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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

646 related items for PubMed ID: 19084225

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  • 4. A telepresence mobile robot controlled with a noninvasive brain-computer interface.
    Escolano C, Antelis JM, Minguez J.
    IEEE Trans Syst Man Cybern B Cybern; 2012 Jun; 42(3):793-804. PubMed ID: 22180512
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  • 5. An infrastructure for realizing custom-tailored augmented reality user interfaces.
    Broll W, Lindt I, Ohlenburg J, Herbst I, Wittkämper M, Novotny T.
    IEEE Trans Vis Comput Graph; 2005 Jun; 11(6):722-33. PubMed ID: 16270864
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  • 6. Motor-model-based dynamic scaling in human-computer interfaces.
    Muñoz LM, Casals A, Frigola M, Amat J.
    IEEE Trans Syst Man Cybern B Cybern; 2011 Apr; 41(2):435-47. PubMed ID: 21411399
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  • 10. Multihierarchical interactive task planning: application to mobile robotics.
    Galindo C, Fernández-Madrigal JA, González J.
    IEEE Trans Syst Man Cybern B Cybern; 2008 Jun; 38(3):785-98. PubMed ID: 18558542
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  • 14. Human voluntary activity integration in the control of a standing-up rehabilitation robot: a simulation study.
    Kamnik R, Bajd T.
    Med Eng Phys; 2007 Nov; 29(9):1019-29. PubMed ID: 17098459
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  • 16. The muscle activation method: an approach to impedance control of brain-machine interfaces through a musculoskeletal model of the arm.
    Kim HK, Carmena JM, Biggs SJ, Hanson TL, Nicolelis MA, Srinivasan MA.
    IEEE Trans Biomed Eng; 2007 Aug; 54(8):1520-9. PubMed ID: 17694874
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  • 19. Goal-recognition-based adaptive brain-computer interface for navigating immersive robotic systems.
    Abu-Alqumsan M, Ebert F, Peer A.
    J Neural Eng; 2017 Jun; 14(3):036024. PubMed ID: 28294109
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  • 20. Generalized sampling-based motion planners.
    Chakravorty S, Kumar S.
    IEEE Trans Syst Man Cybern B Cybern; 2011 Jun; 41(3):855-66. PubMed ID: 21278023
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