Enhancement of Stability and Transparency in Teleoperated Robots Through Isotropy-Based Design

Srikar, A.; Kumar, Pankaj; Thondiyath, Asokan

doi:10.1109/access.2020.2966769

Cited by 4 publications

(2 citation statements)

References 37 publications

(32 reference statements)

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“…The stability requirement is one of the key aspects of robotic applications, especially in the surgical manipulation domain, where it implies inherent safety for both the patient and surgeon. 32 The impedance variation both in the environment and human operator are the two main factors affecting the stability of the coupled system.…”

Section: Stability Analysismentioning

confidence: 99%

“…The surgical robot system should be stable in spite of the variation of the external environment, while helping the surgeon to achieve a high surgical task performance. The stability requirement is one of the key aspects of robotic applications, especially in the surgical manipulation domain, where it implies inherent safety for both the patient and surgeon 32 . The impedance variation both in the environment and human operator are the two main factors affecting the stability of the coupled system.…”

Section: Stability Analysismentioning

confidence: 99%

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An admittance‐controlled amplified force tracking scheme for collaborative lumbar puncture surgical robot system

Nie

Duan

et al. 2022

Robotics Computer Surgery

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Background The accurate sensing and display of the delicate needle‐tissue interaction force to the operator is desirable for needle insertion procedures. It not only plays a significant role in the surgical treatment effect, but also has a great significance in improving surgical safety and reducing the incidence of complications. However, the direct detection of the interaction force between the tissue and needle tip by placement of a force sensor is challenging owing to the constraints of miniaturisation, cost, and sterilisation. Methods In this study, a new position‐based force‐to‐motion controller with magnified force feedback is presented to provide augmented force perception to the operator during needle insertion on the soft tissue. Furthermore, the demonstration to the position‐based low level motion controller is more suitable for needle insertion surgical requirements in the cooperative robotic system. Results The proposed controller was experimentally validated by a collaborative lumbar puncture robotics system. Additionally, to provide hand tremor rejection for the stable manipulation of the puncture needle, it was demonstrated that the proposed amplified feedback force controller allowed a safer object interaction with the robotic needle insertion assistance. Conclusions The results of the experiment show that a desirable interaction force profile is perceived by the operator during the overall insertion task operation. The admittance gain for the simplified admittance controller has a significant impact on the operator's ability to accurately control the applied force.

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Section: Stability Analysismentioning

confidence: 99%

Section: Stability Analysismentioning

confidence: 99%

An admittance‐controlled amplified force tracking scheme for collaborative lumbar puncture surgical robot system

Nie

Duan

et al. 2022

Robotics Computer Surgery

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Measuring the impact of haptic feedback in collaborative robotic scenarios

Rodríguez-Sedano,

Conde,

Rodríguez-Lera

et al. 2023

Univ Access Inf Soc

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In recent years, the interaction of a human operator with teleoperated robotic systems has been much improved. One of the factors influencing this improvement is the addition of force feedback to complement the visual feedback provided by traditional graphical user interfaces. However, the users of these systems performing tasks in isolated and safe environments are often inexperienced and occasional users. In addition, there is no common framework to assess the usability of these systems, due to the heterogeneity of applications and tasks, and therefore, there is a need for new usability assessment methods that are not domain specific. This study addresses this issue by proposing a measure of usability that includes five variables: user efficiency, user effectiveness, mental workload, perceived usefulness, and perceived ease of use. The empirical analysis shows that the integration of haptic feedback improves the usability of these systems for non-expert users, even though the differences are not statistically significant; further, the results suggest that mental workload is higher when haptic feedback is added. The analysis also reveals significant differences between participants depending on gender.

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Nonlinear control for teleoperation systems with time delay and random feedback errors

Emile

Singla

2023

2023 10th International Conference on Signal Processing and Integrated Networks (SPIN)

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Enhancement of Stability and Transparency in Teleoperated Robots Through Isotropy-Based Design

Cited by 4 publications

References 37 publications

An admittance‐controlled amplified force tracking scheme for collaborative lumbar puncture surgical robot system

An admittance‐controlled amplified force tracking scheme for collaborative lumbar puncture surgical robot system

Measuring the impact of haptic feedback in collaborative robotic scenarios

Nonlinear control for teleoperation systems with time delay and random feedback errors

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