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181   $ctxt
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183   $acr
200 00$aBiologically inspired robotics /$fedited by Yunhui Liu and Dong Sun
205   $a1st edition
210   $aBoca Raton, Fla. $cCRC Press$dc2012
210  1$aBoca Raton, Fla. :$cCRC Press,$d2012.
215   $a1 online resource (xv, 324 p. )$cill
300   $aBibliographic Level Mode of Issuance: Monograph
311 08$a9781351833202 
311 08$a1351833200 
311 08$a9781439854884 
311 08$a1439854882 
320   $aIncludes bibliographical references and index.
327   $aIntroduction to Biologically Inspired Robotics; Yunhui Liu and Dong Sun CPG-Based Control of Serpentine Locomotion of a Snake-Like Robot; Xiaodong Wu and Shugen Ma Analysis and Design of a Bionic Fitness Cycle; Jun Zhang, Ying Hu, Jianwei Zhang, Haiyang Jin, and Zhijian Long Human-Inspired Hyperdynamic Manipulation; Aiguo Ming and Chunquan Xu A School of Robotic Fish for Pollution Detection in Port; Huosheng Hu, John Oyekan, and Dongbing Gu Development of a Low-Noise Bio-Inspired Humanoid Robot Neck; Bingtuan Gao, Ning Xi, Jianguo Zhao, and Jing Xu Automatic Single-Cell Transfer Module; Huseyin Uvet, Akiyuki Hasegawa, Kenichi Ohara, Tomohito Takubo, Yasushi Mae, and Tatsuo Arai Biomechanical Characterization of Human Red Blood Cells with Optical Tweezers; Youhua Tan, Dong Sun, and Wenhao Huang Nanorobotic Manipulation for a Single Biological Cell; Toshio Fukuda, Masahiro Nakajima, and Mohd Ridzuan Ahmad Measurement of Brain Activity Using Optical and Electrical Methods ; Atsushi Saito, Alexsandr Ianov, and Yoshiyuki Sankai Bowel Polyp Detection in Capsule Endoscopy Images with Color and Shape Features; Baopu Li and Max Q.-H. Meng Classification of Hand Motion Using Surface EMG Signals; Xueyan Tang, Yunhui Liu, Congyi Lu, and Weilun Poon Multifunctional Actuators Utilizing Magnetorheological Fluids for Assistive Knee Braces; H. T. Guo and W. H. Liao Mathematical Modeling of Brain Circuitry during Cerebellar Movement Control; Henrik Jorntell, Per-Ola Forsberg, Fredrik Bengtsson, and Rolf Johansson Development of Hand Rehabilitation System Using Wire-Driven Link Mechanism for Paralysis Patients; Hiroshi Yamaura1, Kojiro Matsushita, Ryu Kato, and Hiroshi Yokoi A Test Environment for Studying the Human-Likeness of Robotic Eye Movements Index
330   $aBiologically inspired robotics is an interdisciplinary subject between robotics and biology that involves how to apply biological ideas and phenomena to engineering problems in robotics (biomimetics), and how to apply robotics technology to understanding of biological systems and their behaviors (bio-robotic modeling/analysis). The efforts in biologically inspired robotics are not just restricted to research work in laboratories, their novel applications are also being extensively explored in services, education, rehabilitation, medical care and other sectors. The objective of this book is to introduce the latest efforts in research of biologically inspired robotics, covering both biomimetics (with chapters in biologically inspired robot design and control, bio-sensing, bio-actuation, and micro/nano bio-robotic systems) and bio-robotic modeling/analysis (discussing human hand motion recognition using biological signals, modeling of human brain activities, characterization of cell properties using robotic systems). In order to provide readers a better understanding on organization of this book, the content is classified into four parts: (1) biologically inspired robot design and control, (2) micro/nano bio-robotic systems, (3) biological measurement and actuation, and (4) applications of robotics technology to biological problems--$cProvided by publisher.
606   $aRobotics
606   $aBionics
606   $aBiomimicry
606   $aBiomechanics
615  0$aRobotics.
615  0$aBionics.
615  0$aBiomimicry.
615  0$aBiomechanics.
676   $a629.8/92
686   $aMED009000$aTEC007000$aTEC016000$2bisacsh
700   $aLiu$b Yunhui$0932306
701   $aLiu$b Yunhui$0932306
701   $aSun$b Dong$f1967-$0932307
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
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