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47 results on '"Martini, Mauro"'

1. Unsupervised Novelty Detection Methods Benchmarking with Wavelet Decomposition

Author

Priarone, Ariel, Albertin, Umberto, Cena, Carlo, Martini, Mauro, and Chiaberge, Marcello

Subjects
Computer Science - Machine Learning, I.2.6, J.2
Abstract

Novelty detection is a critical task in various engineering fields. Numerous approaches to novelty detection rely on supervised or semi-supervised learning, which requires labelled datasets for training. However, acquiring labelled data, when feasible, can be expensive and time-consuming. For these reasons, unsupervised learning is a powerful alternative that allows performing novelty detection without needing labelled samples. In this study, numerous unsupervised machine learning algorithms for novelty detection are compared, highlighting their strengths and weaknesses in the context of vibration sensing. The proposed framework uses a continuous metric, unlike most traditional methods that merely flag anomalous samples without quantifying the degree of anomaly. Moreover, a new dataset is gathered from an actuator vibrating at specific frequencies to benchmark the algorithms and evaluate the framework. Novel conditions are introduced by altering the input wave signal. Our findings offer valuable insights into the adaptability and robustness of unsupervised learning techniques for real-world novelty detection applications., Comment: To be published in the 8th International Conference on System Reliability and Safety. Sicily, Italy - November 20-22, 2024. 15 pages, 7 figures, 4 tables

Published
2024

2. Physics-Informed Real NVP for Satellite Power System Fault Detection

Author

Cena, Carlo, Albertin, Umberto, Martini, Mauro, Bucci, Silvia, and Chiaberge, Marcello

Subjects
Computer Science - Machine Learning, Computer Science - Robotics
Abstract

The unique challenges posed by the space environment, characterized by extreme conditions and limited accessibility, raise the need for robust and reliable techniques to identify and prevent satellite faults. Fault detection methods in the space sector are required to ensure mission success and to protect valuable assets. In this context, this paper proposes an Artificial Intelligence (AI) based fault detection methodology and evaluates its performance on ADAPT (Advanced Diagnostics and Prognostics Testbed), an Electrical Power System (EPS) dataset, crafted in laboratory by NASA. Our study focuses on the application of a physics-informed (PI) real-valued non-volume preserving (Real NVP) model for fault detection in space systems. The efficacy of this method is systematically compared against other AI approaches such as Gated Recurrent Unit (GRU) and Autoencoder-based techniques. Results show that our physics-informed approach outperforms existing methods of fault detection, demonstrating its suitability for addressing the unique challenges of satellite EPS sub-system faults. Furthermore, we unveil the competitive advantage of physics-informed loss in AI models to address specific space needs, namely robustness, reliability, and power constraints, crucial for space exploration and satellite missions., Comment: Accepted at International Conference on Advanced Intelligent Mechatronics (AIM) 2024

Published
2024
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3. Adaptive Social Force Window Planner with Reinforcement Learning

Author

Martini, Mauro, Pérez-Higueras, Noé, Ostuni, Andrea, Chiaberge, Marcello, Caballero, Fernando, and Merino, Luis

Subjects
Computer Science - Robotics
Abstract

Human-aware navigation is a complex task for mobile robots, requiring an autonomous navigation system capable of achieving efficient path planning together with socially compliant behaviors. Social planners usually add costs or constraints to the objective function, leading to intricate tuning processes or tailoring the solution to the specific social scenario. Machine Learning can enhance planners' versatility and help them learn complex social behaviors from data. This work proposes an adaptive social planner, using a Deep Reinforcement Learning agent to dynamically adjust the weighting parameters of the cost function used to evaluate trajectories. The resulting planner combines the robustness of the classic Dynamic Window Approach, integrated with a social cost based on the Social Force Model, and the flexibility of learning methods to boost the overall performance on social navigation tasks. Our extensive experimentation on different environments demonstrates the general advantage of the proposed method over static cost planners.

Published
2024

4. Semi-Supervised Novelty Detection for Precise Ultra-Wideband Error Signal Prediction

Author

Albertin, Umberto, Navone, Alessandro, Martini, Mauro, and Chiaberge, Marcello

Subjects
Computer Science - Robotics
Abstract

Ultra-Wideband (UWB) technology is an emerging low-cost solution for localization in a generic environment. However, UWB signal can be affected by signal reflections and non-line-of-sight (NLoS) conditions between anchors; hence, in a broader sense, the specific geometry of the environment and the disposition of obstructing elements in the map may drastically hinder the reliability of UWB for precise robot localization. This work aims to mitigate this problem by learning a map-specific characterization of the UWB quality signal with a fingerprint semi-supervised novelty detection methodology. An unsupervised autoencoder neural network is trained on nominal UWB map conditions, and then it is used to predict errors derived from the introduction of perturbing novelties in the environment. This work poses a step change in the understanding of UWB localization and its reliability in evolving environmental conditions. The resulting performance of the proposed method is proved by fine-grained experiments obtained with a visual tracking ground truth.

Published
2024

5. Non-linear Model Predictive Control for Multi-task GPS-free Autonomous Navigation in Vineyards

Author

Sperti, Matteo, Ambrosio, Marco, Martini, Mauro, Navone, Alessandro, Ostuni, Andrea, and Chiaberge, Marcello

Subjects
Computer Science - Robotics
Abstract

Autonomous navigation is the foundation of agricultural robots. This paper focuses on developing an advanced autonomous navigation system for a rover operating within row-based crops. A position-agnostic system is proposed to address the challenging situation when standard localization methods, like GPS, fail due to unfavorable weather or obstructed signals. This breakthrough is especially vital in densely vegetated regions, including areas covered by thick tree canopies or pergola vineyards. This work proposed a novel system that leverages a single RGB-D camera and a Non-linear Model Predictive Control strategy to navigate through entire rows, adapting to various crop spacing. The presented solution demonstrates versatility in handling diverse crop densities, environmental factors, and multiple navigation tasks to support agricultural activities at an extremely cost-effective implementation. Experimental validation in simulated and real vineyards underscores the system's robustness and competitiveness in both standard row traversal and target objects approach.

Published
2024

6. GPS-free Autonomous Navigation in Cluttered Tree Rows with Deep Semantic Segmentation

Author

Navone, Alessandro, Martini, Mauro, Ambrosio, Marco, Ostuni, Andrea, Angarano, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics
Abstract

Segmentation-based autonomous navigation has recently been presented as an appealing approach to guiding robotic platforms through crop rows without requiring perfect GPS localization. Nevertheless, current techniques are restricted to situations where the distinct separation between the plants and the sky allows for the identification of the row's center. However, tall, dense vegetation, such as high tree rows and orchards, is the primary cause of GPS signal blockage. In this study, we increase the overall robustness and adaptability of the control algorithm by extending the segmentation-based robotic guiding to those cases where canopies and branches occlude the sky and prevent the utilization of GPS and earlier approaches. An efficient Deep Neural Network architecture has been used to address semantic segmentation, performing the training with synthetic data only. Numerous vineyards and tree fields have undergone extensive testing in both simulation and real-world to show the solution's competitive benefits., Comment: arXiv admin note: text overlap with arXiv:2304.08988

Published
2024

8. Lavender Autonomous Navigation with Semantic Segmentation at the Edge

Author

Navone, Alessandro, Romanelli, Fabrizio, Ambrosio, Marco, Martini, Mauro, Angarano, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics
Abstract

Achieving success in agricultural activities heavily relies on precise navigation in row crop fields. Recently, segmentation-based navigation has emerged as a reliable technique when GPS-based localization is unavailable or higher accuracy is needed due to vegetation or unfavorable weather conditions. It also comes in handy when plants are growing rapidly and require an online adaptation of the navigation algorithm. This work applies a segmentation-based visual agnostic navigation algorithm to lavender fields, considering both simulation and real-world scenarios. The effectiveness of this approach is validated through a wide set of experimental tests, which show the capability of the proposed solution to generalize over different scenarios and provide highly-reliable results.

Published
2023

9. Enhancing Navigation Benchmarking and Perception Data Generation for Row-based Crops in Simulation

Author

Martini, Mauro, Eirale, Andrea, Tuberga, Brenno, Ambrosio, Marco, Ostuni, Andrea, Messina, Francesco, Mazzara, Luigi, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Service robotics is recently enhancing precision agriculture enabling many automated processes based on efficient autonomous navigation solutions. However, data generation and infield validation campaigns hinder the progress of large-scale autonomous platforms. Simulated environments and deep visual perception are spreading as successful tools to speed up the development of robust navigation with low-cost RGB-D cameras. In this context, the contribution of this work is twofold: a synthetic dataset to train deep semantic segmentation networks together with a collection of virtual scenarios for a fast evaluation of navigation algorithms. Moreover, an automatic parametric approach is developed to explore different field geometries and features. The simulation framework and the dataset have been evaluated by training a deep segmentation network on different crops and benchmarking the resulting navigation., Comment: Accepted at the 14th European Conference on Precision Agriculture (ECPA) 2023

Published
2023

10. Autonomous Navigation in Rows of Trees and High Crops with Deep Semantic Segmentation

Author

Navone, Alessandro, Martini, Mauro, Ostuni, Andrea, Angarano, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics
Abstract

Segmentation-based autonomous navigation has recently been proposed as a promising methodology to guide robotic platforms through crop rows without requiring precise GPS localization. However, existing methods are limited to scenarios where the centre of the row can be identified thanks to the sharp distinction between the plants and the sky. However, GPS signal obstruction mainly occurs in the case of tall, dense vegetation, such as high tree rows and orchards. In this work, we extend the segmentation-based robotic guidance to those scenarios where canopies and branches occlude the sky and hinder the usage of GPS and previous methods, increasing the overall robustness and adaptability of the control algorithm. Extensive experimentation on several realistic simulated tree fields and vineyards demonstrates the competitive advantages of the proposed solution.

Published
2023
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11. Domain Generalization for Crop Segmentation with Standardized Ensemble Knowledge Distillation

Author

Angarano, Simone, Martini, Mauro, Navone, Alessandro, and Chiaberge, Marcello

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In recent years, precision agriculture has gradually oriented farming closer to automation processes to support all the activities related to field management. Service robotics plays a predominant role in this evolution by deploying autonomous agents that can navigate fields while performing tasks such as monitoring, spraying, and harvesting without human intervention. To execute these precise actions, mobile robots need a real-time perception system that understands their surroundings and identifies their targets in the wild. Existing methods, however, often fall short in generalizing to new crops and environmental conditions. This limit is critical for practical applications where labeled samples are rarely available. In this paper, we investigate the problem of crop segmentation and propose a novel approach to enhance domain generalization using knowledge distillation. In the proposed framework, we transfer knowledge from a standardized ensemble of models individually trained on source domains to a student model that can adapt to unseen realistic scenarios. To support the proposed method, we present a synthetic multi-domain dataset for crop segmentation containing plants of variegate species and covering different terrain styles, weather conditions, and light scenarios for more than 70,000 samples. We demonstrate significant improvements in performance over state-of-the-art methods and superior sim-to-real generalization. Our approach provides a promising solution for domain generalization in crop segmentation and has the potential to enhance a wide variety of agriculture applications.

Published
2023

12. Online Learning of Wheel Odometry Correction for Mobile Robots with Attention-based Neural Network

Author

Navone, Alessandro, Martini, Mauro, Angarano, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Modern robotic platforms need a reliable localization system to operate daily beside humans. Simple pose estimation algorithms based on filtered wheel and inertial odometry often fail in the presence of abrupt kinematic changes and wheel slips. Moreover, despite the recent success of visual odometry, service and assistive robotic tasks often present challenging environmental conditions where visual-based solutions fail due to poor lighting or repetitive feature patterns. In this work, we propose an innovative online learning approach for wheel odometry correction, paving the way for a robust multi-source localization system. An efficient attention-based neural network architecture has been studied to combine precise performances with real-time inference. The proposed solution shows remarkable results compared to a standard neural network and filter-based odometry correction algorithms. Nonetheless, the online learning paradigm avoids the time-consuming data collection procedure and can be adopted on a generic robotic platform on-the-fly.

Published
2023
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13. PIC4rl-gym: a ROS2 modular framework for Robots Autonomous Navigation with Deep Reinforcement Learning

Author

Martini, Mauro, Eirale, Andrea, Cerrato, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Learning agents can optimize standard autonomous navigation improving flexibility, efficiency, and computational cost of the system by adopting a wide variety of approaches. This work introduces the \textit{PIC4rl-gym}, a fundamental modular framework to enhance navigation and learning research by mixing ROS2 and Gazebo, the standard tools of the robotics community, with Deep Reinforcement Learning (DRL). The paper describes the whole structure of the PIC4rl-gym, which fully integrates DRL agent's training and testing in several indoor and outdoor navigation scenarios and tasks. A modular approach is adopted to easily customize the simulation by selecting new platforms, sensors, or models. We demonstrate the potential of our novel gym by benchmarking the resulting policies, trained for different navigation tasks, with a complete set of metrics.

Published
2022

14. Deep Instance Segmentation and Visual Servoing to Play Jenga with a Cost-Effective Robotic System

Author

Marchionna, Luca, Pugliese, Giulio, Martini, Mauro, Angarano, Simone, Salvetti, Francesco, and Chiaberge, Marcello

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

The game of Jenga represents an inspiring benchmark for developing innovative manipulation solutions for complex tasks. Indeed, it encouraged the study of novel robotics methods to successfully extract blocks from the tower. A Jenga game round undoubtedly embeds many traits of complex industrial or surgical manipulation tasks, requiring a multi-step strategy, the combination of visual and tactile data, and the highly precise motion of the robotic arm to perform a single block extraction. In this work, we propose a novel, cost-effective architecture for playing Jenga with e.Do, a 6-DOF anthropomorphic manipulator manufactured by Comau, a standard depth camera, and an inexpensive monodirectional force sensor. Our solution focuses on a visual-based control strategy to accurately align the end-effector with the desired block, enabling block extraction by pushing. To this aim, we train an instance segmentation deep learning model on a synthetic custom dataset to segment each piece of the Jenga tower, allowing visual tracking of the desired block's pose during the motion of the manipulator. We integrate the visual-based strategy with a 1D force sensor to detect whether the block can be safely removed by identifying a force threshold value. Our experimentation shows that our low-cost solution allows e.DO to precisely reach removable blocks and perform up to 14 consecutive extractions in a row.

Published
2022
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15. RL-DWA Omnidirectional Motion Planning for Person Following in Domestic Assistance and Monitoring

Author

Eirale, Andrea, Martini, Mauro, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Robot assistants are emerging as high-tech solutions to support people in everyday life. Following and assisting the user in the domestic environment requires flexible mobility to safely move in cluttered spaces. We introduce a new approach to person following for assistance and monitoring. Our methodology exploits an omnidirectional robotic platform to detach the computation of linear and angular velocities and navigate within the domestic environment without losing track of the assisted person. While linear velocities are managed by a conventional Dynamic Window Approach (DWA) local planner, we trained a Deep Reinforcement Learning (DRL) agent to predict optimized angular velocities commands and maintain the orientation of the robot towards the user. We evaluate our navigation system on a real omnidirectional platform in various indoor scenarios, demonstrating the competitive advantage of our solution compared to a standard differential steering following.

Published
2022

16. Generative Adversarial Super-Resolution at the Edge with Knowledge Distillation

Author

Angarano, Simone, Salvetti, Francesco, Martini, Mauro, and Chiaberge, Marcello

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

Single-Image Super-Resolution can support robotic tasks in environments where a reliable visual stream is required to monitor the mission, handle teleoperation or study relevant visual details. In this work, we propose an efficient Generative Adversarial Network model for real-time Super-Resolution, called EdgeSRGAN (code available at https://github.com/PIC4SeR/EdgeSRGAN). We adopt a tailored architecture of the original SRGAN and model quantization to boost the execution on CPU and Edge TPU devices, achieving up to 200 fps inference. We further optimize our model by distilling its knowledge to a smaller version of the network and obtain remarkable improvements compared to the standard training approach. Our experiments show that our fast and lightweight model preserves considerably satisfying image quality compared to heavier state-of-the-art models. Finally, we conduct experiments on image transmission with bandwidth degradation to highlight the advantages of the proposed system for mobile robotic applications.

Published
2022

17. Back-to-Bones: Rediscovering the Role of Backbones in Domain Generalization

Author

Angarano, Simone, Martini, Mauro, Salvetti, Francesco, Mazzia, Vittorio, and Chiaberge, Marcello

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Domain Generalization (DG) studies the capability of a deep learning model to generalize to out-of-training distributions. In the last decade, literature has been massively filled with training methodologies that claim to obtain more abstract and robust data representations to tackle domain shifts. Recent research has provided a reproducible benchmark for DG, pointing out the effectiveness of naive empirical risk minimization (ERM) over existing algorithms. Nevertheless, researchers persist in using the same outdated feature extractors, and no attention has been given to the effects of different backbones yet. In this paper, we start back to the backbones proposing a comprehensive analysis of their intrinsic generalization capabilities, which so far have been ignored by the research community. We evaluate a wide variety of feature extractors, from standard residual solutions to transformer-based architectures, finding an evident linear correlation between large-scale single-domain classification accuracy and DG capability. Our extensive experimentation shows that by adopting competitive backbones in conjunction with effective data augmentation, plain ERM outperforms recent DG solutions and achieves state-of-the-art accuracy. Moreover, our additional qualitative studies reveal that novel backbones give more similar representations to same-class samples, separating different domains in the feature space. This boost in generalization capabilities leaves marginal room for DG algorithms. It suggests a new paradigm for investigating the problem, placing backbones in the spotlight and encouraging the development of consistent algorithms on top of them. The code is available at https://github.com/PIC4SeR/Back-to-Bones.

Published
2022

18. Position-Agnostic Autonomous Navigation in Vineyards with Deep Reinforcement Learning

Author

Martini, Mauro, Cerrato, Simone, Salvetti, Francesco, Angarano, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Precision agriculture is rapidly attracting research to efficiently introduce automation and robotics solutions to support agricultural activities. Robotic navigation in vineyards and orchards offers competitive advantages in autonomously monitoring and easily accessing crops for harvesting, spraying and performing time-consuming necessary tasks. Nowadays, autonomous navigation algorithms exploit expensive sensors which also require heavy computational cost for data processing. Nonetheless, vineyard rows represent a challenging outdoor scenario where GPS and Visual Odometry techniques often struggle to provide reliable positioning information. In this work, we combine Edge AI with Deep Reinforcement Learning to propose a cutting-edge lightweight solution to tackle the problem of autonomous vineyard navigation without exploiting precise localization data and overcoming task-tailored algorithms with a flexible learning-based approach. We train an end-to-end sensorimotor agent which directly maps noisy depth images and position-agnostic robot state information to velocity commands and guides the robot to the end of a row, continuously adjusting its heading for a collision-free central trajectory. Our extensive experimentation in realistic simulated vineyards demonstrates the effectiveness of our solution and the generalization capabilities of our agent.

Published
2022
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19. Waypoint Generation in Row-based Crops with Deep Learning and Contrastive Clustering

Author

Salvetti, Francesco, Angarano, Simone, Martini, Mauro, Cerrato, Simone, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

The development of precision agriculture has gradually introduced automation in the agricultural process to support and rationalize all the activities related to field management. In particular, service robotics plays a predominant role in this evolution by deploying autonomous agents able to navigate in fields while executing different tasks without the need for human intervention, such as monitoring, spraying and harvesting. In this context, global path planning is the first necessary step for every robotic mission and ensures that the navigation is performed efficiently and with complete field coverage. In this paper, we propose a learning-based approach to tackle waypoint generation for planning a navigation path for row-based crops, starting from a top-view map of the region-of-interest. We present a novel methodology for waypoint clustering based on a contrastive loss, able to project the points to a separable latent space. The proposed deep neural network can simultaneously predict the waypoint position and cluster assignment with two specialized heads in a single forward pass. The extensive experimentation on simulated and real-world images demonstrates that the proposed approach effectively solves the waypoint generation problem for both straight and curved row-based crops, overcoming the limitations of previous state-of-the-art methodologies., Comment: Accepted at ECML PKDD 2022

Published
2022
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21. Marvin: an Innovative Omni-Directional Robotic Assistant for Domestic Environments

Author

Eirale, Andrea, Martini, Mauro, Tagliavini, Luigi, Gandini, Dario, Chiaberge, Marcello, and Quaglia, Giuseppe

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

Population ageing and pandemics recently demonstrate to cause isolation of elderly people in their houses, generating the need for a reliable assistive figure. Robotic assistants are the new frontier of innovation for domestic welfare, and elderly monitoring is one of the services a robot can handle for collective well-being. Despite these emerging needs, in the actual landscape of robotic assistants there are no platform which successfully combines a reliable mobility in cluttered domestic spaces, with lightweight and offline Artificial Intelligence (AI) solutions for perception and interaction. In this work, we present Marvin, a novel assistive robotic platform we developed with a modular layer-based architecture, merging a flexible mechanical design with cutting-edge AI for perception and vocal control. We focus the design of Marvin on three target service functions: monitoring of elderly and reduced-mobility subjects, remote presence and connectivity, and night assistance. Compared to previous works, we propose a tiny omnidirectional platform, which enables agile mobility and effective obstacle avoidance. Moreover, we design a controllable positioning device, which easily allows the user to access the interface for connectivity and extends the visual range of the camera sensor. Nonetheless, we delicately consider the privacy issues arising from private data collection on cloud services, a critical aspect of commercial AI-based assistants. To this end, we demonstrate how lightweight deep learning solutions for visual perception and vocal command can be adopted, completely running offline on the embedded hardware of the robot., Comment: 20 pages, 9 figures, 3 table

Published
2021
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22. A Deep Learning Driven Algorithmic Pipeline for Autonomous Navigation in Row-Based Crops

Author

Cerrato, Simone, Mazzia, Vittorio, Salvetti, Francesco, Martini, Mauro, Angarano, Simone, Navone, Alessandro, and Chiaberge, Marcello

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

Expensive sensors and inefficient algorithmic pipelines significantly affect the overall cost of autonomous machines. However, affordable robotic solutions are essential to practical usage, and their financial impact constitutes a fundamental requirement to employ service robotics in most fields of application. Among all, researchers in the precision agriculture domain strive to devise robust and cost-effective autonomous platforms in order to provide genuinely large-scale competitive solutions. In this article, we present a complete algorithmic pipeline for row-based crops autonomous navigation, specifically designed to cope with low-range sensors and seasonal variations. Firstly, we build on a robust data-driven methodology to generate a viable path for the autonomous machine, covering the full extension of the crop with only the occupancy grid map information of the field. Moreover, our solution leverages on latest advancement of deep learning optimization techniques and synthetic generation of data to provide an affordable solution that efficiently tackles the well-known Global Navigation Satellite System unreliability and degradation due to vegetation growing inside rows. Extensive experimentation and simulations against computer-generated environments and real-world crops demonstrated the robustness and intrinsic generalizability of our methodology that opens the possibility of highly affordable and fully autonomous machines., Comment: Submitted to Robotics and Autonomous Systems (Elsevier)

Published
2021

24. Domain-Adversarial Training of Self-Attention Based Networks for Land Cover Classification using Multi-temporal Sentinel-2 Satellite Imagery

Author

Martini, Mauro, Mazzia, Vittorio, Khaliq, Aleem, and Chiaberge, Marcello

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The increasing availability of large-scale remote sensing labeled data has prompted researchers to develop increasingly precise and accurate data-driven models for land cover and crop classification (LC&CC). Moreover, with the introduction of self-attention and introspection mechanisms, deep learning approaches have shown promising results in processing long temporal sequences in the multi-spectral domain with a contained computational request. Nevertheless, most practical applications cannot rely on labeled data, and in the field, surveys are a time consuming solution that poses strict limitations to the number of collected samples. Moreover, atmospheric conditions and specific geographical region characteristics constitute a relevant domain gap that does not allow direct applicability of a trained model on the available dataset to the area of interest. In this paper, we investigate adversarial training of deep neural networks to bridge the domain discrepancy between distinct geographical zones. In particular, we perform a thorough analysis of domain adaptation applied to challenging multi-spectral, multi-temporal data, accurately highlighting the advantages of adapting state-of-the-art self-attention based models for LC&CC to different target zones where labeled data are not available. Extensive experimentation demonstrated significant performance and generalization gain in applying domain-adversarial training to source and target regions with marked dissimilarities between the distribution of extracted features.

Published
2021
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25. Waypoint Generation in Row-Based Crops with Deep Learning and Contrastive Clustering

Author

Salvetti, Francesco, Angarano, Simone, Martini, Mauro, Cerrato, Simone, Chiaberge, Marcello, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Amini, Massih-Reza, editor, Canu, Stéphane, editor, Fischer, Asja, editor, Guns, Tias, editor, Kralj Novak, Petra, editor, and Tsoumakas, Grigorios, editor

Published
2023
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33. Domain Generalization for Crop Segmentation with Knowledge Distillation

Author

Angarano, Simone, Martini, Mauro, Navone, Alessandro, and Chiaberge, Marcello

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition, Machine Learning (cs.LG)
Abstract

In recent years, precision agriculture has gradually oriented farming closer to automation processes to support all the activities related to field management. Service robotics plays a predominant role in this evolution by deploying autonomous agents that can navigate fields while performing tasks without human intervention, such as monitoring, spraying, and harvesting. To execute these precise actions, mobile robots need a real-time perception system that understands their surroundings and identifies their targets in the wild. Generalizing to new crops and environmental conditions is critical for practical applications, as labeled samples are rarely available. In this paper, we investigate the problem of crop segmentation and propose a novel approach to enhance domain generalization using knowledge distillation. In the proposed framework, we transfer knowledge from an ensemble of models individually trained on source domains to a student model that can adapt to unseen target domains. To evaluate the proposed method, we present a synthetic multi-domain dataset for crop segmentation containing plants of variegate shapes and covering different terrain styles, weather conditions, and light scenarios for more than 50,000 samples. We demonstrate significant improvements in performance over state-of-the-art methods. Our approach provides a promising solution for domain generalization in crop segmentation and has the potential to enhance precision agriculture applications.

Published
2023
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35. The Marvin Project: an Omni-Directional Robot for Home Assistance

Author

Tagliavini, Luigi, Eirale, Andrea, Martini, Mauro, Gandini, Dario, Riccardo, Silvestri, Chiaberge, Marcello, and Quaglia, Giuseppe

Subjects
system design, vocal assistant, assistive mobile robotics, autonomous robotics, assistive mobile robotics, artificial intelligence, autonomous robotics, vocal assistant, system design, artificial intelligence
Abstract

In the last decades, many researchers are investigating how robotic solutions may be adopted to address the increasing need for home and personal assistance aggravated by current global challenges, e.g. population ageing and pandemic emergency. In this direction, the researchers at Politecnico di Torino, together with the colleagues from Edison S.p.A., developed the Marvin project which aims at designing a useful mobile robot for the domestic environment. In this work, the main features of the Marvin prototype and a first qualitative experimental validation are presented.

Published
2022
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40. EFFECT OF ORGANIC MATERIAL APPLICATION IN TWO SOILS OF THE 'VALE DO CAÍ' REGION, SOUTH BRAZIL.

Author

Paulo Silvestre, Wendel, Bonatto Vicenço, Camila, Martini, Mauro, and Fernandes Pauletti, Gabriel

Subjects
HUMUS, SANDY soils, SOILS, MECHANICAL properties of condensed matter, CHEMICAL properties
Abstract

Copyright of Revista Interdisciplinar Científica Aplicada is the property of Sociedade Educacional de Santa Catarina and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021

42. Passaporto per 'La Ronda'.

Author

Proguidis, Larki, Livi, Françoi, Galvan, Elisabeth, Fambrini, Alessandro, Vitale, Marina, Langella, Giuseppe, Gallego Roca, Miguel, Camboni, Marina, Barilli, Renato, Cambi, Fabrizio, Manghetti, Gloria, Gubert, Carla, Ferraro, Valeria, Locatelli, Carla, Martini, Mauro, Rocha, Clara, Safran, Serge., Rizzante, Massimo, Gubert, Carla., Langella, Giuseppe (ORCID:0000-0003-4085-3107), Proguidis, Larki, Livi, Françoi, Galvan, Elisabeth, Fambrini, Alessandro, Vitale, Marina, Langella, Giuseppe, Gallego Roca, Miguel, Camboni, Marina, Barilli, Renato, Cambi, Fabrizio, Manghetti, Gloria, Gubert, Carla, Ferraro, Valeria, Locatelli, Carla, Martini, Mauro, Rocha, Clara, Safran, Serge., Rizzante, Massimo, Gubert, Carla., and Langella, Giuseppe (ORCID:0000-0003-4085-3107)

Abstract

Contro l'opinione comune, che vorrebbe una "Ronda" tradizionalista e provinciale, si pongono in rilievo la modernità e il respiro europeo della rivista romana.

Published
2002

45. Characterization of silicon transducers with Si3N4sensing surfaces by an AFM and a PAB system

Author

Adami, Manuela, Alliata, Dario, Del Carlo, Corrado, Martini, Mauro, Piras, Luciana, Sartore, Marco, and Nicolini, Claudio

Abstract

Silicion nitride is normally used as a sensitive surface for silicon-based transducers like ISFETs or light-addressable potentiometric sensors (LAPS), because of its capability to sense preferentially H+ions. We have investigated Si/SiO2/Si3N4heterostructures and studied the surface layers via an atomic force microscope (AFM) and a PAB (potentiometric alternating biosensor) system; in particular, the latter method allows the investigation of the temporal behaviour after input pH steps. A suitable experimental set-up has been installed in order to optimize the pH changes in the measuring chamber; data have been acquired corresponding to unit pH steps. The resulting time constants are calculated and the data related to the surface layer images acquired by the AFM. A correlation between different observed responses and the corresponding surfaces characteristics has been established.

Published
1995
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47. Prevalence of the use of antidepressants in patients with venous thromboembolism

Author

Martini MD, Gregalio FA, Vázquez FJ, Posadas ML, Grande Ratti MF, and Pollán JA

Subjects
Humans, Prevalence, Retrospective Studies, Antidepressive Agents
Abstract

Objective: To estimate the prevalence of Antidepressant use in patients with a history of venous thromboembolism (VTE). Describe the patient's characteristics and which drugs are the most prescribed., Methods: A cross-sectional study involving a consecutive sample of patients included in the Registro de Enfermedad Tromboembólica (RIET) from the Hospital Italiano de Buenos Aires in a period between 01/01/2014 to 01/09/2018. All patients presented symptomatic VTE and confirmed diagnosis. Drugs considered included in this study were: Selective Serotonin Reuptake Inhibitors (SSRI), Dopamine and Norepinephrine Reuptake Inhibitors (NDRI), Serotonin and Norepinephrine Reuptake Inhibitors (SNRI) and Tricyclic antidepressants (TCA)., Results: From a total of 2373 patients with VTE, 472 were active users of antidepressants, showing a prevalence of antidepressant use of 19.9% (CI 95%). The most frequently prescribed drugs by drug classification were: SSRI 83.9%, TCA 20.5%, ISRN 14.6%, and NDRI 2.5%. Patients presented a median age of 76 years, predominantly women (71.4%), with several comorbidities: 52.24% arterial hypertension, 37.29% overweight, and 34.75% history of smoking. Concerning relevant history, we observed: 29.03% active oncologic disease, 26.27% major surgery before the VTE, and 21.61% previous VTE., Conclusion: The prevalence of antidepressant use in patients with VTE is 19.9%, superior by far to that of the general population. Depression is a major cause of morbidity worldwide, and its prevalence is increasing over the years., Competing Interests: The authors have no conflicts of interest to declare, (CC BY NC ND)

Published
2023
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