2019
DOI: 10.1109/toh.2019.2927338
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SwarmTouch: Guiding a Swarm of Micro-Quadrotors With Impedance Control Using a Wearable Tactile Interface

Abstract: To achieve a smooth and safe guiding of a drone formation by a human operator, we propose a novel interaction strategy for a human-swarm communication which combines impedance control and vibrotactile feedback. The presented approach takes into account the human hand velocity and changes the formation shape and dynamics accordingly using impedance interlinks simulated between quadrotors, which helps to achieve a natural swarm behavior. Several tactile patterns representing static and dynamic parameters of the … Show more

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Cited by 34 publications
(22 citation statements)
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“…Cacace et al [20] use a vibrotactile armband to provide the operator with information about the robot deviation with respect to the planned trajectory. Similarly, Tsykunov et al [21] use a wearable tactile glove to provide information about the drones formation state (extension, contraction, and displacement) and propagation direction (increasing or decreasing drone-to-drone distance). Lee et al [22], Robuffo Giordano et al [23], and Franchi et al [24] use a grounded haptic interface to control the fleet leader and provide haptic feedback regarding the status of the team.…”
Section: Related Workmentioning
confidence: 99%
“…Cacace et al [20] use a vibrotactile armband to provide the operator with information about the robot deviation with respect to the planned trajectory. Similarly, Tsykunov et al [21] use a wearable tactile glove to provide information about the drones formation state (extension, contraction, and displacement) and propagation direction (increasing or decreasing drone-to-drone distance). Lee et al [22], Robuffo Giordano et al [23], and Franchi et al [24] use a grounded haptic interface to control the fleet leader and provide haptic feedback regarding the status of the team.…”
Section: Related Workmentioning
confidence: 99%
“…Independently of research dealing with general robotics, research on drone swarms specifically is also currently taking place. For instance, new interfaces are being developed in order to allow human operators to guide larger drone formations more optimally, using various strategies such as impedance control and haptic feedback (Tsykunov et al 2019). Although not presently seen in operational battlefields, drone swarms are a reality which military strategy will have to deal with in a foreseeable future.…”
Section: Drone Swarmsmentioning
confidence: 99%
“…Taking into account that the visual channel is overloaded in the process of teleoperation, the tactile interfaces deliver the feedback information about the swarm status directly to the skin. In [18], [19], [20] the authors propose the strategy where the formation of the swarm of nano-quadrotors with impedance control is guided by a human operator and the vibrotactile feedback maps the dynamic state of the formation through the tactile patterns at the fingertips. Likewise, in the robotic telepresence system [21] using the laser range finders (LIDARs) the mobile robot precisely recognizes the shape, boundaries, movement direction, speed, and distance to the obstacles.…”
Section: Wearable-controlled Teleoperationmentioning
confidence: 99%