Model-Augmented Haptic Telemanipulation: Concept, Retrospective Overview, and Current Use Cases

Hulin, Thomas; Panzirsch, Michael; Singh, Harsimran; Coelho, Andre; Balachandran, Ribin; Pereira, Aaron; Weber, Bernhard; Bechtel, Nicolai; Riecke, Cornelia; Brunner, Bernhard; Lii, Neal Y.; Klodmann, Julian; Hellings, Anja; Hagmann, Katharina; Quere, Gabriel; Bauer, Adrian S.; Sierotowicz, Marek; Lampariello, Roberto; Vogel, Jörn; Dietrich, Alexander; Leidner, Daniel; Ott, Christian; Hirzinger, G.; Albu‐Schäffer, Alin

doi:10.3389/frobt.2021.611251

Cited by 7 publications

(5 citation statements)

References 81 publications

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“…Some of the results presented in this chapter were also published in Coelho et al (2019), Coelho et al (2020), Coelho et al (2021b), Hulin et al (2021), and Lee et al (2023).…”

Section: Chapter Conclusionsupporting

confidence: 60%

“…Since its first appearance multiple applications and improvements to the TDPA method have been presented. Applications include high-delay space teleoperation (Artigas et al, 2016;Panzirsch et al, 2022), model-augmented teleoperation (Hulin et al, 2021), the proxy-based approach (Singh et al, 2020), force control (Balachandran et al, 2020), and cooperative control for autonomous landing (Muskardin et al, 2020). Due to its high range of applications and its demonstrated performance and robustness, TDPA appears to be a reasonable candidate to be applied in the bilateral teleoperation of aerial robots.…”

Section: Teleoperationmentioning

confidence: 99%

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Whole-Body Control and Teleoperation of a Suspended Aerial Manipulator

Fialho Coelhoe

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“…Some of the results presented in this chapter were also published in Coelho et al (2019), Coelho et al (2020), Coelho et al (2021b), Hulin et al (2021), and Lee et al (2023).…”

Section: Chapter Conclusionsupporting

confidence: 60%

Section: Teleoperationmentioning

confidence: 99%

Whole-Body Control and Teleoperation of a Suspended Aerial Manipulator

Fialho Coelhoe

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“…Our ViESTac suite is a first step towards an evaluation tool to investigate tactile perception and the suitability of devices under microgravity conditions in future telerobotic space missions. Such a suite would also be important to evaluate novel telerobotic approaches and methods that aim to integrate local and remote models to facilitate task performance, as described in [48].…”

Section: Discussionmentioning

confidence: 99%

Towards a VR Evaluation Suite for Tactile Displays in Telerobotic Space Missions

Banerjee

Muschter

Singh

et al. 2023

2023 IEEE Aerospace Conference

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Research and development of telerobotic systems supplemented by haptic feedback for future planetary exploration missions has gained significant importance in the past decade. Major space agencies endeavor to deploy such systems before sending humans to the surface of unknown or unexplored celestial bodies. Astronauts control these telerobotic systems from remote locations, such as an orbital space station. Haptic feedback for teleoperating the robots in outer space is extremely important, not only to improve user immersion and task performance, but also to improve our understanding of surface properties. At the same time, for spaceflight, making use of compact, light-weight and robust devices are preferred for precise tactile feedback from telemanipulation tasks. In this paper, we introduce "ViESTac", a first attempt to develop a generic VR suite to be able to evaluate and compare fingertipwearable tactile devices. Applications of such a suite include, but are not limited to allowing teleoperators to judiciously choose suitable tactile devices for a particular task. To account for the wide variety of existing fingertip-wearable tactile devices and their display capabilities, the suite contains a set of virtual scenarios to investigate different tactile properties of virtual objects. It also dedicates a virtual scenario to evaluate how tactile feedback may govern the accuracy of human positioning in standard tasks. This proposed suite is advocated by a pilot study with 13 participants and two distinct state-of-theart tactile devices. Results of the study clearly indicate that the virtual suite can successfully cater to the need of evaluating and comparing fingertip-wearable tactile devices.

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“…Switching between VFs may cause instabilities. While in practice instabilities aren't observed, a time domain passivity controller as introduced in Hannaford and Ryu (2002) and further developed in Hertkorn et al (2010), Ryu et al (2005, and Hulin et al (2021) is to be integrated into the presented approach in the future, to guarantee a safe operation for arbitrary tasks in all circumstances. Switching between VFs and their parametrization allows the flexible application of various VFs depending on the required task.…”

Section: Task Related Vfmentioning

confidence: 99%

A Digital Twin Approach for Contextual Assistance for Surgeons During Surgical Robotics Training

et al. 2021

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Minimally invasive robotic surgery copes with some disadvantages for the surgeon of minimally invasive surgery while preserving the advantages for the patient. Most commercially available robotic systems are telemanipulated with haptic input devices. The exploitation of the haptics channel, e.g., by means of Virtual Fixtures, would allow for an individualized enhancement of surgical performance with contextual assistance. However, it remains an open field of research as it is non-trivial to estimate the task context itself during a surgery. In contrast, surgical training allows to abstract away from a real operation and thus makes it possible to model the task accurately. The presented approach exploits this fact to parameterize Virtual Fixtures during surgical training, proposing a Shared Control Parametrization Engine that retrieves procedural context information from a Digital Twin. This approach accelerates a proficient use of the robotic system for novice surgeons by augmenting the surgeon’s performance through haptic assistance. With this our aim is to reduce the required skill level and cognitive load of a surgeon performing minimally invasive robotic surgery. A pilot study is performed on the DLR MiroSurge system to evaluate the presented approach. The participants are tasked with two benchmark scenarios of surgical training. The execution of the benchmark scenarios requires basic skills as pick, place and path following. The evaluation of the pilot study shows the promising trend that novel users profit from the haptic augmentation during training of certain tasks.

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Model-Augmented Haptic Telemanipulation: Concept, Retrospective Overview, and Current Use Cases

Cited by 7 publications

References 81 publications

Whole-Body Control and Teleoperation of a Suspended Aerial Manipulator

Whole-Body Control and Teleoperation of a Suspended Aerial Manipulator

Towards a VR Evaluation Suite for Tactile Displays in Telerobotic Space Missions

A Digital Twin Approach for Contextual Assistance for Surgeons During Surgical Robotics Training

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