Francisco Javier Andrade Chavez scite author profile

Humanoid robot teleoperation allows humans to integrate their cognitive capabilities with the apparatus to perform tasks that need high strength, manoeuvrability and dexterity. This paper presents a framework for teleoperation of humanoid robots using a novel approach for motion retargeting through inverse kinematics over the robot model. The proposed method enhances scalability for retargeting, i.e., it allows teleoperating different robots by different human users with minimal changes to the proposed system. Our framework enables an intuitive and natural interaction between the human operator and the humanoid robot at the configuration space level. We validate our approach by demonstrating whole-body retargeting with multiple robot models. Furthermore, we present experimental validation through teleoperation experiments using two state-of-the-art whole-body controllers for humanoid robots.

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A Novel Sensorised Insole for Sensing Feet Pressure Distributions

Sorrentino

Chavez

Latella

et al. 2020

Sensors

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The paper presents a novel sensorized skin insole based on tactile capacitive technology. The insole prototype provides information such as pressure distribution, contact force and moments, center of pressure. These variables require an accurate calibration procedure to retrieve the relationship between the measured capacitance and the corresponding applied pressure. A calibration technique is here proposed and validated by exploiting a pair of shoes equipped with force/torque sensors. The validation analysis shows that the quantities estimated by the skin insoles match data measured by the force/torque sensors. Further, an example of real application for using skin insoles is presented for a gait analysis. Keywords sensorized insole, capacitive sensors, tactile sensors array, wearable sensorsSeveral techniques and technologies to detect gait events and plantar pressure monitoring have been developed over the years. The solutions involve mainly the following sensors: force platforms, pedobarographs, force treadmill, sensorized shoes and sensorized insoles. Force platforms [1,10,22], pedobarographs and force treadmill [19] are very reliable and accurate and can stream information at very high frequencies. They can be used for both static and dynamic studies arXiv:1910.06370v1 [physics.app-ph]

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A Benchmarking of DCM-Based Architectures for Position, Velocity and Torque-Controlled Humanoid Robots

Romualdi

Dafarra

et al. 2020

Int. J. Human. Robot.

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This paper contributes towards the benchmarking of control architectures for bipedal robot locomotion. It considers architectures that are based on the Divergent Component of Motion (DCM) and composed of three main layers: trajectory optimization, simplified model control, and whole-body QP control layer. While the first two layers use simplified robot models, the whole-body QP control layer uses a complete robot model to produce either desired positions, velocities, or torques inputs at the joint-level. This paper then compares two implementations of the simplified model control layer, which are tested with position, velocity, and torque control modes for the whole-body QP control layer. In particular, both an instantaneous and a Receding Horizon controller are presented for the simplified model control layer. We show also that one of the proposed architectures allows the humanoid robot iCub to achieve a forward walking velocity of 0.3372 meters per second, which is the highest walking velocity achieved by the iCub robot.

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Simultaneous Floating-Base Estimation of Human Kinematics and Joint Torques

Latella

Traversaro

Ferigo

et al. 2019

Sensors

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The paper presents a stochastic methodology for the simultaneous floating-base estimation of the human whole-body kinematics and dynamics (i.e., joint torques, internal and external forces). The paper builds upon our former work where a fixed-base formulation had been developed for the human estimation problem. The presented approach is validated by presenting experimental results of a health subject equipped with a wearable motion tracking system and a pair of shoes sensorized with force/torque sensors while performing different motion tasks, e.g., walking on a treadmill. The results show that joint torque estimates obtained by using floating-base and fixed-base approaches match satisfactorily, thus validating the present approach.

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Model Based In Situ Calibration with Temperature compensation of 6 axis Force Torque Sensors

Chavez

Nava

Traversaro

et al. 2019

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