Ivan Danilov scite author profile

This chapter presents the conceptual framework of humanoid robot application in the field of non-invasive medical diagnostics based on interactive ultrasound scanning and spatial visualisation of sonograms. Humanoid robots appear in this context as intelligent assistants which enable acquisition of 3D sonograms using the conventional ultrasound probe for 2D manual scanning through collaborative work with humans-slave mode, or through machine precision execution of the kinematic motion primitives-autonomous mode. In this way a qualitatively new technology can be created, opening the door for the development and application of new ultrasound examination techniques, which a sonographer cannot apply through conventional approaches based on free-hand 2D scanning. From the engineering aspect, the key technological step forward is the development of an anthropomorphic robotic humanoid which will enable safe and collaborative work (Co-X robotics) in a complex physical and cognitive sonographer-robot-patient interaction.

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Compliant behaviour of redundant robot arm - experiments with null-space

Petrovic¹,

Lukić²,

Danilov³

2015

Serb J Electr Eng

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This paper presents theoretical and experimental aspects of Jacobian nullspace use in kinematically redundant robots for achieving kinetostatically consistent control of their compliant behavior. When the stiffness of the robot endpoint is dominantly influenced by the compliance of the robot joints, generalized stiffness matrix can be mapped into joint space using appropriate congruent transformation. Actuation stiffness matrix achieved by this transformation is generally nondiagonal. Off-diagonal elements of the actuation matrix can be generated by redundant actuation only (polyarticular actuators), but such kind of actuation is very difficult to realize practically in technical systems. The approach of solving this problem which is proposed in this paper is based on the use of kinematic redundancy and nullspace of the Jacobian matrix. Evaluation of the developed analytical model was done numerically by a minimal redundant robot with one redundant d.o.f. and experimentally by a 7 d.o.f. Yaskawa SIA 10F robot arm. [Projekat Ministarstva nauke Republike Srbije, br. TR35007]

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Gesture-Based Control of a Robot Arm with Neuromorphic Haptic Feedback

Sorgini¹,

Farulla²,

Lukić³

et al. 2018

Preprint

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Research on bidirectional human-machine interfaces will enable the smooth interaction with robotic platforms in contexts ranging from industry to tele-medicine and rescue. This paper introduces a bidirectional communication system to achieve multisensory telepresence during the gestural control of an industrial robotic arm. We complement the gesture-based control by means of a tactile-feedback strategy grounding on a spiking artificial neuron model. Force and motion from the robot are converted in neuromorphic haptic stimuli delivered on the user’s hand through a vibro-tactile glove. Untrained personnel participated in an experimental task benchmarking a pick-and-place operation. The robot end-effector was used to sequentially press six buttons, illuminated according to a random sequence, and comparing the tasks executed without and with tactile feedback. The results demonstrated the reliability of the hand tracking strategy developed for controlling the robotic arm, and the effectiveness of a neuronal spiking model for encoding hand displacement and exerted forces in order to promote a fluid embodiment of the haptic interface and control strategy. The main contribution of this paper is in presenting a robotic arm under gesture-based remote control with multisensory telepresence, demonstrating for the first time that a spiking haptic interface can be used to effectively deliver on the skin surface a sequence of stimuli emulating the neural code of the mechanoreceptors beneath.

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Ivan Danilov

Tactile sensing with gesture-controlled collaborative robot

Robot-Assisted 3D Medical Sonography

Compliant behaviour of redundant robot arm - experiments with null-space

Gesture-Based Control of a Robot Arm with Neuromorphic Haptic Feedback

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