Haptify: A Measurement-Based Benchmarking System for Grounded Force-Feedback Devices
2023
Article
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Grounded force-feedback (GFF) devices are an established and diverse class of haptic technology based on robotic arms. However, the number of designs and how they are specified make comparing devices difficult. We thus present Haptify, a benchmarking system that can thoroughly, fairly, and noninvasively evaluate GFF haptic devices. The user holds the instrumented device end-effector and moves it through a series of passive and active experiments. Haptify records the interaction between the hand, device, and ground with a seven-camera optical motion-capture system, a 60-cm-square custom force plate, and a customized sensing end-effector. We demonstrate six key ways to assess GFF device performance: workspace shape, global free-space forces, global free-space vibrations, local dynamic forces and torques, frictionless surface rendering, and stiffness rendering. We then use Haptify to benchmark two commercial haptic devices. With a smaller workspace than the 3D Systems Touch, the more expensive Touch X outputs smaller free-space forces and vibrations, smaller and more predictable dynamic forces and torques, and higher-quality renderings of a frictionless surface and high stiffness.
Author(s): | Farimah Fazlollahi and Katherine J. Kuchenbecker |
Journal: | IEEE Transactions on Robotics |
Volume: | 39 |
Number (issue): | 2 |
Pages: | 1622--1636 |
Year: | 2023 |
Month: | April |
Department(s): | Haptic Intelligence |
Research Project(s): |
Exploring and Benchmarking Grounded Force-Feedback Devices
|
Bibtex Type: | Article (article) |
Paper Type: | Journal |
DOI: | 10.1109/TRO.2022.3226110 |
State: | Published |
BibTex @article{Fazlollahi23-TRO-Haptify, title = {Haptify: A Measurement-Based Benchmarking System for Grounded Force-Feedback Devices}, author = {Fazlollahi, Farimah and Kuchenbecker, Katherine J.}, journal = {IEEE Transactions on Robotics}, volume = {39}, number = {2}, pages = {1622--1636}, month = apr, year = {2023}, doi = {10.1109/TRO.2022.3226110}, month_numeric = {4} } |