Haptics and Supervisory Control in Telesurgery

This paper reviews several interrelated experiments related to the improvement of systems by which to perform simple surgical procedures remotely using closed circuit video/audio and telerobotic manipulator devices over ISDN telephone communication channels. The realities of such technology include the existence of several second time delays, severe constraints on feedback bandwidth, and the lack of some desirable degrees of freedom for manipulation. Experiments were done to determine what sensory-motor tasks should be performed by the surgeon directly in a master-slave mode with haptic (position-force) feedback, what tasks should be programmed into and subsequently performed by a computer at the site of the patient, and what tasks should be performed by an untrained assistant (non-surgeon) physically located with the patient with the second-by-second supervisory guidance of the remote surgeon. Experiments were also done to find ways to ameliorate the instability in force feedback caused by the time delay. For each mode the paper identifies compromises in telepresence and sensory- motor performance and tradeoffs between speed and accuracy. Based on experimental results, recommendations are made for ways to improve telesurgery systems now being developed.

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Sensory Motor Tasks in Identification of Alzheimer Disease Using CART

PsycEXTRA Dataset ◽

10.1037/e629892009-001 ◽

2009 ◽

Author(s):

Anya Mazur-Mosiewicz ◽

Matthew J. Holcomb ◽

Raymond S. Dean

Keyword(s):

Alzheimer Disease ◽

Motor Tasks ◽

Sensory Motor

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Cognitive task during fatiguing exercise increases the sensory-motor performance in professional dancers

Gazzetta Medica Italiana Archivio per le Scienze Mediche ◽

10.23736/s0393-3660.18.03801-9 ◽

2019 ◽

Vol 178 (5) ◽

Author(s):

Ömer Pamuk ◽

Mehmet A. Özçelik ◽

Neşe Toktaş ◽

Aliye Gündoğdu ◽

İ. Ethem Hindistan ◽

...

Keyword(s):

Motor Performance ◽

Cognitive Task ◽

Sensory Motor ◽

Fatiguing Exercise ◽

Professional Dancers

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Opacity of Networked Supervisory Control Systems over Insecure Communication Channels

IEEE Transactions on Control of Network Systems ◽

10.1109/tcns.2021.3050131 ◽

2021 ◽

pp. 1-1

Author(s):

Shuo Yang ◽

Junyao Hou ◽

Xiang Yin ◽

Shaoyuan Li

Keyword(s):

Control Systems ◽

Supervisory Control ◽

Communication Channels

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Kinematic Analysis and Optimization of a Novel Robot for Surgical Tool Manipulation

Volume 2: 32nd Mechanisms and Robotics Conference, Parts A and B ◽

10.1115/detc2008-49163 ◽

2008 ◽

Cited By ~ 3

Author(s):

Xiaoli Zhang ◽

Carl A. Nelson

Keyword(s):

Inverse Kinematics ◽

Degrees Of Freedom ◽

Force Feedback ◽

Robotic Systems ◽

Small Space ◽

Surgical Robots ◽

Tool Positioning ◽

Rotation Axes ◽

Surgical Tool ◽

Linear Nature

The size and limited dexterity of current surgical robotic systems are factors which limit their usefulness. To improve the level of assimilation of surgical robots in minimally invasive surgery (MIS), a compact, lightweight surgical robotic positioning mechanism with four degrees of freedom (DOF) (three rotational DOF and one translation DOF) is proposed in this paper. This spatial mechanism based on a bevel-gear wrist is remotely driven with three rotation axes intersecting at a remote rotation center (the MIS entry port). Forward and inverse kinematics are derived, and these are used for optimizing the mechanism structure given workspace requirements. By evaluating different spherical geared configurations with various link angles and pitch angles, an optimal design is achieved which performs surgical tool positioning throughout the desired kinematic workspace while occupying a small space bounded by a hemisphere of radius 13.7 cm. This optimized workspace conservatively accounts for collision avoidance between patient and robot or internally between the robot links. This resultant mechanism is highly compact and yet has the dexterity to cover the extended workspace typically required in telesurgery. It can also be used for tool tracking and skills assessment. Due to the linear nature of the gearing relationships, it may also be well suited for implementing force feedback for telesurgery.

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Design of a Novel Parallel Mechanism for Haptic Device

Journal of Mechanisms and Robotics ◽

10.1115/1.4050562 ◽

2021 ◽

pp. 1-63

Author(s):

Jin Lixing ◽

Duan Xingguang ◽

Li Changsheng ◽

Shi Qingxin ◽

Wen Hao ◽

...

Keyword(s):

Parallel Mechanism ◽

Degrees Of Freedom ◽

Force Feedback ◽

Parallel Architecture ◽

General Purpose ◽

Haptic Device ◽

Haptic Devices ◽

Modeling And Optimization ◽

Teleoperation Systems

Abstract This paper presents a novel parallel architecture with seven active degrees of freedom (DOFs) for general-purpose haptic devices. The prime features of the proposed mechanism are partial decoupling, large dexterous working area, and fixed actuators. The detailed processes of design, modeling, and optimization are introduced and the performance is simulated. After that, a mechanical prototype is fabricated and tested. Results of the simulations and experiments reveal that the proposed mechanism possesses excellent performances on motion flexibility and force feedback. This paper aims to provide a remarkable solution of the general-purpose haptic device for teleoperation systems with uncertain mission in complex applications.

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Radiation-tolerant robotic complex URS-2

Robotics and Technical Cybernetics ◽

10.31776/rtcj.9209 ◽

2021 ◽

Vol 9 (2) ◽

pp. 142-150

Author(s):

Ivan Guschin ◽

Anton Leschinskiy ◽

Andrey Zhukov ◽

Alexander Zarukin ◽

Vyacheslav Kiryukhin ◽

...

Keyword(s):

Degrees Of Freedom ◽

Force Feedback ◽

Control Device ◽

Control Panel ◽

Original Design ◽

Innovative Methods ◽

Control Computer ◽

Robotic Arm Control ◽

6 Degrees Of Freedom ◽

Radiation Tolerant

The results of the development of a radiation-tolerant robotic complex URS-2 for operation in hot cells at nuclear enterprises are presented. The robotic complex consists of several original components: robotic arm, control device with force feedback, control panel with hardware buttons and touch screen, control computer with system and application software, control-and-power cabinet. The robotic manipulator has 6 degrees of freedom, replaceable pneumatic grippers and is characterized by high radiation tolerance, similar to that of mechanical master-slave manipulators. The original design of the control device based on the delta-robot model that implements a copying mode of manual control of the robotic complex with force feedback is presented. The hardware and software solutions developed has made it possible to create a virtual simulator of the RTC for testing innovative methods of remote control of the robot, as well as teaching operators to perform technological tasks in hot cells. The experimental model of the robotic complex has demonstrated the ability to perform basic technological tasks in a demo hot cell, both in manual and automatic modes.

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Robot master slave and supervisory control with large time delays of control signals and feedback

Applied Mathematical Sciences ◽

10.12988/ams.2016.6380 ◽

2016 ◽

Vol 10 ◽

pp. 1783-1796 ◽

Cited By ~ 18

Author(s):

Felix Kulakov ◽

Boris Sokolov ◽

Anatoly Shalyto ◽

Gennady Alferov

Keyword(s):

Supervisory Control ◽

Time Delays ◽

Large Time ◽

Control Signals

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Mechanical Manipulator for Intuitive Control of Endoscopic Instruments With Seven Degrees of Freedom

Volume 2: 28th Biennial Mechanisms and Robotics Conference, Parts A and B ◽

10.1115/detc2004-57137 ◽

2004 ◽

Author(s):

J. E. N. Jaspers ◽

M. Shehata ◽

F. Wijkhuizen ◽

J. L. Herder ◽

C. A. Grimbergen

Keyword(s):

Minimally Invasive Surgery ◽

Minimally Invasive ◽

Invasive Surgery ◽

Degrees Of Freedom ◽

Force Feedback ◽

Robotic Systems ◽

Complex Tasks ◽

Steel Wires

Performing complex tasks in Minimally Invasive Surgery (MIS) is demanding due to a disturbed hand-eye co-ordination, the use of non-ergonomic instruments with limited degrees of freedom (DOFs) and a lack of force feedback. Robotic telemanipulatory systems enhance surgical dexterity by providing up to 7 DOFs. They allow the surgeon to operate in an ergonomically favorable position with more intuitive manipulation of the instruments. Commercially available robotic systems, however, are very bulky, expensive and do not provide any force feedback. The aim of our study was to develop a simple mechanical manipulator for MIS. When manipulating the handle of the device, the surgeon’s wrist and grasping movements are directly transmitted to the deflectable instrument tip in 7 DOFs. The manipulator consists of a parallelogram mechanism with steel wires. First phantom experience indicated that the system functions properly. The MIM provides some force feedback improving safety. A set of MIMs seems to be an economical and compact alternative for robotic systems.

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Fuzzy Control and Connected Region Marking Algorithm-Based SEM Nanomanipulation

Mathematical Problems in Engineering ◽

10.1155/2012/803912 ◽

2012 ◽

Vol 2012 ◽

pp. 1-16 ◽

Cited By ~ 2

Author(s):

Dongjie Li ◽

Weibin Rong ◽

Lining Sun ◽

Bo You ◽

Yu Zou ◽

...

Keyword(s):

Fuzzy Control ◽

Control Algorithm ◽

Force Feedback ◽

Connected Region ◽

Feedback Information ◽

Sem Image ◽

Position Data ◽

Update Rate ◽

Fuzzy Control Algorithm ◽

Slave Mode

The interactive nanomanipulation platform is established based on fuzzy control and connected region marking (CRM) algorithm in SEM. The 3D virtual nanomanipulation model is developed to make up the insufficiency of the 2D SEM image information, which provides the operator with depth and real-time visual feedback information to guide the manipulation. The haptic device Omega3 is used as the master to control the 3D motion of the nanopositioner in master-slave mode and offer the force sensing to the operator controlled with fuzzy control algorithm. Aiming at sensing of force feedback during the nanomanipulation, the collision detection method of the virtual nanomanipulation model and the force rending model are studied to realize the force feedback of nanomanipulation. The CRM algorithm is introduced to process the SEM image which provides effective position data of the objects for updating the virtual environment (VE), and relevant issues such as calibration and update rate of VE are also discussed. Finally, the performance of the platform is validated by the ZnO nanowire manipulation experiments.

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Impact of Depth of Menu Hierarchy on Performance Effectiveness in a Supervisory Task: Computerized Flexible Manufacturing System

Human Factors The Journal of the Human Factors and Ergonomics Society ◽

10.1177/001872088502700610 ◽

1985 ◽

Vol 27 (6) ◽

pp. 713-722 ◽

Cited By ~ 25

Author(s):

Pentti Seppålå ◽

Gavriel Salvendy

Keyword(s):

Data Structure ◽

Supervisory Control ◽

Flexible Manufacturing ◽

Manufacturing System ◽

Flexible Manufacturing System ◽

Performance Effectiveness ◽

Performance Time ◽

Hierarchical Levels ◽

Parallel Mode ◽

Speed And Accuracy

The purpose of the study was to examine the effect of different menu structures on the effectiveness of supervisory control in a flexible manufacturing system. The variables evaluated included four hierarchical levels, two sizes of database, two work methods, and four distances between the items in the data structure. The results indicated that both performance time and errors increased as the hierarchical levels of the data structure increased. This implies that the parallel mode of data presentation is more effective than the hierarchical one. Furthermore, information that is scattered around the database should be acquired and considered simultaneously, as searching back and forth through the menu hierarchy decreases the speed and accuracy of performance.

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