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181   $ctxt
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183   $acr
200 00$aHaptics for teleoperated surgical robotic systems$b[electronic resource] /$fM. Tavakoli ... [et al.]
210   $aHackensack, NJ $cWorld Scientific$dc2008
215   $a1 online resource (180 p.)
225 1 $aNew frontiers in robotics ;$vv. 1
300   $aDescription based upon print version of record.
311   $a981-281-315-2 
320   $aIncludes bibliographical references (p. 145-156) and index.
327   $aContents; Preface; List of Figures; List of Tables; 1. Introduction; 1.1 Robot-Assisted Intervention: Bene ts and Applications; 1.2 Robotics Technology for Surgery and Therapy; 1.2.1 Augmenting devices and systems; 1.2.1.1 Hand-held tools; 1.2.1.2 Cooperatively-controlled tools; 1.2.1.3 Teleoperated tools; 1.2.1.4 Autonomous tools; 1.2.2 Supporting devices and systems; 1.2.2.1 Positioning/stabilization purposes; 1.2.2.2 Increasing device dexterity or autonomy; 1.3 Haptics for Robotic Surgery and Therapy; 1.3.1 Haptic user interface technology; 1.3.1.1 PHANToM; 1.3.1.2 Freedom-6S
327   $a1.3.1.3 Laparoscopic Impulse Engine and Surgical Workstation1.3.1.4 Xitact IHP; 1.3.2 Haptic surgical teleoperation; 1.4 Technological Challenges of the Future; 2. Sensorized Surgical Effector (Slave); 2.1 Introduction; 2.1.1 Limitations of endoscopic surgery; 2.1.2 The need for robot-assisted surgery; 2.1.3 Signi cance of haptic perception in master-slave operation; 2.1.4 Perceptual-motor skills study; 2.2 Methods, Materials and Results; 2.2.1 Force reection methods; 2.2.2 Design requirements; 2.2.3 Twist and tip motions; 2.2.4 Interaction measurement; 2.3 Discussion; 2.4 Concluding Remarks
327   $a3. Haptic User Interface (Master)3.1 Introduction; 3.1.1 Computer-assisted endoscopic surgery training; 3.1.1.1 Haptic perception in computer-assisted surgical training; 3.2 Haptic User Interface Architecture; 3.2.1 Force reflection in pitch, yaw and insertion; 3.2.2 Force reflection in roll and gripping; 3.3 Analysis of the Haptic Interface; 3.3.1 Sensitivity; 3.3.2 Workspace; 3.3.2.1 Optimization for control accuracy; 3.3.3 Force reection capability; 3.4 Concluding Remarks; 4. Unilateral Teleoperation Control; 4.1 Introduction; 4.1.1 Direct inverse dynamics control
327   $a4.1.2 Feedback error learning control4.2 PHANToM Inverse Dynamics Identification; 4.3 Adaptive Inverse Dynamics Trajectory Control of the PHANToM; 5. Bilateral Teleoperation Control; 5.1 Introduction; 5.2 Stability and Transparency in Haptic Teleoperation; 5.2.1 2-channel architectures; 5.2.1.1 Position Error Based (PEB); 5.2.1.2 Direct Force Reection (DFR); 5.2.2 4-channel architecture; 5.2.2.1 Scattering theory and absolute stability; 5.2.2.2 Stability and performance robustness; 5.2.2.3 3-channel case; 5.3 Haptic Teleoperation Experiments; 5.3.1 Experimental setup
327   $a5.3.2 Master-slave communication5.3.3 Observation of hand forces; 5.3.4 Observer and controller gains; 5.3.5 Soft-tissue palpation tests; 5.4 Concluding Remarks; 6. Substitution for Haptic Feedback; 6.1 Introduction; 6.2 Graphical Substitution for Haptic Feedback; 6.2.1 Case study: Lump localization task; 6.2.1.1 Experiment design; 6.2.1.2 Results; 6.2.1.3 Discussion; 6.3 Multi-Modal Contact Cues; 6.3.1 Case study: Tissue stiffness discrimination Task; 6.3.1.1 Experiment Design; 6.3.1.2 Results; 6.3.1.3 Discussion; 6.4 Concluding Remarks; 7. Bilateral Teleoperation Control Under Time Delay
327   $a7.1 Introduction
330   $a An important obstacle in Minimally Invasive Surgery (MIS) is the significant degradation of haptic feedback (sensation of touch) to the surgeon about surgical instrument's interaction with tissue. This monograph is concerned with devices and methods required for incorporating haptic feedback in master-slave robotic MIS systems. In terms of devices, novel mechanisms are designed including a surgical end-effector (slave) with full force sensing capabilities and a surgeon-robot interface (master) with full force feedback capabilities. Using the master-slave system, various haptic teleoperation c
410  0$aNew frontiers in robotics ;$vv. 1.
606   $aRobotics in medicine
606   $aTouch
608   $aElectronic books.
615  0$aRobotics in medicine.
615  0$aTouch.
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