity, clarity and consistency. There are totally 18 chapters in this book. Chapter 1 proposes a simple control system for a biped robot using nonlinear oscillators based on the physiological concept of central pattern generator and physiological evidence of phase resetting. Chapter 2 presents work that attempts to extract principles by which spiders and other species achieve these features. Chapter 3 proposes methods for a robot manipulator with a racket to do two kinds of ball juggling, the paddle juggling and the wall juggling, based on discrete control systems of states of the hit ball. Chapter 4 proposed a new control algorithm in a robot arm based on active tactile slippage sensation. Chapter 5 provides a look at some possibilities of modern voice analysis technologies in the field of ambient assisted living, which seems to be a promising application for robotic systems. Chapter 6 focuses on adaptive filtering techniques for acoustics application. Adaptive acoustic in an important topic for signal processing in robots since robot sound inputs are usually recollected through acoustic sensors. Chapter 7 aims at examining the method and equipment of preliminary-announcement of the upcoming operation of a mobile robot moving on a two-dimensional plane to those who are in the surroundings. Chapter 8 introduces two kinds of instruction learning systems for partner robots: (1) a hand image instruction learning system; and (2) three kinds of voice learning systems, using Kohonen's self-organizing map (SOM) and its variations such as Transient-SOM (T-SOM), Parameter-less SOM (PL-T-SOM) and Parameter-less Growing SOM (PL-G-SOM). Chapter 9 presents the study on throw-over movement informing a receiver of the object landing distance as an example of the informative motion for human synergetic robots. In Chapter 10, the author examines the application of a touch screen to an operational interface of a mobile robot remote operation system. Chapter 11 describes low processing approach for identification of obstacles in a robotic soccer team. Chapter 12 couples a general purpose stat/space representation with a reactive algorithm for mobile robot navigation In Chapter 13, the author designs an general-purposed affective behavior decision system based on linear dynamics to solve the limitation that affective model is difficult to be applied to various social robots without redesigning. Chapter 14 proposes a control mechanism based on multiple-criteria decision making for autonomous control of ambient environment. Chapter 15 proposes an information gathering support system in post-disaster environment by utilizing a robot sensor network in which a teleoperated mobile robot deploys wireless sensor nodes (SNs). Chapter 16 proposes fault accommodation procedure in discrete-event robots. Chapter 17 deals with application of robotic technology for performing risky tasks, mainly for de-mining operations. Finally, Chapter 18 briefly describes an application of robot in medial health.
商品描述(中文翻譯)
《機器人技術的進展 - 建模、控制與應用》適合高年級本科生和研究生。它採取實用的方法而非概念性的方法,提供了一種真正友好的方式來接觸這一主題,並在這個充滿活力和不斷發展的學科中提供了一本權威指南。本書是學生從首次接觸該主題到更高級研究的寶貴伴侶,而高品質的插圖旨在以簡單、清晰和一致的方式呈現關鍵概念。本書共包含18章。第一章提出了一個基於生理概念的中央模式產生器和相位重置的生理證據,為雙足機器人設計了一個簡單的控制系統。第二章介紹了試圖提取蜘蛛和其他物種實現這些特徵的原則的研究。第三章提出了一種使用球拍的機器人操控器進行兩種球類雜耍的方法,包括拍子雜耍和牆面雜耍,基於擊球狀態的離散控制系統。第四章提出了一種基於主動觸覺滑移感的機器人手臂新控制算法。第五章探討了現代語音分析技術在環境輔助生活領域的一些可能性,這似乎是機器人系統的一個有前景的應用。第六章專注於聲學應用的自適應濾波技術。自適應聲學是機器人信號處理中的一個重要主題,因為機器人的聲音輸入通常是通過聲學傳感器收集的。第七章旨在檢查在二維平面上移動的移動機器人即將操作的初步公告的方法和設備,向周圍的人發出通知。第八章介紹了兩種合作機器人的指令學習系統:(1) 手部影像指令學習系統;(2) 三種語音學習系統,使用Kohonen的自組織映射(SOM)及其變體,如瞬態SOM(T-SOM)、無參數SOM(PL-T-SOM)和無參數增長SOM(PL-G-SOM)。第九章展示了投擲運動的研究,作為人類協同機器人的信息性運動示例,告知接收者物體著陸距離。在第十章中,作者檢查了觸控螢幕在移動機器人遠程操作系統操作介面中的應用。第十一章描述了機器人足球隊中識別障礙物的低處理方法。第十二章將通用的狀態/空間表示與移動機器人導航的反應算法結合在一起。在第十三章中,作者設計了一個基於線性動力學的通用情感行為決策系統,以解決情感模型難以應用於各種社交機器人的限制,而無需重新設計。第十四章提出了一種基於多準則決策的控制機制,用於環境的自主控制。第十五章提出了一種在災後環境中利用機器人傳感器網絡的信息收集支持系統,其中一個遠程操作的移動機器人部署無線傳感器節點(SNs)。第十六章提出了離散事件機器人的故障適應程序。第十七章處理機器人技術在執行危險任務中的應用,主要針對排雷作業。最後,第十八章簡要描述了機器人在醫療健康中的應用。