Kohda scite author profile

In this paper, we present an experimental validation of a novel decentralized passivity-based control strategy for teleoperating a group of Unmanned Aerial Vehicles (UAVs): the slave side, consisting of the UAVs, is endowed with large group autonomy by allowing time-varying topology and interrobot/obstacle collision avoidance. The master side, represented by a human operator, controls the group motion and receives suitable force feedback cues informing her/him about the remote slave motion status. Passivity theory is exploited for guaranteeing stability of the slave side and of the overall teleoperation channel. Results of experiments involving the use of 4 quadcopters are reported and discussed, confirming the soundness of the paper theoretical claims.

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Generation of adaptive splitbelt treadmill walking by a biped robot using nonlinear oscillators with phase resetting

Aoi¹,

Fujiki²,

Yamashita³

et al. 2011

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Because Autonomous Underwater Vehicles (AUVs) have limited perception and communication capabilities, designing efficient AUV flotillas is challenging. Existing solutions are often strongly related to (1) a specific kind of mission and (2) the nature of the considered AUVs. So, it is difficult to reuse these approaches when switching to another mission context. This paper proposes a generic multi-agent based layered architecture for designing and specifying AUV flotillas at a high level of abstraction, regardless of the AUVs characteristics and skills. To this end, an organizational model is used to ease and regulate interactions between heterogeneous AUVs and combined with a behavioral reactive approach for limiting communication.

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Kohda

Microvenular haemangioma in a patient with Wiskott-Aldrich syndrome

Experimental verification of hysteresis in gait transition of a quadruped robot driven by nonlinear oscillators with phase resetting

Generation of adaptive splitbelt treadmill walking by a biped robot using nonlinear oscillators with phase resetting

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