Search

Your search keyword '"Palli, Gianluca"' showing total 437 results
Start Over Author "Palli, Gianluca"
437 results on '"Palli, Gianluca"'

1. Real Time Collision Avoidance with GPU-Computed Distance Maps

Author

Bedada, Wendwosen Bellete and Palli, Gianluca

Subjects
Computer Science - Robotics
Abstract

This paper presents reactive obstacle and self-collision avoidance of redundant robotic manipulators within real time kinematic feedback control using GPU-computed distance transform. The proposed framework utilizes discretized representation of the robot and the environment to calculate 3D Euclidean distance transform for task-priority based kinematic control. The environment scene is represented using a 3D GPU-voxel map created and updated from a live pointcloud data while the robotic link model is converted into a voxels offline and inserted into the voxel map according to the joint state of the robot to form the self-obstacle map. The proposed approach is evaluated using the Tiago robot, showing that all obstacle and self collision avoidance constraints are respected within one framework even with fast moving obstacles while the robot performs end-effector pose tracking in real time. A comparison of related works that depend on GPU and CPU computed distance fields is also presented to highlight the time performance as well as accuracy of the GPU distance field., Comment: 11 pages, 13 figures

Published
2024

2. Learning passive policies with virtual energy tanks in robotics

Author

Zanella, Riccardo, Palli, Gianluca, Stramigioli, Stefano, and Califano, Federico

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

Within a robotic context, we merge the techniques of passivity-based control (PBC) and reinforcement learning (RL) with the goal of eliminating some of their reciprocal weaknesses, as well as inducing novel promising features in the resulting framework. We frame our contribution in a scenario where PBC is implemented by means of virtual energy tanks, a control technique developed to achieve closed-loop passivity for any arbitrary control input. Albeit the latter result is heavily used, we discuss why its practical application at its current stage remains rather limited, which makes contact with the highly debated claim that passivity-based techniques are associated with a loss of performance. The use of RL allows us to learn a control policy that can be passivized using the energy tank architecture, combining the versatility of learning approaches and the system theoretic properties which can be inferred due to the energy tanks. Simulations show the validity of the approach, as well as novel interesting research directions in energy-aware robotics., Comment: 8 pages, 5 figures

Published
2023

3. Symplectic Integration for Multivariate Dynamic Spline-Based Model of Deformable Linear Objects

Author

Khalifa, Alaa and Palli, Gianluca

Subjects
Computer Science - Robotics
Abstract

Deformable Linear Objects (DLOs) such as ropes, cables, and surgical sutures have a wide variety of uses in automotive engineering, surgery, and electromechanical industries. Therefore, modeling of DLOs as well as a computationally efficient way to predict the DLO behavior are of great importance, in particular to enable robotic manipulation of DLOs. The main motivation of this work is to enable efficient prediction of the DLO behavior during robotic manipulation. In this paper, the DLO is modeled by a multivariate dynamic spline, while a symplectic integration method is used to solve the model iteratively by interpolating the DLO shape during the manipulation process. Comparisons between the symplectic, Runge-Kutta and Zhai integrators are reported. The presented results show the capabilities of the symplectic integrator to overcome other integration methods in predicting the DLO behavior. Moreover, the results obtained with different sets of model parameters integrated by means of the symplectic method are reported to show how they influence the DLO behavior estimation., Comment: 12 pages, 12 figures, journal paper

Published
2021

4. Effective Deployment of CNNs for 3DoF Pose Estimation and Grasping in Industrial Settings

Author

De Gregorio, Daniele, Zanella, Riccardo, Palli, Gianluca, and Di Stefano, Luigi

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper we investigate how to effectively deploy deep learning in practical industrial settings, such as robotic grasping applications. When a deep-learning based solution is proposed, usually lacks of any simple method to generate the training data. In the industrial field, where automation is the main goal, not bridging this gap is one of the main reasons why deep learning is not as widespread as it is in the academic world. For this reason, in this work we developed a system composed by a 3-DoF Pose Estimator based on Convolutional Neural Networks (CNNs) and an effective procedure to gather massive amounts of training images in the field with minimal human intervention. By automating the labeling stage, we also obtain very robust systems suitable for production-level usage. An open source implementation of our solution is provided, alongside with the dataset used for the experimental evaluation.

Published
2020

5. Simulative and Experimental Evaluation of a Soft-DTW Neural Network for sEMG-Based Robotic Grasping

Author

Bernardini, Alessandra, Meattini, Roberto, Palli, Gianluca, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Borja, Pablo, editor, Della Santina, Cosimo, editor, Peternel, Luka, editor, and Torta, Elena, editor

Published
2023
Full Text
View/download PDF

6. Robotized Laundry Manipulation With Appliance User Interface Interpretation

Author

Bedada, Wendwosen B., Ahmadli, Ismayil, Palli, Gianluca, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Palli, Gianluca, editor, Melchiorri, Claudio, editor, and Meattini, Roberto, editor

Published
2022
Full Text
View/download PDF

7. Combining Hybrid Genetic Algorithms and Feedforward Neural Networks for Pallet Loading in Real-World Applications

Author

Ancora, Gabriele, Palli, Gianluca, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Palli, Gianluca, editor, Melchiorri, Claudio, editor, and Meattini, Roberto, editor

Published
2022
Full Text
View/download PDF

8. Mapping Finger Motions on Anthropomorphic Robotic Hands: Two Realizations of a Hybrid Joint-Cartesian Approach Based on Spatial In-Hand Information

Author

Meattini, Roberto, Chiaravalli, Davide, Palli, Gianluca, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Palli, Gianluca, editor, Melchiorri, Claudio, editor, and Meattini, Roberto, editor

Published
2022
Full Text
View/download PDF

9. Deep Learning and OcTree-GPU-Based ICP for Efficient 6D Model Registration of Large Objects

Author

Ahmadli, Ismayil, Bedada, Wendwosen B., Palli, Gianluca, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Palli, Gianluca, editor, Melchiorri, Claudio, editor, and Meattini, Roberto, editor

Published
2022
Full Text
View/download PDF

10. Semi-Automatic Labeling for Deep Learning in Robotics

Author

De Gregorio, Daniele, Tonioni, Alessio, Palli, Gianluca, and Di Stefano, Luigi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we propose Augmented Reality Semi-automatic labeling (ARS), a semi-automatic method which leverages on moving a 2D camera by means of a robot, proving precise camera tracking, and an augmented reality pen to define initial object bounding box, to create large labeled datasets with minimal human intervention. By removing the burden of generating annotated data from humans, we make the Deep Learning technique applied to computer vision, that typically requires very large datasets, truly automated and reliable. With the ARS pipeline, we created effortlessly two novel datasets, one on electromechanical components (industrial scenario) and one on fruits (daily-living scenario), and trained robustly two state-of-the-art object detectors, based on convolutional neural networks, such as YOLO and SSD. With respect to the conventional manual annotation of 1000 frames that takes us slightly more than 10 hours, the proposed approach based on ARS allows annotating 9 sequences of about 35000 frames in less than one hour, with a gain factor of about 450. Moreover, both the precision and recall of object detection is increased by about 15\% with respect to manual labeling. All our software is available as a ROS package in a public repository alongside the novel annotated datasets.

Published
2019

15. Let's take a Walk on Superpixels Graphs: Deformable Linear Objects Segmentation and Model Estimation

Author

De Gregorio, Daniele, Palli, Gianluca, and Di Stefano, Luigi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

While robotic manipulation of rigid objects is quite straightforward, coping with deformable objects is an open issue. More specifically, tasks like tying a knot, wiring a connector or even surgical suturing deal with the domain of Deformable Linear Objects (DLOs). In particular the detection of a DLO is a non-trivial problem especially under clutter and occlusions (as well as self-occlusions). The pose estimation of a DLO results into the identification of its parameters related to a designed model, e.g. a basis spline. It follows that the stand-alone segmentation of a DLO might not be sufficient to conduct a full manipulation task. This is why we propose a novel framework able to perform both a semantic segmentation and b-spline modeling of multiple deformable linear objects simultaneously without strict requirements about environment (i.e. the background). The core algorithm is based on biased random walks over the Region Adiacency Graph built on a superpixel oversegmentation of the source image. The algorithm is initialized by a Convolutional Neural Networks that detects the DLO's endcaps. An open source implementation of the proposed approach is also provided to easy the reproduction of the whole detection pipeline along with a novel cables dataset in order to encourage further experiments., Comment: Accepted as Oral to ACCV 2018, Perth

Published
2018

19. Robotic Muscular Assistance-As-Needed for Physical and Training/Rehabilitation Tasks: Design and Experimental Validation of a Closed-Loop Myoelectric Control in Grounded and Wearable Applications

Author

Meattini, Roberto, Chiaravalli, Davide, Hosseini, Mohssen, Palli, Gianluca, Paik, Jamie, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Saveriano, Matteo, editor, Renaudo, Erwan, editor, Rodríguez-Sánchez, Antonio, editor, and Piater, Justus, editor

Published
2021
Full Text
View/download PDF

22. Automatized Switchgear Wiring: An Outline of the WIRES Experiment Results

Author

Palli, Gianluca, Pirozzi, Salvatore, Indovini, Maurizio, De Gregorio, Daniele, Zanella, Riccardo, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Amato, Nancy, Advisory Editor, Brock, Oliver, Advisory Editor, Bruyninckx, Herman, Advisory Editor, Burgard, Wolfram, Advisory Editor, Chatila, Raja, Advisory Editor, Chaumette, Francois, Advisory Editor, Chung, Wan Kyun, Advisory Editor, Corke, Peter, Advisory Editor, Dario, Paolo, Advisory Editor, De Luca, Alessandro, Advisory Editor, Dillmann, Rüdiger, Advisory Editor, Goldberg, Ken, Advisory Editor, Hollerbach, John, Advisory Editor, Kavraki, Lydia E., Advisory Editor, Kumar, Vijay, Advisory Editor, Nelson, Bradley J., Advisory Editor, Park, Frank Chongwoo, Advisory Editor, Salcudean, S. E., Advisory Editor, Siegwart, Roland, Advisory Editor, Sukhatme, Gaurav S., Advisory Editor, Grau, Antoni, editor, Morel, Yannick, editor, Puig-Pey, Ana, editor, and Cecchi, Francesca, editor

Published
2020
Full Text
View/download PDF

23. Grasp-Oriented Myoelectric Interfaces for Robotic Hands: A Minimal-Training Synergy-Based Framework for Intent Detection, Control and Perception

Author

Meattini, Roberto, Biagiotti, Luigi, Palli, Gianluca, Melchiorri, Claudio, Siciliano, Bruno, Series Editor, Khatib, Oussama, Series Editor, Antonelli, Gianluca, Advisory Editor, Fox, Dieter, Advisory Editor, Harada, Kensuke, Advisory Editor, Hsieh, M. Ani, Advisory Editor, Kröger, Torsten, Advisory Editor, Kulic, Dana, Advisory Editor, Park, Jaeheung, Advisory Editor, Ferraguti, Federica, editor, Villani, Valeria, editor, Sabattini, Lorenzo, editor, and Bonfè, Marcello, editor

Published
2020
Full Text
View/download PDF

28. Let’s Take a Walk on Superpixels Graphs: Deformable Linear Objects Segmentation and Model Estimation

Author

De Gregorio, Daniele, Palli, Gianluca, Di Stefano, Luigi, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Pandu Rangan, C., Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Jawahar, C. V., editor, Li, Hongdong, editor, Mori, Greg, editor, and Schindler, Konrad, editor

Published
2019
Full Text
View/download PDF

47. FASTDLO: Fast Deformable Linear Objects Instance Segmentation

Author

Caporali, Alessio, Galassi, Kevin, Zanella, Riccardo, Palli, Gianluca, Caporali, A, Galassi, K, Zanella, R, and Palli, G

Subjects
Human-Computer Interaction, Control and Optimization, Artificial Intelligence, Control and Systems Engineering, Computer Vision, Mechanical Engineering, Biomedical Engineering, Deformable Linear Object, Industrial Manufacturing, DLO, Instance Segmentation, Computer Vision and Pattern Recognition, Computer Science Applications
Abstract

In this paper, an approach for fast and accurate segmentation of Deformable Linear Objects (DLOs) named FASTDLO is presented. A deep convolutional neural network is employed for background segmentation, generating a binary mask that isolates DLOs in the image. Thereafter, the obtained mask is processed with a skeletonization algorithm and the intersections between different DLOs are solved with a similarity-based network. Apart from the usual pixel-wise color-mapped image, FASTDLO also describes each DLO instance with a sequence of 2D coordinates, enabling the possibility of modeling the DLO instances with splines curves, for example. Synthetically generated data are exploited for the training of the data-driven methods, avoiding expensive collection and annotations of real data. FASTDLO is experimentally compared against both a DLO-specific approach and general-purpose deep learning instance segmentation models, achieving better overall performances and a processing rate higher than 20 FPS.

Published
2022

50. RT-DLO: Real-Time Deformable Linear Objects Instance Segmentation

Author

Caporali, Alessio, Galassi, Kevin, Zagar, Bare Luka, Zanella, Riccardo, Palli, Gianluca, Knoll, Alois C, Caporali, Alessio, Galassi, Kevin, Zagar, Bare Luka, Zanella, Riccardo, Palli, Gianluca, and Knoll, Alois C

Subjects
Control and Systems Engineering, Computer vision, DLO, deformable linear objects, industrial manufacturing, instance segmentation, Electrical and Electronic Engineering, Computer Science Applications, Information Systems, ddc
Abstract

Deformable Linear Objects (DLOs) such as cables, wires, ropes, and elastic tubes are numerously present both in domestic and industrial environments. Unfortunately, robotic systems handling DLOs are rare and have limited capabilities due to the challenging nature of perceiving them. Hence, we propose a novel approach named RT-DLO for real-time instance segmentation of DLOs. First, the DLOs are semantically segmented from the background. Afterward, a novel method to separate the DLO instances is applied. It employs the generation of a graph representation of the scene given the semantic mask where the graph nodes are sampled from the DLOs center-lines whereas the graph edges are selected based on topological reasoning. RT-DLO is experimentally evaluated against both DLO-specific and general-purpose instance segmentation deep learning approaches, achieving overall better performances in terms of accuracy and inference time.

Published
2023

Catalog

Books, media, physical & digital resources
See catalog results