Model-Mediated Teleoperation for Remote Haptic Texture Sharing: Initial Study of Online Texture Modeling and Rendering
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Model-Mediated Teleoperation for Remote Haptic Texture Sharing : Initial Study of Online Texture Modeling and Rendering. / Awan, Mudassir Ibrahim; Ogay, Tatyana; Hassan, Waseem; Ko, Dongbeom; Kang, Sungjoo; Jeon, Seokhee.
Proceedings - ICRA 2023: IEEE International Conference on Robotics and Automation. IEEE, 2023. s. 12457-12463 (Proceedings - IEEE International Conference on Robotics and Automation, Bind 2023-May).Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › fagfællebedømt
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TY - GEN
T1 - Model-Mediated Teleoperation for Remote Haptic Texture Sharing
T2 - 2023 IEEE International Conference on Robotics and Automation, ICRA 2023
AU - Awan, Mudassir Ibrahim
AU - Ogay, Tatyana
AU - Hassan, Waseem
AU - Ko, Dongbeom
AU - Kang, Sungjoo
AU - Jeon, Seokhee
N1 - Funding Information: This work was supported by Electronics and Telecommunications Research Institute(ETRI) grant funded by the Korean government. [23ZS1300, Research on High Performance Computing Technology to overcome limitations of AI processing]. The authors would like to extend their gratitude towards Heather Culbertson et al. for sharing their haptic texture rendering code online. The authors are also grateful towards Arsen Abdulali et al. for providing their texture segmentation framework. Publisher Copyright: © 2023 IEEE.
PY - 2023
Y1 - 2023
N2 - While model-mediated teleoperation (MMT) is an effective alternative for ensuring both transparency and stability, its potential in transmitting surface haptic texture is not yet explored. This paper introduces the first MMT framework capable of sharing surface haptic texture. The follower side collects physical signals contributing to haptic texture perception, e.g., high frequency acceleration, and streams them to the leader side. The leader side uses the signals to build and update a local measurement-based texture simulation model that reflects the remote surface. At the same time, the leader runs local simulation using the model, resulting in non-delayed, stable, and accurate feedback of texture. Considering that rendering haptic texture needs tougher real-time requirements, e.g., higher update rate and lower action-feedback latency, MMT can be a perfect platform for remote texture sharing. An initial proof-of-concept system supporting single and homogeneous surface is implemented and evaluated, demonstrating the potential of the approach.
AB - While model-mediated teleoperation (MMT) is an effective alternative for ensuring both transparency and stability, its potential in transmitting surface haptic texture is not yet explored. This paper introduces the first MMT framework capable of sharing surface haptic texture. The follower side collects physical signals contributing to haptic texture perception, e.g., high frequency acceleration, and streams them to the leader side. The leader side uses the signals to build and update a local measurement-based texture simulation model that reflects the remote surface. At the same time, the leader runs local simulation using the model, resulting in non-delayed, stable, and accurate feedback of texture. Considering that rendering haptic texture needs tougher real-time requirements, e.g., higher update rate and lower action-feedback latency, MMT can be a perfect platform for remote texture sharing. An initial proof-of-concept system supporting single and homogeneous surface is implemented and evaluated, demonstrating the potential of the approach.
U2 - 10.1109/ICRA48891.2023.10160503
DO - 10.1109/ICRA48891.2023.10160503
M3 - Article in proceedings
AN - SCOPUS:85168704091
T3 - Proceedings - IEEE International Conference on Robotics and Automation
SP - 12457
EP - 12463
BT - Proceedings - ICRA 2023
PB - IEEE
Y2 - 29 May 2023 through 2 June 2023
ER -
ID: 388954720