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352 results on '"Carpin, Stefano"'

1. Solving Stochastic Orienteering Problems with Chance Constraints Using a GNN Powered Monte Carlo Tree Search

Author

Zuzuárregui, Marcos Abel and Carpin, Stefano

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

Leveraging the power of a graph neural network (GNN) with message passing, we present a Monte Carlo Tree Search (MCTS) method to solve stochastic orienteering problems with chance constraints. While adhering to an assigned travel budget the algorithm seeks to maximize collected reward while incurring stochastic travel costs. In this context, the acceptable probability of exceeding the assigned budget is expressed as a chance constraint. Our MCTS solution is an online and anytime algorithm alternating planning and execution that determines the next vertex to visit by continuously monitoring the remaining travel budget. The novelty of our work is that the rollout phase in the MCTS framework is implemented using a message passing GNN, predicting both the utility and failure probability of each available action. This allows to enormously expedite the search process. Our experimental evaluation shows that with the proposed method and architecture we manage to efficiently solve complex problem instances while incurring in moderate losses in terms of collected reward. Moreover, we demonstrate how the approach is capable of generalizing beyond the characteristics of the training dataset. The paper's website, open-source code, and supplementary documentation can be found at ucmercedrobotics.github.io/gnn-sop., Comment: 8 pages, 6 figures

Published
2024

2. Solving Stochastic Orienteering Problems with Chance Constraints Using Monte Carlo Tree Search

Author

Carpin, Stefano

Subjects
Computer Science - Robotics
Abstract

We present a new Monte Carlo Tree Search (MCTS) algorithm to solve the stochastic orienteering problem with chance constraints, i.e., a version of the problem where travel costs are random, and one is assigned a bound on the tolerable probability of exceeding the budget. The algorithm we present is online and anytime, i.e., it alternates planning and execution, and the quality of the solution it produces increases as the allowed computational time increases. Differently from most former MCTS algorithms, for each action available in a state the algorithm maintains estimates of both its value and the probability that its execution will eventually result in a violation of the chance constraint. Then, at action selection time, our proposed solution prunes away trajectories that are estimated to violate the failure probability. Extensive simulation results show that this approach can quickly produce high-quality solutions and is competitive with the optimal but time-consuming solution., Comment: Paper to appear on the IEEE Transactions on Automation Science and Engineering

Published
2024

3. Distributed Multi-robot Online Sampling with Budget Constraints

Author

Shamshirgaran, Azin, Manjanna, Sandeep, and Carpin, Stefano

Subjects
Computer Science - Robotics
Abstract

In multi-robot informative path planning the problem is to find a route for each robot in a team to visit a set of locations that can provide the most useful data to reconstruct an unknown scalar field. In the budgeted version, each robot is subject to a travel budget limiting the distance it can travel. Our interest in this problem is motivated by applications in precision agriculture, where robots are used to collect measurements to estimate domain-relevant scalar parameters such as soil moisture or nitrates concentrations. In this paper, we propose an online, distributed multi-robot sampling algorithm based on Monte Carlo Tree Search (MCTS) where each robot iteratively selects the next sampling location through communication with other robots and considering its remaining budget. We evaluate our proposed method for varying team sizes and in different environments, and we compare our solution with four different baseline methods. Our experiments show that our solution outperforms the baselines when the budget is tight by collecting measurements leading to smaller reconstruction errors., Comment: Published at ICRA 2024

Published
2024

4. Improving the ROS 2 Navigation Stack with Real-Time Local Costmap Updates for Agricultural Applications

Author

Sani, Ettore, Sgorbissa, Antonio, and Carpin, Stefano

Subjects
Computer Science - Robotics
Abstract

The ROS 2 Navigation Stack (Nav2) has emerged as a widely used software component providing the underlying basis to develop a variety of high-level functionalities. However, when used in outdoor environments such as orchards and vineyards, its functionality is notably limited by the presence of obstacles and/or situations not commonly found in indoor settings. One such example is given by tall grass and weeds that can be safely traversed by a robot, but that can be perceived as obstacles by LiDAR sensors, and then force the robot to take longer paths to avoid them, or abort navigation altogether. To overcome these limitations, domain specific extensions must be developed and integrated into the software pipeline. This paper presents a new, lightweight approach to address this challenge and improve outdoor robot navigation. Leveraging the multi-scale nature of the costmaps supporting Nav2, we developed a system that using a depth camera performs pixel level classification on the images, and in real time injects corrections into the local cost map, thus enabling the robot to traverse areas that would otherwise be avoided by the Nav2. Our approach has been implemented and validated on a Clearpath Husky and we demonstrate that with this extension the robot is able to perform navigation tasks that would be otherwise not practical with the standard components., Comment: Published at ICRA 2024

Published
2024

5. Informative path planning for scalar dynamic reconstruction using coregionalized Gaussian processes and a spatiotemporal kernel

Author

Booth, Lorenzo and Carpin, Stefano

Subjects
Computer Science - Robotics
Abstract

The proliferation of unmanned vehicles offers many opportunities for solving environmental sampling tasks with applications in resource monitoring and precision agriculture. Informative path planning (IPP) includes a family of methods which offer improvements over traditional surveying techniques for suggesting locations for observation collection. In this work, we present a novel solution to the IPP problem by using a coregionalized Gaussian processes to estimate a dynamic scalar field that varies in space and time. Our method improves previous approaches by using a composite kernel accounting for spatiotemporal correlations and at the same time, can be readily incorporated in existing IPP algorithms. Through extensive simulations, we show that our novel modeling approach leads to more accurate estimations when compared with formerly proposed methods that do not account for the temporal dimension., Comment: Accepted to IROS 2023

Published
2023

6. Distributed Estimation of Scalar Fields with Implicit Coordination

Author

Booth, Lorenzo, Carpin, Stefano, 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, Bourgeois, Julien, editor, Paik, Jamie, editor, Piranda, Benoît, editor, Werfel, Justin, editor, Hauert, Sabine, editor, Pierson, Alyssa, editor, Hamann, Heiko, editor, Lam, Tin Lun, editor, Matsuno, Fumitoshi, editor, Mehr, Negar, editor, and Makhoul, Abdallah, editor

Published
2024
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8. Simulating Polyculture Farming to Learn Automation Policies for Plant Diversity and Precision Irrigation

Author

Avigal, Yahav, Wong, William, Presten, Mark, Theis, Mark, Aeron, Shrey, Deza, Anna, Sharma, Satvik, Parikh, Rishi, Oehme, Sebastian, Carpin, Stefano, Viers, Joshua H, Vougioukas, Stavros, and Goldberg, Ken Y

Subjects
Zero Hunger, Irrigation, Plants, Mathematical models, Automation, Adaptation models, Water resources, Robots, Agriculture, automation, learning control systems, modeling, simulation, Electrical and Electronic Engineering, Manufacturing Engineering, Mechanical Engineering, Industrial Engineering & Automation
Published
2022

9. Speeding up Routing Schedules on Aisle Graphs With Single Access

Author

Sorbelli, Francesco Betti, Carpin, Stefano, Cor, Federico, Das, Sajal K, Navarra, Alfredo, and Pinotti, Cristina M

Subjects
Control Engineering, Mechatronics and Robotics, Engineering, Robots, Approximation algorithms, Task analysis, Pipelines, Sensors, Routing, Robot kinematics, Orienteering problem, routing, submodularity, Artificial Intelligence and Image Processing, Electrical and Electronic Engineering, Mechanical Engineering, Industrial Engineering & Automation, Control engineering, mechatronics and robotics
Published
2022

10. Speeding up Routing Schedules on Aisle-Graphs with Single Access

Author

Sorbelli, Francesco Betti, Carpin, Stefano, Coro, Federico, Das, Sajal K., Navarra, Alfredo, and Pinotti, Cristina M.

Subjects
Computer Science - Robotics, Computer Science - Data Structures and Algorithms
Abstract

In this paper, we study the Orienteering Aisle-graphs Single-access Problem (OASP), a variant of the orienteering problem for a robot moving in a so-called single-access aisle-graph, i.e., a graph consisting of a set of rows that can be accessed from one side only. Aisle-graphs model, among others, vineyards or warehouses. Each aisle-graph vertex is associated with a reward that a robot obtains when visits the vertex itself. As the robot's energy is limited, only a subset of vertices can be visited with a fully charged battery. The objective is to maximize the total reward collected by the robot with a battery charge. We first propose an optimal algorithm that solves OASP in O(m^2 n^2) time for aisle-graphs with a single access consisting of m rows, each with n vertices. With the goal of designing faster solutions, we propose four greedy sub-optimal algorithms that run in at most O(mn (m+n)) time. For two of them, we guarantee an approximation ratio of 1/2(1-1/e), where e is the base of the natural logarithm, on the total reward by exploiting the well-known submodularity property. Experimentally, we show that these algorithms collect more than 80% of the optimal reward., Comment: re-submitted revised version to IEEE Transactions on Robotics (T-RO) after a conditionally accepted response

Published
2021

11. Task Planning on Stochastic Aisle Graphs for Precision Agriculture

Author

Kan, Xinyue, Thayer, Thomas C., Carpin, Stefano, and Karydis, Konstantinos

Subjects
Computer Science - Robotics
Abstract

This work addresses task planning under uncertainty for precision agriculture applications whereby task costs are uncertain and the gain of completing a task is proportional to resource consumption (such as water consumption in precision irrigation). The goal is to complete all tasks while prioritizing those that are more urgent, and subject to diverse budget thresholds and stochastic costs for tasks. To describe agriculture-related environments that incorporate stochastic costs to complete tasks, a new Stochastic-Vertex-Cost Aisle Graph (SAG) is introduced. Then, a task allocation algorithm, termed Next-Best-Action Planning (NBA-P), is proposed. NBA-P utilizes the underlying structure enabled by SAG, and tackles the task planning problem by simultaneously determining the optimal tasks to perform and an optimal time to exit (i.e. return to a base station), at run-time. The proposed approach is tested with both simulated data and real-world experimental datasets collected in a commercial vineyard, in both single- and multi-robot scenarios. In all cases, NBA-P outperforms other evaluated methods in terms of return per visited vertex, wasted resources resulting from aborted tasks (i.e. when a budget threshold is exceeded), and total visited vertices., Comment: To appear in Robotics and Automation Letters

Published
2021

15. Optimal Routing Schedules for Robots Operating in Aisle-Structures

Author

Sorbelli, Francesco Betti, Carpin, Stefano, Corò, Federico, Navarra, Alfredo, and Pinotti, Cristina M.

Subjects
Computer Science - Data Structures and Algorithms, Computer Science - Robotics
Abstract

In this paper, we consider the Constant-cost Orienteering Problem (COP) where a robot, constrained by a limited travel budget, aims at selecting a path with the largest reward in an aisle-graph. The aisle-graph consists of a set of loosely connected rows where the robot can change lane only at either end, but not in the middle. Even when considering this special type of graphs, the orienteering problem is known to be NP-hard. We optimally solve in polynomial time two special cases, COP-FR where the robot can only traverse full rows, and COP-SC where the robot can access the rows only from one side. To solve the general COP, we then apply our special case algorithms as well as a new heuristic that suitably combines them. Despite its light computational complexity and being confined into a very limited class of paths, the optimal solutions for COP-FR turn out to be competitive even for COP in both real and synthetic scenarios. Furthermore, our new heuristic for the general case outperforms state-of-art algorithms, especially for input with highly unbalanced rewards.

Published
2019

16. Multirobot Routing Algorithms for Robots Operating in Vineyards

Author

Thayer, Thomas C, Vougioukas, Stavros, Goldberg, Ken, and Carpin, Stefano

Subjects
Robot kinematics, Irrigation, Routing, Robot sensing systems, Approximation algorithms, Multiagent coordination, precision agriculture, team orienteering, Electrical and Electronic Engineering, Manufacturing Engineering, Mechanical Engineering, Industrial Engineering & Automation
Abstract

We consider the problem of multirobot routing in vineyards, a task motivated by our ongoing project aiming at creating a corobotic system to implement precision irrigation on large-scale commercial vineyards. The problem is related to a combinatorial optimization problem on graphs called 'team orienteering.' Team orienteering is known to be NP-hard, thus motivating the development of heuristic solutions that can scale to large problem instances. We propose three different parameter-free approaches informed by the domain we consider and compare them against a general purpose heuristic developed previously. In numerous benchmarks derived from data gathered in a commercial vineyard, we demonstrate that our solutions outperform the general purpose heuristic and are scalable, thus allowing us to solve instances with tens of thousands of vertices in the graphs. Note to Practitioners-Routing problems with budget and motion constraints are pervasive to many applications. In particular, the structural constraints considered in this problem are found not only in agricultural environments but also in warehouse logistics and other domains where goods are arranged along regular linear structures. This article proposes and analyzes algorithms that can be applied when multiple agents must be coordinated in these environments. In particular, by utilizing domain-specific knowledge, the solutions proposed in this article outperform general purpose approaches that poorly scale with the size of the environment. The algorithms we present also ensure that no collisions occur between robots-an aspect normally neglected in algorithms previously proposed to solve the team orienteering problem.

Published
2020

18. Coordinated Search With Multiple Robots Arranged in Line Formations

Author

Kolling, Andreas, Kleiner, Alexander, and Carpin, Stefano

Subjects
Autonomous systems, mobile robots, multi-robot systems, planning, Artificial Intelligence and Image Processing, Electrical and Electronic Engineering, Mechanical Engineering, Industrial Engineering & Automation
Published
2018

19. Planning using hierarchical constrained Markov decision processes

Author

Feyzabadi, Seyedshams and Carpin, Stefano

Subjects
Constrained Markov decision processes, Planning, Uncertainty, Artificial Intelligence and Image Processing, Mechanical Engineering, Cognitive Sciences, Industrial Engineering & Automation
Published
2017

20. Balancing Unpredictability and Coverage in Adversarial Patrolling Settings

Author

Basilico, Nicola, Carpin, Stefano, 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, Morales, Marco, editor, Tapia, Lydia, editor, Sánchez-Ante, Gildardo, editor, and Hutchinson, Seth, editor

Published
2020
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21. Multi-Fingered Robotic Grasping: A Primer

Author

Carpin, Stefano, Liu, Shuo, Falco, Joe, and Van Wyk, Karl

Subjects
Computer Science - Robotics
Abstract

This technical report presents an introduction to different aspects of multi-fingered robot grasping. After having introduced relevant mathematical background for modeling, form and force closure are discussed. Next, we present an overview of various grasp planning algorithms with the objective of illustrating different approaches to solve this problem. Finally, we discuss grasp performance benchmarking.

Published
2016

22. Risk Aversion in Finite Markov Decision Processes Using Total Cost Criteria and Average Value at Risk

Author

Carpin, Stefano, Chow, Yin-Lam, and Pavone, Marco

Subjects
Mathematics - Optimization and Control
Abstract

In this paper we present an algorithm to compute risk averse policies in Markov Decision Processes (MDP) when the total cost criterion is used together with the average value at risk (AVaR) metric. Risk averse policies are needed when large deviations from the expected behavior may have detrimental effects, and conventional MDP algorithms usually ignore this aspect. We provide conditions for the structure of the underlying MDP ensuring that approximations for the exact problem can be derived and solved efficiently. Our findings are novel inasmuch as average value at risk has not previously been considered in association with the total cost criterion. Our method is demonstrated in a rapid deployment scenario, whereby a robot is tasked with the objective of reaching a target location within a temporal deadline where increased speed is associated with increased probability of failure. We demonstrate that the proposed algorithm not only produces a risk averse policy reducing the probability of exceeding the expected temporal deadline, but also provides the statistical distribution of costs, thus offering a valuable analysis tool.

Published
2016

24. Trading Safety Versus Performance: Rapid Deployment of Robotic Swarms with Robust Performance Constraints

Author

Chow, Yin-Lam, Pavone, Marco, Sadler, Brian M., and Carpin, Stefano

Subjects
Computer Science - Robotics, Mathematics - Optimization and Control
Abstract

In this paper we consider a stochastic deployment problem, where a robotic swarm is tasked with the objective of positioning at least one robot at each of a set of pre-assigned targets while meeting a temporal deadline. Travel times and failure rates are stochastic but related, inasmuch as failure rates increase with speed. To maximize chances of success while meeting the deadline, a control strategy has therefore to balance safety and performance. Our approach is to cast the problem within the theory of constrained Markov Decision Processes, whereby we seek to compute policies that maximize the probability of successful deployment while ensuring that the expected duration of the task is bounded by a given deadline. To account for uncertainties in the problem parameters, we consider a robust formulation and we propose efficient solution algorithms, which are of independent interest. Numerical experiments confirming our theoretical results are presented and discussed.

Published
2015

25. Motion Planning with Safety Constraints and High-Level Task Specifications

Author

Feyzabadi, Seyedshams and Carpin, Stefano

Subjects
Computer Science - Robotics
Abstract

We present a method to solve planning problems involving sequential decision making in unpredictable environments while accomplishing a high level task specification expressed using the formalism of linear temporal logic. Our method improves the state of the art by introducing a pruning step that preserves correctness while significantly reducing the time needed to compute an optimal policy. Our theoretical contribution is coupled with simulations substantiating the value of the proposed method.

Published
2015

28. Real-time WiFi localization of heterogeneous robot teams using an online random forest

Author

Benjamin, Balaguer, Erinc, Gorkem, and Carpin, Stefano

Subjects
Localization, Multi-robot systems, WiFi, Machine learning, Artificial Intelligence and Image Processing, Mechanical Engineering, Cognitive Sciences, Industrial Engineering & Automation
Abstract

In this paper we present a WiFi-based solution to the localization and mapping problem for teams of heterogeneous robots operating in unknown environments. By exploiting wireless signal strengths broadcast from access points, a robot with a large sensor payload creates a WiFi signal map that can then be shared and utilized for localization by sensor-deprived robots. In our approach, WiFi localization is cast as a classification problem. An online clustering algorithm processes incoming WiFi signals that are then incorporated into an online random forest (ORF). The algorithm’s robustness is increased by a Monte Carlo localization algorithm whose sensor model exploits the results of the ORF classification. The proposed algorithm is shown to run in real-time, allowing the robots to operate in completely unknown environments, where a priori information such as a blue-print or the access points’ location is unavailable. A comprehensive set of experiments not only compares our approach with other algorithms, but also validates the results across different scenarios covering both indoor and outdoor environments.

Published
2015

31. Evaluating maps produced by urban search and rescue robots: lessons learned from RoboCup

Author

Balaguer, Benjamin, Balakirsky, Stephen, Carpin, Stefano, and Visser, Arnoud

Subjects
Computer Science, Simulation and Modeling, Mechanical Engineering, Computer Imaging, Vision, Pattern Recognition and Graphics, Electrical Engineering, Control , Robotics, Mechatronics, Artificial Intelligence (incl. Robotics), Urban search and rescue, Multi-robot systems, Simultaneous localization and mapping, RoboCup, Robot benchmarking
Abstract

This paper presents the map evaluation methodology developed for the Virtual Robots Rescue competition held as part of RoboCup. The procedure aims to evaluate the quality of maps produced by multi-robot systems with respect to a number of factors, including usability, exploration, annotation and other aspects relevant to robots and first responders. In addition to the design choices, we illustrate practical examples of maps and scores coming from the latest RoboCup contest, outlining strengths and weaknesses of our modus operandi. We also show how a benchmarking methodology developed for a simulation testbed effortlessly and faithfully transfers to maps built by a real robot. A number of conclusions may be derived from the experience reported in this paper and a thorough discussion is offered.

Published
2009

35. Robotic Assessment of a Crop’s Need for Watering: Automating a Time-Consuming Task to Support Sustainable Agriculture

Author

Dechemi, Amel, Chatziparaschis, Dimitrios, Chen, Joshua, Campbell, Merrick, Shamshirgaran, Azin, Mucchiani, Caio, Roy-Chowdhury, Amit, Carpin, Stefano, and Karydis, Konstantinos

Abstract

Agricultural robotics and automation technology plays an increasingly critical role across several crop production stages to improve sustainability (e.g., water use optimization). Robotics has been applied for remote and proximal sensing as well as physical sampling. The procedure of physical sampling and follow-on analysis of plant specimens, such as leaves or shoots, which is the focus of this work, often constitutes the only accurate way to measure some essential parameters that affect crop production, such as stem water potential (SWP), which helps determine a crop’s need for watering.

Published
2023
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40. High Fidelity Tools for Rescue Robotics: Results and Perspectives

Author

Carpin, Stefano, Wang, Jijun, Lewis, Michael, Birk, Andreas, Jacoff, Adam, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Carbonell, Jaime G., editor, Siekmann, Jörg, editor, Bredenfeld, Ansgar, editor, Jacoff, Adam, editor, Noda, Itsuki, editor, and Takahashi, Yasutake, editor

Published
2006
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41. Stochastic Map Merging in Rescue Environments

Author

Carpin, Stefano, Birk, Andreas, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Carbonell, Jaime G., editor, Siekmann, Jörg, editor, Nardi, Daniele, editor, Riedmiller, Martin, editor, Sammut, Claude, editor, and Santos-Victor, José, editor

Published
2005
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48. A Framework for Trust-Based Task Assignment in Cooperative Teams of Robots

Author

Grillo, Alberto, Recchiuto, Carmine, Carpin, Stefano, and Sgorbissa, Antonio

Subjects
Robot-Robot Interaction, Social Robotics, Task Assignment, Trust
Abstract

In the last decade, the concept of trust and its dynamics has received considerable attention in robotics research. This is particularly true in the field of human-robot interaction, where several different factors, ranging from the user expec- tations of the robot capabilities to the physical appearance of the robot, has been defined as strongly affecting trust. On the contrary, the study of trust dynamics between robotic agents needs to be explored further. Starting from this premise, this work proposes a framework in which different robotic agents can model the concept of trust they have in each other for the accomplishment of a given task. Preliminary experiments performed with real robots (two Pepper robots and one NAO by SoftBank Robotics) provides a proof-of-concept for broader utilization of the system in cooperative robotic scenarios.

Published
2021
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