Search

Your search keyword '"Bobadilla, Leonardo"' showing total 222 results
Start Over Author "Bobadilla, Leonardo"
222 results on '"Bobadilla, Leonardo"'

1. Enhancing Robot Navigation Policies with Task-Specific Uncertainty Management

Author

Puthumanaillam, Gokul, Padrao, Paulo, Fuentes, Jose, Bobadilla, Leonardo, and Ornik, Melkior

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

Robots performing navigation tasks in complex environments face significant challenges due to uncertainty in state estimation. Effectively managing this uncertainty is crucial, but the optimal approach varies depending on the specific details of the task: different tasks require varying levels of precision in different regions of the environment. For instance, a robot navigating a crowded space might need precise localization near obstacles but can operate effectively with less precise state estimates in open areas. This varying need for certainty in different parts of the environment, depending on the task, calls for policies that can adapt their uncertainty management strategies based on task-specific requirements. In this paper, we present a framework for integrating task-specific uncertainty requirements directly into navigation policies. We introduce Task-Specific Uncertainty Map (TSUM), which represents acceptable levels of state estimation uncertainty across different regions of the operating environment for a given task. Using TSUM, we propose Generalized Uncertainty Integration for Decision-Making and Execution (GUIDE), a policy conditioning framework that incorporates these uncertainty requirements into the robot's decision-making process. We find that conditioning policies on TSUMs provides an effective way to express task-specific uncertainty requirements and enables the robot to reason about the context-dependent value of certainty. We show how integrating GUIDE into reinforcement learning frameworks allows the agent to learn navigation policies without the need for explicit reward engineering to balance task completion and uncertainty management. We evaluate GUIDE on a variety of real-world navigation tasks and find that it demonstrates significant improvements in task completion rates compared to baselines. Evaluation videos can be found at https://guided-agents.github.io.

Published
2024

2. Towards Optimal Human-Robot Interface Design Applied to Underwater Robotics Teleoperation

Author

Padrao, Paulo, Fuentes, Jose, Kaarlela, Tero, Bayuelo, Alfredo, and Bobadilla, Leonardo

Subjects
Computer Science - Robotics, Computer Science - Human-Computer Interaction
Abstract

Efficient and intuitive Human-Robot interfaces are crucial for expanding the user base of operators and enabling new applications in critical areas such as precision agriculture, automated construction, rehabilitation, and environmental monitoring. In this paper, we investigate the design of human-robot interfaces for the teleoperation of dynamical systems. The proposed framework seeks to find an optimal interface that complies with key concepts such as user comfort, efficiency, continuity, and consistency. As a proof-of-concept, we introduce an innovative approach to teleoperating underwater vehicles, allowing the translation between human body movements into vehicle control commands. This method eliminates the need for divers to work in harsh underwater environments while taking into account comfort and communication constraints. We conducted a study with human subjects using a head-mounted display attached to a smartphone to control a simulated ROV. Also, numerical experiments have demonstrated that the optimal translation is often the most intuitive and natural one, aligning with users' expectations.

Published
2023

4. Feedback Motion Planning for Long-Range Autonomous Underwater Vehicles

Author

Orioke, Opeyemi S., Alam, Tauhidul, Quinn, Joseph, Kaur, Ramneek, Alsabban, Wesam H., Bobadilla, Leonardo, and Smith, Ryan N.

Subjects
Computer Science - Robotics
Abstract

Ocean ecosystems have spatiotemporal variability and dynamic complexity that require a long-term deployment of an autonomous underwater vehicle for data collection. A new long-range autonomous underwater vehicle called Tethys is adapted to study different oceanic phenomena. Additionally, an ocean environment has external forces and moments along with changing water currents which are generally not considered in a vehicle kinematic model. In this scenario, it is not enough to generate a simple trajectory from an initial location to a goal location in an uncertain ocean as the vehicle can deviate from its intended trajectory. As such, we propose to compute a feedback plan that adapts the vehicle trajectory in the presence of any modeled or unmodeled uncertainties. In this work, we present a feedback motion planning method for the Tethys vehicle by combining a predictive ocean model and its kinematic modeling. Given a goal location, the Tethys kinematic model, and the water flow pattern, our method computes a feedback plan for the vehicle in a dynamic ocean environment that reduces its energy consumption. The computed feedback plan provides the optimal action for the Tethys vehicle to take from any location of the environment to reach the goal location considering its orientation. Our results based on actual ocean model prediction data demonstrate the applicability of our method., Comment: IEEE/MTS OCEANS-Marseille 2019

Published
2019

5. Strengthening the Case for a Bayesian Approach to Car-following Model Calibration and Validation using Probabilistic Programming

Author

Abodo, Franklin, Berthaume, Andrew, Zitzow-Childs, Stephen, and Bobadilla, Leonardo

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

Compute and memory constraints have historically prevented traffic simulation software users from fully utilizing the predictive models underlying them. When calibrating car-following models, particularly, accommodations have included 1) using sensitivity analysis to limit the number of parameters to be calibrated, and 2) identifying only one set of parameter values using data collected from multiple car-following instances across multiple drivers. Shortcuts are further motivated by insufficient data set sizes, for which a driver may have too few instances to fully account for the variation in their driving behavior. In this paper, we demonstrate that recent technological advances can enable transportation researchers and engineers to overcome these constraints and produce calibration results that 1) outperform industry standard approaches, and 2) allow for a unique set of parameters to be estimated for each driver in a data set, even given a small amount of data. We propose a novel calibration procedure for car-following models based on Bayesian machine learning and probabilistic programming, and apply it to real-world data from a naturalistic driving study. We also discuss how this combination of mathematical and software tools can offer additional benefits such as more informative model validation and the incorporation of true-to-data uncertainty into simulation traces., Comment: IEEE 22nd Intelligent Transportation Systems Conference, ITSC 2019, 2 figures, 1 table

Published
2019

10. An Underactuated Vehicle Localization Method in Marine Environments

Author

Alam, Tauhidul, Reis, Gregory Murad, Bobadilla, Leonardo, and Smith, Ryan N.

Subjects
Computer Science - Robotics
Abstract

The underactuated vehicles are apposite for the long-term deployment and data collection in spatiotemporally varying marine environments. However, these vehicles need to estimate their positions (states) with intrinsic sensing in their long-term trajectories. In previous studies, autonomous underwater vehicles have commonly used vision and range sensors for autonomous state estimation. Inspired by the intrinsic sensing and the persistent deployment, we investigate the localization problem (state estimation) for an inexpensive and underactuated drifting vehicle called a drifter. In this paper, we present a localization method for the drifter making use of the observations of a proprioceptive sensor, i.e., compass. We create the water flow pattern within a given region from ocean model predictions, develop a stochastic motion model, and analyze the persistent water flow behavior. Given a distribution of initial deployment states of the drifter at a particular depth of the water column within the region and the water flow pattern, our method finds attractors and their transient groups at the given depth as the persistent behavior of the water flow. A most-likely localized trajectory of the drifter for a sequence of compass observations is generated based on the persistent behavior of the water flow and hidden Markov model. Our simulation results based on data from ocean model predictions substantiate good performance of our proposed localization method with a low error rate of the state estimation in the long-term trajectory of the drifter., Comment: IEEE/MTS OCEANS-Charleston 2018

Published
2018

11. Optimal Placement and Patrolling of Autonomous Vehicles in Visibility-Based Robot Networks

Author

Rahman, Md Mahbubur, Abodo, Franklin, Bobadilla, Leonardo, and Rapp, Brian

Subjects
Computer Science - Robotics
Abstract

In communication-denied or contested environments, Line-of-Sight (LoS) communication (e.g free space optical communication using infrared or visible light) becomes one of the most reliable and efficient ways to send information between geographically scattered mobile units. In this paper, we consider the problem of planning optimal locations and trajectories for a group of autonomous vehicles to see a set of units that are dispersed in an environment with obstacles. The contributions of the paper are the following: 1) We propose centralized and distributed algorithms to verify that the vehicles and units form a connected network through LoS; 2) We present an algorithm that can maintain visibility-based connectivity, if possible, by relocating a single vehicle; and 3) We study the computational, Comment: Submitted in Robotics and Autonomous Systems

Published
2017

29. Screening for Disinhibited Disorder Cases in a College Population: Performance of the SMAST, DAST, SCID-II-Q, and PDQ-4

Author

Taylor, Jeanette, James, Lisa M., and Bobadilla, Leonardo

Abstract

Psychiatric disorders characterized by disinhibition--substance use disorders, antisocial personality disorder (PD), and borderline PD--represent a serious risk to the safety and health of college students. The ability of researchers and clinicians to identify students most at risk for disinhibited disorders associated with campus crime, violence, and self-harm depends on measures with strong evidence of diagnostic efficiency, yet data on the diagnostic efficiency of screening measures in college populations are lacking. The authors addressed this need by examining the diagnostic efficiency of commonly used screening measures for disinhibited disorders in a sample of 2,085 students, 79 of whom also completed diagnostic interviews. Results suggest that the diagnostic efficiency (e.g., sensitivity, specificity) of screening measures for substance use disorders and antisocial PD in college samples can be increased by making simple adjustments in screening cutoff criteria. Similar adjustments did not increase the diagnostic efficiency of the screening measure for borderline PD, and this suggested that certain screeners may best be aimed at ruling out disorders. This type of information offers users flexibility with which to tailor the screening threshold to serve different objectives. (Contains 3 tables and 3 footnotes.)

Published
2008
Full Text
View/download PDF

30. Suicidality in African American Men: The Roles of Southern Residence, Religiosity, and Social Support

Author

Wingate, LaRicka R., Bobadilla, Leonardo, Burns, Andrea B., Cukrowicz, Kelly C., Hernandez, Annya, Ketterman, Rita L., Minnix, Jennifer, Petty, Scharles, Richey, J. Anthony, Sachs-Ericsson, Natalie, Stanley, Sheila, Williams, Foluso M., and Joiner, Thomas E.

Abstract

The rise in suicide by African Americans in the United States is directly attributable to the dramatic, nearly three-fold increase in suicide rates of African American males. Gibbs (1997) hypothesized high social support, religiosity, and southern residence are protective factors against suicidality for Black people. This hypothesis was tested among 5,125 participants from the National Comorbidity Survey; 299 were African American males. In this study we hypothesized that there would be significantly lower suicidality in the South, and social support and religiosity would mediate this relationship. Our results indicate that Southern region is indeed a significant predictor of suicidal symptoms in African American men, such that suicidal symptoms were lower in the South, but religiosity and social support did not account for this effect. Other potential mediators were also examined.

Published
2005
Full Text
View/download PDF

36. Digital Twins Utilizing XR-Technology as Robotic Training Tools.

Author

Kaarlela, Tero, Padrao, Paulo, Pitkäaho, Tomi, Pieskä, Sakari, and Bobadilla, Leonardo

Subjects
DIGITAL twins, SOCIAL media, DIGITAL technology, VIRTUAL reality, ROBOTICS, INTERNET forums, INTERNET searching
Abstract

Digital technology has evolved towards a new way of processing information: web searches, social platforms, internet forums, and video games have substituted reading books and writing essays. Trainers and educators currently face the challenge of providing natural training and learning environments for digital-natives. In addition to physical spaces, effective training and education require virtual spaces. Digital twins enable trainees to interact with real hardware in virtual training environments. Interactive real-world elements are essential in the training of robot operators. A natural environment for the trainee supports an interesting learning experience while including enough professional substances. We present examples of how virtual environments utilizing digital twins and extended reality can be applied to enable natural and effective robotic training scenarios. Scenarios are validated using cross-platform client devices for extended reality implementations and safety training applications. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

42. Relation of physiological reactivity and perceived coping to substance use disorders

Author

Bobadilla, Leonardo and Taylor, Jeanette

Subjects
Health, Sociology and social work
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.addbeh.2006.06.006 Byline: Leonardo Bobadilla, Jeanette Taylor Keywords: Alcohol; Drugs; Coping; Skin conductance Abstract: We examined the interaction between a form of subjective emotional reactivity (perceived coping) and physiological reactivity in relation to risk for substance use disorders. Skin conductance responses to unpredictable white noise blasts were collected from 110 men and women who also rated their perceived coping to the blasts and underwent semi-structured interviews to assess psychiatric symptoms. Reported inability to cope in conjunction with low skin conductance reactivity were related to higher symptom counts of alcohol and cannabis use disorders as well as antisocial personality disorder symptoms. The findings highlight the potential importance of the interface between cognitive/emotional and physiological processes as they relate to risk for substance use disorders and perhaps other externalizing disorders. Author Affiliation: The Department of Psychology at Florida State University, Tallahassee, FL 32306-1270, USA

Published
2007

43. Social anxiety and problematic cannabis use: Evaluating the moderating role of stress reactivity and perceived coping

Author

Buckner, Julia D., Schmidt, Norman B., Bobadilla, Leonardo, and Taylor, Jeanette

Subjects
Anxiety -- Analysis, Marijuana -- Evaluation, Marijuana -- Analysis, Psychology and mental health
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.brat.2005.08.002 Byline: Julia D. Buckner, Norman B. Schmidt, Leonardo Bobadilla, Jeanette Taylor Keywords: Social anxiety disorder; Marijuana; Substance use disorder; Coping; Stress Abstract: Despite epidemiological reports indicating an association between social anxiety disorder (SAD) and cannabis use disorders (CUD), there is a paucity of research exploring the nature of this relationship. The present investigation examined potential moderators of this relationship that are consistent with a tension-reduction model of addiction. Specifically, physiological reactivity to stress and perceived coping with stress were evaluated as moderators of the relation between symptoms of SAD and CUD. Physiological (SCR) and subjective (perceived coping) responses to unpredictable white noise bursts were collected from non-clinical participants (n=123). Lifetime symptoms of CUD and anxiety disorders were assessed using a structured diagnostic interview. CUD symptomatology was associated with symptoms of SAD but not with symptoms of any other anxiety disorder. Only perceived coping to unpredictable stimuli moderated the relationship between SAD and CUD symptoms. Findings are discussed in the context of tension-reduction models of co-occurring social anxiety and problematic cannabis use. Author Affiliation: Department of Psychology, Florida State University, Tallahassee, FL 32306, USA Article History: Received 15 March 2005; Revised 8 July 2005; Accepted 3 August 2005

Published
2006

Catalog

Books, media, physical & digital resources
See catalog results