基于块的延时遥操作触觉数据简化方法

2022 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) Pub Date : 2022-10-23 DOI:10.1109/IROS47612.2022.9982156

Minghui. Gui, Xiao Xu, E. Steinbach

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引用次数: 0

摘要

本文提出了一种将信息编码为块的延时遥操作触觉数据约简方案。目前最先进的触觉数据约简方法主要是基于采样的方案。他们对触觉信号逐样本编码，以尽量减少引入的编码延迟。相比之下，我们提出的基于块的编码方法将样本块作为单个单元(触觉包)传输。虽然它引入了与块长度成正比的额外算法延迟，但块编码具有优点，因为分组速率易于控制，编码方法可以是无损的，并且可以利用块内信息来提高力反馈质量。我们进一步开发了一种能量调整方法，该方法使用块中的信息来减轻由时域无源方法引起的力振荡。仿真实验和主观测试表明，与基于SOTA样本的编码方案相比，我们的方法降低了网络负载，显著提高了力反馈质量，特别是在中高延迟网络和低数据包速率下。

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Block-based Novel Haptic Data Reduction for Time-delayed Teleoperation

This work proposes a novel haptic data reduction scheme for time-delayed teleoperation by coding information as blocks. State-of-the-art (SOTA) haptic data reduction approaches are mainly sampled-based schemes. They encode haptic signals sample by sample in order to minimize the introduced coding delay. In contrast, our proposed block-based coding approach transmits a sample block as a single unit (haptic packet). Although it introduces additional algorithmic delays that are proportional to the block length, block coding has benefits since the packet rate is easy to control, the coding approach can be lossless, and the intra-block information can be employed to improve the force feedback quality. We further develop an energy adjustment approach that uses the information in a block to mitigate force oscillations caused by the Time Domain Passivity Approach. Simulation experiments and subjective tests demonstrate that our method reduces network load and significantly increases force feedback quality compared with the SOTA sample-based coding schemes, particularly for mid- to high-latency networks and low packet rates.

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来源期刊

2022 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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