2025
Artificial Intelligence–Guided Lung Ultrasound by Nonexperts
Baloescu C, Bailitz J, Cheema B, Agarwala R, Jankowski M, Eke O, Liu R, Nomura J, Stolz L, Gargani L, Alkan E, Wellman T, Parajuli N, Marra A, Thomas Y, Patel D, Schraft E, O’Brien J, Moore C, Gottlieb M. Artificial Intelligence–Guided Lung Ultrasound by Nonexperts. JAMA Cardiology 2025, 10: 245-253. PMID: 39813064, PMCID: PMC11904735, DOI: 10.1001/jamacardio.2024.4991.Peer-Reviewed Original ResearchThis study shows AI helps non-experts create expert-quality lung ultrasound images, which may improve healthcare diagnostics access in underserved areas.
2021
Why We Should Build Robots That Both Teach and Learn
Adamson T, Ghose D, Yasuda S, Shepard L, Lewkowicz M, Duan J, Scassellati B. Why We Should Build Robots That Both Teach and Learn. 2021, 187-196. DOI: 10.1145/3434073.3444647.Peer-Reviewed Original Research
2020
BrainIAK tutorials: User-friendly learning materials for advanced fMRI analysis
Kumar M, Ellis CT, Lu Q, Zhang H, Capotă M, Willke TL, Ramadge PJ, Turk-Browne NB, Norman KA. BrainIAK tutorials: User-friendly learning materials for advanced fMRI analysis. PLOS Computational Biology 2020, 16: e1007549. PMID: 31940340, PMCID: PMC6961866, DOI: 10.1371/journal.pcbi.1007549.Peer-Reviewed Original ResearchConceptsOpen-source Python software packageHigh-performance computing clusterNew programming languageOpen source softwareMachine-learning methodsPython software packageHigh-dimensional fMRI dataComputing clusterFile handlingMachine learningProgramming languageNovice usersDifferent softwareLarge memoryPython packageCustom codeSoftware packageSteep learning curveAdvanced toolsEfficient techniqueMarkov modelEvent segmentationReal-time fMRIAnalysis packageSoftware
2013
Improving Implicit Communication In Mixed Human-Robot Teams With Social Force Detection
Hayes B, Scassellati B. Improving Implicit Communication In Mixed Human-Robot Teams With Social Force Detection. 2013, 1-7. DOI: 10.1109/devlrn.2013.6652573.Peer-Reviewed Original ResearchMixed human-robot teamsHuman-robot teamsCollaborative construction taskCooperative robot systemMachine learning approachRobot behaviorHuman usersHuman peersNovice usersTask executionRobotic systemImplicit communicationLearning approachPlanning subsystemFeatures flexibilityUsersHallmarks of developmentDevelopment systemConstruction tasksExecutive subsystemTaskEffective learningForce detectionNoviceRobot
1993
Augmenting GRATEFUL MED with the UMLS Metathesaurus: an initial evaluation.
Jachna J, Powsner S, Miller P. Augmenting GRATEFUL MED with the UMLS Metathesaurus: an initial evaluation. Journal Of The Medical Library Association 1993, 81: 20-8. PMID: 8428185, PMCID: PMC225723.Peer-Reviewed Original ResearchConceptsGrateful MedIntelligent solutionsNovice usersInexperienced usersEffective searchLexical mismatchesUMLS MetathesaurusBibliographic retrievalOnline bibliographic databasesUsersComputer literacyTest setTyping errorsCitation retrievalIndexing termsThesaurusRetrievalSearch strategyOngoing projectSearchBibliographic databasesMetathesaurusToolDatabaseSet
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply