Point cloud-based model-mediated teleoperation with dynamic and perception-based model updating

Xiao Xu, Burak Cizmeci, Anas Al-Nuaimi, Eckehard Steinbach

Research output: Contribution to journalArticlepeer-review

57 Scopus citations

Abstract

In this paper, we extend the concept of model-mediated teleoperation for complex environments and six degrees of freedom interaction using point cloud surface models. In our system, a time-of-flight camera is used to capture a high-resolution point cloud model of the object surface. The point cloud model and the physical properties of the object (stiffness and surface friction coefficient) are estimated at the slave side in real-time and transmitted to the master side using the modeling and updating algorithm proposed in this paper. The proposed algorithm adaptively controls the updating of the point cloud model and the object properties according to the slave movements and by exploiting known limitations of human haptic perception. As a result, perceptually irrelevant transmissions are avoided, and thus the packet rate in the communication channel is substantially reduced. In addition, a simple point cloud-based hapticrendering algorithm is adopted to generate the force feedback signals directly from the point cloud model without first converting itinto a 3-D mesh. In the experimental evaluation, the system stability and transparency are verified in the presence of a round-trip communication delay of up to 1000 ms. Furthermore, by exploiting thelimits of human haptic perception, the presented system allows for a significant haptic data reduction of about 90% for teleoperation systems with time delay.

Original languageEnglish
Article number6822645
Pages (from-to)2558-2569
Number of pages12
JournalIEEE Transactions on Instrumentation and Measurement
Volume63
Issue number11
DOIs
StatePublished - 1 Nov 2014

Keywords

  • Model-mediated teleoperation (MMT)
  • model-update
  • packet rate reduction
  • point cloud-based haptic rendering (pcbHR).

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