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PUBMED FOR HANDHELDS

Journal Abstract Search


595 related items for PubMed ID: 23156621

  • 1. Highly automated driving, secondary task performance, and driver state.
    Merat N, Jamson AH, Lai FC, Carsten O.
    Hum Factors; 2012 Oct; 54(5):762-71. PubMed ID: 23156621
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  • 4. Fatigue and voluntary utilization of automation in simulated driving.
    Neubauer C, Matthews G, Langheim L, Saxby D.
    Hum Factors; 2012 Oct; 54(5):734-46. PubMed ID: 23156619
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  • 5. Control task substitution in semiautomated driving: does it matter what aspects are automated?
    Carsten O, Lai FC, Barnard Y, Jamson AH, Merat N.
    Hum Factors; 2012 Oct; 54(5):747-61. PubMed ID: 23156620
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  • 7. In a heart beat: Using driver's physiological changes to determine the quality of a takeover in highly automated vehicles.
    Alrefaie MT, Summerskill S, Jackon TW.
    Accid Anal Prev; 2019 Oct; 131():180-190. PubMed ID: 31302486
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  • 8. Takeover Time in Highly Automated Vehicles: Noncritical Transitions to and From Manual Control.
    Eriksson A, Stanton NA.
    Hum Factors; 2017 Jun; 59(4):689-705. PubMed ID: 28124573
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  • 9. Performance of an Additional Task During Level 2 Automated Driving: An On-Road Study Comparing Drivers With and Without Experience With Partial Automation.
    Solís-Marcos I, Ahlström C, Kircher K.
    Hum Factors; 2018 Sep; 60(6):778-792. PubMed ID: 29791201
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  • 10. From partial and high automation to manual driving: Relationship between non-driving related tasks, drowsiness and take-over performance.
    Naujoks F, Höfling S, Purucker C, Zeeb K.
    Accid Anal Prev; 2018 Dec; 121():28-42. PubMed ID: 30205284
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  • 11. Effects of scheduled manual driving on drowsiness and response to take over request: A simulator study towards understanding drivers in automated driving.
    Wu Y, Kihara K, Takeda Y, Sato T, Akamatsu M, Kitazaki S.
    Accid Anal Prev; 2019 Mar; 124():202-209. PubMed ID: 30665055
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  • 12. Effective cues for accelerating young drivers' time to transfer control following a period of conditional automation.
    Wright TJ, Agrawal R, Samuel S, Wang Y, Zilberstein S, Fisher DL.
    Accid Anal Prev; 2018 Jul; 116():14-20. PubMed ID: 29031513
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  • 13. On the impact of on-road partially-automated driving on drivers' cognitive workload and attention allocation.
    Biondi FN, Jajo N.
    Accid Anal Prev; 2024 Jun; 200():107537. PubMed ID: 38471237
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  • 14. Effects of conversation on situation awareness and working memory in simulated driving.
    Heenan A, Herdman CM, Brown MS, Robert N.
    Hum Factors; 2014 Sep; 56(6):1077-92. PubMed ID: 25277018
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  • 15. Effects of Task-Induced Fatigue in Prolonged Conditional Automated Driving.
    Jarosch O, Bellem H, Bengler K.
    Hum Factors; 2019 Nov; 61(7):1186-1199. PubMed ID: 30657711
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  • 16. The role of self-regulation in the context of driver distraction: A simulator study.
    Wandtner B, Schumacher M, Schmidt EA.
    Traffic Inj Prev; 2016 Jul 03; 17(5):472-9. PubMed ID: 27082493
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  • 17. Understanding take-over performance of high crash risk drivers during conditionally automated driving.
    Lin Q, Li S, Ma X, Lu G.
    Accid Anal Prev; 2020 Aug 03; 143():105543. PubMed ID: 32485431
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  • 18. Transition to manual: Comparing simulator with on-road control transitions.
    Eriksson A, Banks VA, Stanton NA.
    Accid Anal Prev; 2017 May 03; 102():227-234. PubMed ID: 28342410
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  • 19. Age-related differences in effects of non-driving related tasks on takeover performance in automated driving.
    Wu Y, Kihara K, Hasegawa K, Takeda Y, Sato T, Akamatsu M, Kitazaki S.
    J Safety Res; 2020 Feb 03; 72():231-238. PubMed ID: 32199568
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  • 20. Coming back into the loop: Drivers' perceptual-motor performance in critical events after automated driving.
    Louw T, Markkula G, Boer E, Madigan R, Carsten O, Merat N.
    Accid Anal Prev; 2017 Nov 03; 108():9-18. PubMed ID: 28837837
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