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1. Semantic Masking and Visual Feature Matching for Robust Localization

Author

Mao, Luisa, Soussan, Ryan, Coltin, Brian, Smith, Trey, and Biswas, Joydeep

Subjects
Computer Science - Robotics
Abstract

We are interested in long-term deployments of autonomous robots to aid astronauts with maintenance and monitoring operations in settings such as the International Space Station. Unfortunately, such environments tend to be highly dynamic and unstructured, and their frequent reconfiguration poses a challenge for robust long-term localization of robots. Many state-of-the-art visual feature-based localization algorithms are not robust towards spatial scene changes, and SLAM algorithms, while promising, cannot run within the low-compute budget available to space robots. To address this gap, we present a computationally efficient semantic masking approach for visual feature matching that improves the accuracy and robustness of visual localization systems during long-term deployment in changing environments. Our method introduces a lightweight check that enforces matches to be within long-term static objects and have consistent semantic classes. We evaluate this approach using both map-based relocalization and relative pose estimation and show that it improves Absolute Trajectory Error (ATE) and correct match ratios on the publicly available Astrobee dataset. While this approach was originally developed for microgravity robotic freeflyers, it can be applied to any visual feature matching pipeline to improve robustness., Comment: 7 pages

Published
2024

2. Air-Ground Collaboration with SPOMP: Semantic Panoramic Online Mapping and Planning

Author

Miller, Ian D., Cladera, Fernando, Smith, Trey, Taylor, Camillo Jose, and Kumar, Vijay

Subjects
Computer Science - Robotics
Abstract

Mapping and navigation have gone hand-in-hand since long before robots existed. Maps are a key form of communication, allowing someone who has never been somewhere to nonetheless navigate that area successfully. In the context of multi-robot systems, the maps and information that flow between robots are necessary for effective collaboration, whether those robots are operating concurrently, sequentially, or completely asynchronously. In this paper, we argue that maps must go beyond encoding purely geometric or visual information to enable increasingly complex autonomy, particularly between robots. We propose a framework for multi-robot autonomy, focusing in particular on air and ground robots operating in outdoor 2.5D environments. We show that semantic maps can enable the specification, planning, and execution of complex collaborative missions, including localization in GPS-denied settings. A distinguishing characteristic of this work is that we strongly emphasize field experiments and testing, and by doing so demonstrate that these ideas can work at scale in the real world. We also perform extensive simulation experiments to validate our ideas at even larger scales. We believe these experiments and the experimental results constitute a significant step forward toward advancing the state-of-the-art of large-scale, collaborative multi-robot systems operating with real communication, navigation, and perception constraints., Comment: Video: https://www.youtube.com/watch?v=ieNYH40buBo

Published
2024
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3. Unsupervised Change Detection for Space Habitats Using 3D Point Clouds

Author

Santos, Jamie, Dinkel, Holly, Di, Julia, Borges, Paulo V. K., Moreira, Marina, Alexandrov, Oleg, Coltin, Brian, and Smith, Trey

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

This work presents an algorithm for scene change detection from point clouds to enable autonomous robotic caretaking in future space habitats. Autonomous robotic systems will help maintain future deep-space habitats, such as the Gateway space station, which will be uncrewed for extended periods. Existing scene analysis software used on the International Space Station (ISS) relies on manually-labeled images for detecting changes. In contrast, the algorithm presented in this work uses raw, unlabeled point clouds as inputs. The algorithm first applies modified Expectation-Maximization Gaussian Mixture Model (GMM) clustering to two input point clouds. It then performs change detection by comparing the GMMs using the Earth Mover's Distance. The algorithm is validated quantitatively and qualitatively using a test dataset collected by an Astrobee robot in the NASA Ames Granite Lab comprising single frame depth images taken directly by Astrobee and full-scene reconstructed maps built with RGB-D and pose data from Astrobee. The runtimes of the approach are also analyzed in depth. The source code is publicly released to promote further development., Comment: 15 pages, 7 figures, Manuscript was presented at the AIAA SciTech Forum in Orlando, FL, USA, 8 - 12 January 2024. Video presentation: [https://www.youtube.com/watch?v=7WHp0dQYG4Y]. Code: [https://github.com/nasa/isaac/tree/master/anomaly/gmm-change-detection]

Published
2023
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4. Multi-Agent 3D Map Reconstruction and Change Detection in Microgravity with Free-Flying Robots

Author

Dinkel, Holly, Di, Julia, Santos, Jamie, Albee, Keenan, Borges, Paulo, Moreira, Marina, Alexandrov, Oleg, Coltin, Brian, and Smith, Trey

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

Assistive free-flyer robots autonomously caring for future crewed outposts -- such as NASA's Astrobee robots on the International Space Station (ISS) -- must be able to detect day-to-day interior changes to track inventory, detect and diagnose faults, and monitor the outpost status. This work presents a framework for multi-agent cooperative mapping and change detection to enable robotic maintenance of space outposts. One agent is used to reconstruct a 3D model of the environment from sequences of images and corresponding depth information. Another agent is used to periodically scan the environment for inconsistencies against the 3D model. Change detection is validated after completing the surveys using real image and pose data collected by Astrobee robots in a ground testing environment and from microgravity aboard the ISS. This work outlines the objectives, requirements, and algorithmic modules for the multi-agent reconstruction system, including recommendations for its use by assistive free-flyers aboard future microgravity outposts., Comment: 11 pages, 8 figures, Manuscript presented at the 74th International Astronautical Congress, IAC 2023, Baku, Azerbaijan, 2 - 6 October 2023. Video presentation: [https://www.youtube.com/watch?v=VfjV-zwFEtU]. Code: [https://github.com/hollydinkel/astrobeecd]

Published
2023
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5. An Investigation of Multi-feature Extraction and Super-resolution with Fast Microphone Arrays

Author

Chang, Eric T., Wang, Runsheng, Ballentine, Peter, Xu, Jingxi, Smith, Trey, Coltin, Brian, Kymissis, Ioannis, and Ciocarlie, Matei

Subjects
Computer Science - Robotics
Abstract

In this work, we use MEMS microphones as vibration sensors to simultaneously classify texture and estimate contact position and velocity. Vibration sensors are an important facet of both human and robotic tactile sensing, providing fast detection of contact and onset of slip. Microphones are an attractive option for implementing vibration sensing as they offer a fast response and can be sampled quickly, are affordable, and occupy a very small footprint. Our prototype sensor uses only a sparse array (8-9 mm spacing) of distributed MEMS microphones (<$1, 3.76 x 2.95 x 1.10 mm) embedded under an elastomer. We use transformer-based architectures for data analysis, taking advantage of the microphones' high sampling rate to run our models on time-series data as opposed to individual snapshots. This approach allows us to obtain 77.3% average accuracy on 4-class texture classification (84.2% when excluding the slowest drag velocity), 1.8 mm mean error on contact localization, and 5.6 mm/s mean error on contact velocity. We show that the learned texture and localization models are robust to varying velocity and generalize to unseen velocities. We also report that our sensor provides fast contact detection, an important advantage of fast transducers. This investigation illustrates the capabilities one can achieve with a MEMS microphone array alone, leaving valuable sensor real estate available for integration with complementary tactile sensing modalities., Comment: 6 pages, 4 figures, accepted to 2024 IEEE International Conference on Robotics and Automation (ICRA)

Published
2023

6. Stronger Together: Air-Ground Robotic Collaboration Using Semantics

Author

Miller, Ian D., Cladera, Fernando, Smith, Trey, Taylor, Camillo Jose, and Kumar, Vijay

Subjects
Computer Science - Robotics
Abstract

In this work, we present an end-to-end heterogeneous multi-robot system framework where ground robots are able to localize, plan, and navigate in a semantic map created in real time by a high-altitude quadrotor. The ground robots choose and deconflict their targets independently, without any external intervention. Moreover, they perform cross-view localization by matching their local maps with the overhead map using semantics. The communication backbone is opportunistic and distributed, allowing the entire system to operate with no external infrastructure aside from GPS for the quadrotor. We extensively tested our system by performing different missions on top of our framework over multiple experiments in different environments. Our ground robots travelled over 6 km autonomously with minimal intervention in the real world and over 96 km in simulation without interventions., Comment: Sumbitted to RA-L and IROS

Published
2022

7. Any Way You Look At It: Semantic Crossview Localization and Mapping with LiDAR

Author

Miller, Ian D., Cowley, Anthony, Konkimalla, Ravi, Shivakumar, Shreyas S., Nguyen, Ty, Smith, Trey, Taylor, Camillo Jose, and Kumar, Vijay

Subjects
Computer Science - Robotics
Abstract

Currently, GPS is by far the most popular global localization method. However, it is not always reliable or accurate in all environments. SLAM methods enable local state estimation but provide no means of registering the local map to a global one, which can be important for inter-robot collaboration or human interaction. In this work, we present a real-time method for utilizing semantics to globally localize a robot using only egocentric 3D semantically labelled LiDAR and IMU as well as top-down RGB images obtained from satellites or aerial robots. Additionally, as it runs, our method builds a globally registered, semantic map of the environment. We validate our method on KITTI as well as our own challenging datasets, and show better than 10 meter accuracy, a high degree of robustness, and the ability to estimate the scale of a top-down map on the fly if it is initially unknown., Comment: Published in the IEEE Robotics and Automation Letters and presented at the IEEE 2021 International Conference on Robotics and Automation. See https://www.youtube.com/watch?v=_qwAoYK9iGU for accompanying video

Published
2022
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10. Heuristic Search Value Iteration for POMDPs

Author

Smith, Trey and Simmons, Reid

Subjects
Computer Science - Artificial Intelligence
Abstract

We present a novel POMDP planning algorithm called heuristic search value iteration (HSVI).HSVI is an anytime algorithm that returns a policy and a provable bound on its regret with respect to the optimal policy. HSVI gets its power by combining two well-known techniques: attention-focusing search heuristics and piecewise linear convex representations of the value function. HSVI's soundness and convergence have been proven. On some benchmark problems from the literature, HSVI displays speedups of greater than 100 with respect to other state-of-the-art POMDP value iteration algorithms. We also apply HSVI to a new rover exploration problem 10 times larger than most POMDP problems in the literature., Comment: Appears in Proceedings of the Twentieth Conference on Uncertainty in Artificial Intelligence (UAI2004)

Published
2012

11. Point-Based POMDP Algorithms: Improved Analysis and Implementation

Author

Smith, Trey and Simmons, Reid

Subjects
Computer Science - Artificial Intelligence
Abstract

Existing complexity bounds for point-based POMDP value iteration algorithms focus either on the curse of dimensionality or the curse of history. We derive a new bound that relies on both and uses the concept of discounted reachability; our conclusions may help guide future algorithm design. We also discuss recent improvements to our (point-based) heuristic search value iteration algorithm. Our new implementation calculates tighter initial bounds, avoids solving linear programs, and makes more effective use of sparsity., Comment: Appears in Proceedings of the Twenty-First Conference on Uncertainty in Artificial Intelligence (UAI2005)

Published
2012

12. Cronobacter sakazakii Infections in Two Infants Linked to Powdered Infant Formula and Breast Pump Equipment--United States, 2021 and 2022

Author

Haston, Julia C., Miko, Shanna, Cope, Jennifer R., McKeel, Haley, Walters, Cynney, Joseph, Lavin A., Griswold, Taylor, Katz, Lee S., Andujar, Ashley A., Tourdot, Laura, Rounds, Joshua, Vagnone, Paula, Medus, Carlota, Harris, JoAnn, Geist, Robert, Neises, Daniel, Wiggington, Ashley, Smith, Trey, Im, Monica S., Wheeler, Courtney, Smith, Peyton, Carleton, Heather A., and Lee, Christine C.

Subjects
Infant formulas, Infection, Control equipment, Food contamination, Health
Abstract

Cronobacter sakazakii, a species of gram-negative bacteria belonging to the Enterobacteriaceae family, is known to cause severe and often fatal meningitis and sepsis in young infants. C. sakazakii is ubiquitous [...]

Published
2023

13. Problems and Solutions

Author

Mombelli, Juan Martin, Mackiw, George, Schmidt, Frank, Beran, David, Andreoli, Michael, Wardlaw, William P., Lewis, Kathleen E., Pan, Yi-Chuan, Doucette, Robert L., Diminnie, Charles R., Smith, Trey, Marquez, Juan-Bosco Romero, Fukuta, Jiro, Donini, Daniele, Stone, A. P., and Burgermeister, P. F.

Published
1998
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18. AAAI 2008 workshop reports

Author

Anand, Sarabjot Singh, Bunescu, Razvan, Carvalho, Vitor, Chomicki, Jan, Conitzer, Vincent, Cox, Michael T., Dignum, Virginia, Dodds, Zachary, Dredze, Mark, Furcy, David, Gabrilovich, Evgeniy, Goker, Mehmet H., Guesgen, Hans, Hirsh, Haym, Jannach, Dietmar, Junker, Ulrich, Ketter, Wolfgang, Kobsa, Alfred, Koenig, Sven, Lau, Tessa, Lewis, Lundy, Matson, Eric, Metzler, Ted, Mihalcea, Rada, Mobasher, Bamshad, Pineau, Joelle, Poupart, Pascal, Raja, Anita, Rural, Wheeler, Sadeh, Norman, Shani, Guy, Shapiro, Daniel, Smith, Trey, Taylor, Matthew E., Wagstaff, Kiri, Walsh, William, and Zhou, Rong

Subjects
Artificial intelligence, Wikipedia (Reference work), Artificial intelligence -- Conferences, meetings and seminars
Abstract

The Workshop on Advancements in POMDP Solvers brought together active researchers in the area of solving partially observable Markov decision processes (POMDPs). Participants discussed various approaches to solving POMDPs, and […], AAAI was pleased to present the AAAI-08 Workshop Program, held Sunday and Monday, July 13-14, in Chicago, Illinois, USA. The program included the following 15 workshops: Advancements in POMDP Solvers; AI Education Workshop Colloquium; Coordination, Organizations, Institutions, and Norms in Agent Systems, Enhanced Messaging; Human Implications of Human-Robot Interaction; Intelligent Techniques for Web Personalization and Recommender Systems; Metareasoning: Thinking about Thinking; Multidisciplinary Workshop on Advances in Preference Handling; Search in Artificial Intelligence and Robotics; Spatial and Temporal Reasoning; Trading Agent Design and Analysis; Transfer Learning for Complex Tasks; What Went Wrong and Why: Lessons from AI Research and Applications; and Wikipedia and Artificial Intelligence: An Evolving Synergy.

Published
2009

20. Cronobacter sakazakii Infections in Two Infants Linked to Powdered Infant Formula and Breast Pump Equipment - United States, 2021 and 2022.

Author

Haston JC, Miko S, Cope JR, McKeel H, Walters C, Joseph LA, Griswold T, Katz LS, Andújar AA, Tourdot L, Rounds J, Vagnone P, Medus C, Harris J, Geist R, Neises D, Wiggington A, Smith T, Im MS, Wheeler C, Smith P, Carleton HA, and Lee CC

Subjects
Female, Infant, Humans, Infant Formula, Enterobacteriaceae, Milk, Human, Powders, Cronobacter sakazakii genetics, Enterobacteriaceae Infections diagnosis
Abstract

Cronobacter sakazakii, a species of gram-negative bacteria belonging to the Enterobacteriaceae family, is known to cause severe and often fatal meningitis and sepsis in young infants. C. sakazakii is ubiquitous in the environment, and most reported infant cases have been attributed to contaminated powdered infant formula (powdered formula) or breast milk that was expressed using contaminated breast pump equipment (1-3). Previous investigations of cases and outbreaks have identified C. sakazakii in opened powdered formula, breast pump parts, environmental surfaces in the home, and, rarely, in unopened powdered formula and formula manufacturing facilities (2,4-6). This report describes two infants with C. sakazakii meningitis reported to CDC in September 2021 and February 2022. CDC used whole genome sequencing (WGS) analysis to link one case to contaminated opened powdered formula from the patient's home and the other to contaminated breast pump equipment. These cases highlight the importance of expanding awareness about C. sakazakii infections in infants, safe preparation and storage of powdered formula, proper cleaning and sanitizing of breast pump equipment, and using WGS as a tool for C. sakazakii investigations., Competing Interests: All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. No potential conflicts of interest were disclosed.

Published
2023
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