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Naturalistic Vibrotactile Feedback Could Facilitate Telerobotic Assembly on Construction Sites
Telerobotics is regularly used on construction sites to build large structures efficiently. A human operator remotely controls the construction robot under direct visual feedback, but visibility is often poor. Future construction robots that move autonomously will also require operator monitoring. Thus, we designed a wireless haptic feedback system to provide the operator with task-relevant mechanical information from a construction robot in real time. Our AiroTouch system uses an accelerometer to measure the robot end-effector's vibrations and uses off-the-shelf audio equipment and a voice-coil actuator to display them to the user with high fidelity. A study was conducted to evaluate how this type of naturalistic vibration feedback affects the observer's understanding of telerobotic assembly on a real construction site. Seven adults without construction experience observed a mix of manual and autonomous assembly processes both with and without naturalistic vibrotactile feedback. Qualitative analysis of their survey responses and interviews indicated that all participants had positive responses to this technology and believed it would be beneficial for construction activities.
@inproceedings{Gong23-WHC-Feedback, title = {Naturalistic Vibrotactile Feedback Could Facilitate Telerobotic Assembly on Construction Sites}, booktitle = {Proceedings of the IEEE World Haptics Conference (WHC)}, abstract = {Telerobotics is regularly used on construction sites to build large structures efficiently. A human operator remotely controls the construction robot under direct visual feedback, but visibility is often poor. Future construction robots that move autonomously will also require operator monitoring. Thus, we designed a wireless haptic feedback system to provide the operator with task-relevant mechanical information from a construction robot in real time. Our AiroTouch system uses an accelerometer to measure the robot end-effector's vibrations and uses off-the-shelf audio equipment and a voice-coil actuator to display them to the user with high fidelity. A study was conducted to evaluate how this type of naturalistic vibration feedback affects the observer's understanding of telerobotic assembly on a real construction site. Seven adults without construction experience observed a mix of manual and autonomous assembly processes both with and without naturalistic vibrotactile feedback. Qualitative analysis of their survey responses and interviews indicated that all participants had positive responses to this technology and believed it would be beneficial for construction activities.}, pages = {169--175}, address = {Delft, The Netherlands}, month = jul, year = {2023}, slug = {gong23-whc-feedback}, author = {Gong, Yijie and Javot, Bernard and Lauer, Anja Patricia Regina and Sawodny, Oliver and Kuchenbecker, Katherine J.}, month_numeric = {7} }