Martina Lippi scite author profile

Haptic feedback is essential for humans to successfully perform complex and delicate manipulation tasks. A recent rise in tactile sensors has enabled robots to leverage the sense of touch and expand their capability drastically. However, many tasks still need human intervention/guidance. For this reason, we present a teleoperation framework designed to provide haptic feedback to human operators based on the data from camera-based tactile sensors mounted on the robot gripper. Partial autonomy is introduced to prevent slippage of grasped objects during task execution. Notably, we rely exclusively on low-cost off-the-shelf hardware to realize an affordable solution. We demonstrate the versatility of the framework on nine different objects ranging from rigid to soft and fragile ones, using three different operators on real hardware.

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Benchmarking Bimanual Cloth Manipulation

Garcia-Camacho

Alenyà

Kragić

et al. 2020

IEEE Robot. Autom. Lett.

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Cloth manipulation is a challenging task that, despite its importance, has received relatively little attention compared to rigid object manipulation. In this paper, we provide three benchmarks for evaluation and comparison of different approaches towards three basic tasks in cloth manipulation: spreading a tablecloth over a table, folding a towel, and dressing. The tasks can be executed on any bimanual robotic platform and the objects involved in the tasks are standardized and easy to acquire. We provide several complexity levels for each task, and describe the quality measures to evaluate task execution. Furthermore, we provide baseline solutions for all the tasks and evaluate them according to the proposed metrics.

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A YOLO-Based Pest Detection System for Precision Agriculture

Lippi

Bonucci

Carpio

et al. 2021

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Enabling physical human-robot collaboration through contact classification and reaction

Lippi

Marino

2020

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Enabling Visual Action Planning for Object Manipulation through Latent Space Roadmap

Lippi¹,

Poklukar²,

Welle³

et al. 2021

Preprint

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We present a framework for visual action planning of complex manipulation tasks with high-dimensional state spaces, focusing on manipulation of deformable objects. We propose a Latent Space Roadmap (LSR) for task planning, a graph-based structure capturing globally the system dynamics in a low-dimensional latent space. Our framework consists of three parts: (1) a Mapping Module (MM) that maps observations, given in the form of images, into a structured latent space extracting the respective states, that generates observations from the latent states, (2) the LSR which builds and connects clusters containing similar states in order to find the latent plans between start and goal states extracted by MM, and (3) the Action Proposal Module that complements the latent plan found by the LSR with the corresponding actions. We present a thorough investigation of our framework on two simulated box stacking tasks and a folding task executed on a real robot.

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Safety in human-multi robot collaborative scenarios: a trajectory scaling approach

Lippi

Marino

2018

IFAC-PapersOnLine

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In this paper, a strategy to handle the human safety in a multi-robot scenario is devised. In the presented framework, it is foreseen that robots are in charge of performing any cooperative manipulation task which is parameterized by a proper task function. The devised architecture answers to the increasing demand of strict cooperation between humans and robots, since it equips a general multi-robot cell with the feature of making robots and human working together. The human safety is properly handled by defining a safety index which depends both on the relative position and velocity of the human operator and robots. Then, the multi-robot task trajectory is properly scaled in order to ensure that the human safety never falls below a given threshold which can be set in worst conditions according to a minimum allowed distance. Simulations results are presented in order to prove the effectiveness of the approach.

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Human Multi-Robot Safe Interaction: A Trajectory Scaling Approach Based on Safety Assessment

Lippi

Marino

2021

IEEE Trans. Contr. Syst. Technol.

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Enabling Visual Action Planning for Object Manipulation Through Latent Space Roadmap

et al. 2023

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Martina Lippi

Latent Space Roadmap for Visual Action Planning of Deformable and Rigid Object Manipulation

Benchmarking Bimanual Cloth Manipulation

A YOLO-Based Pest Detection System for Precision Agriculture

Enabling physical human-robot collaboration through contact classification and reaction

Enabling Visual Action Planning for Object Manipulation through Latent Space Roadmap

Safety in human-multi robot collaborative scenarios: a trajectory scaling approach

Human Multi-Robot Safe Interaction: A Trajectory Scaling Approach Based on Safety Assessment

Enabling Visual Action Planning for Object Manipulation Through Latent Space Roadmap

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