15.3.8.1 Driver Assistance, Intervention, Take Over Analysis, Performance

Kim, H.J., Yang, J.H.,
Takeover Requests in Simulated Partially Autonomous Vehicles Considering Human Factors,
HMS(47), No. 5, October 2017, pp. 735-740.
IEEE DOI 1709
Automobiles, Autonomous vehicles, Human factors, Mathematical model, Timing, Trajectory, Autonomous levels, autonomous vehicle, driver behavior, driver reaction time, human factor, human-in-the-loop, takeover, request, (TOR) BibRef

Wan, J., Wu, C.,
The Effects of Lead Time of Take-Over Request and Nondriving Tasks on Taking-Over Control of Automated Vehicles,
HMS(48), No. 6, December 2018, pp. 582-591.
IEEE DOI 1812
driver information systems, mobile robots, optimisation, road safety, road traffic control, road vehicles, response time BibRef

Li, S.[Shuo], Blythe, P.[Phil], Guo, W.H.[Wei-Hong], Namdeo, A.[Anil],
Investigation of older driver's takeover performance in highly automated vehicles in adverse weather conditions,
IET-ITS(12), No. 9, November 2018, pp. 1157-1165.
DOI Link 1810
BibRef

Bourrelly, A.[Aurore], de Naurois, C.J.[Charlotte Jacobé], Zran, A.[Asmae], Rampillon, F.[Felicie], Vercher, J.L.[Jean-Louis], Bourdin, C.[Christophe],
Long automated driving phase affects take-over performance,
IET-ITS(13), No. 8, August 2019, pp. 1249-1255.
DOI Link 1908
BibRef

Wang, J., Söffker, D.,
Bridging Gaps Among Human, Assisted, and Automated Driving With DVIs: A Conceptional Experimental Study,
ITS(20), No. 6, June 2019, pp. 2096-2108.
IEEE DOI 1906
Task analysis, Autonomous vehicles, Brakes, Vehicle dynamics, Visualization, Accidents, DVI, autonomous driving, takeover request, non-driving-related task BibRef

Schinkel, W.S., van der Sande, T.P.J., Nijmeijer, H.,
Driver Intervention Detection via Real-Time Transfer Function Estimation,
ITS(22), No. 2, February 2021, pp. 772-781.
IEEE DOI 2102
Vehicles, Wheels, Steering systems, Sensors, Vehicle dynamics, Safety, Torque, Autonomous vehicles, driver intervention, driver take-over, vehicle measurements BibRef

Zhou, H.P.[Hui-Ping], Itoh, M.[Makoto], Kitazaki, S.[Satoshi],
How Does Explanation-Based Knowledge Influence Driver Take-Over in Conditional Driving Automation?,
HMS(51), No. 3, June 2021, pp. 188-197.
IEEE DOI 2106
Vehicles, Automation, Task analysis, Vehicle dynamics, Decision making, Process control, Man-machine systems, system limitations BibRef

Ayoub, J.[Jackie], Du, N.[Na], Yang, X.J.[X. Jessie], Zhou, F.[Feng],
Predicting Driver Takeover Time in Conditionally Automated Driving,
ITS(23), No. 7, July 2022, pp. 9580-9589.
IEEE DOI 2207
Vehicles, Predictive models, Visualization, Computational modeling, Load modeling, Automation, Prediction algorithms, explainable machine learning models BibRef

Borowsky, A.[Avinoam], Zangi, N.[Noa], Oron-Gilad, T.[Tal],
Interruption Management in the Context of Take-Over-Requests in Conditional Driving Automation,
HMS(52), No. 5, October 2022, pp. 1015-1024.
IEEE DOI 2209
Vehicles, Task analysis, Games, Roads, Automation, Switches, Hazards, Autonomous driving, conditional automation, transfer of control BibRef

Zhang, Y.T.[Yang-Tao], Yang, X.J.[X. Jessie], Zhou, F.[Feng],
Disengagement Cause-and-Effect Relationships Extraction Using an NLP Pipeline,
ITS(23), No. 11, November 2022, pp. 21430-21439.
IEEE DOI 2212
Causes of human take-over of control. Vehicles, Pipelines, Task analysis, Autonomous vehicles, Automation, Testing, Safety, Autonomous vehicles, disengagement, deep transfer learning BibRef

Liu, Q.C.[Qing-Chao], Liu, J.Q.[Jia-Qi], Cai, Y.F.[Ying-Feng], Chen, L.[Long],
Exploring the Impact of the Takeover Time for Conditionally Automated Driving Vehicles on Traffic Flow in Highway Merging Area,
ITS(23), No. 12, December 2022, pp. 24753-24764.
IEEE DOI 2212
Vehicles, Safety, Behavioral sciences, Manuals, Autonomous vehicles, Stability criteria, Data models, \traffic flow analysis BibRef

Heo, J.[Jiwoong], Lee, H.[Hucheol], Yoon, S.[Sangwon], Kim, K.[Kwanguk],
Responses to Take-Over Request in Autonomous Vehicles: Effects of Environmental Conditions and Cues,
ITS(23), No. 12, December 2022, pp. 23573-23582.
IEEE DOI 2212
Vehicles, Autonomous vehicles, Accidents, Wheels, Manuals, Visualization, Current measurement, Autonomous vehicles, directional cue BibRef

Li, Q.K.[Qing-Kun], Wang, Z.Y.[Zhen-Yuan], Wang, W.J.[Wen-Jun], Zeng, C.[Chao], Li, G.F.[Guo-Fa], Yuan, Q.[Quan], Cheng, B.[Bo],
An Adaptive Time Budget Adjustment Strategy Based on a Take-Over Performance Model for Passive Fatigue,
HMS(52), No. 5, October 2022, pp. 1025-1035.
IEEE DOI 2209
Fatigue, Vehicles, Task analysis, Measurement, Adaptation models, Predictive models, Adaptive systems, Automated driving, take-over BibRef

Feierle, A.[Alexander], Schlichtherle, F.[Fabian], Bengler, K.[Klaus],
Augmented Reality Head-Up Display: A Visual Support During Malfunctions in Partially Automated Driving?,
ITS(23), No. 5, May 2022, pp. 4853-4865.
IEEE DOI 2205
Vehicles, Instruments, Visualization, Light emitting diodes, Strips, Monitoring, Augmented reality, Augmented reality head-up display, take-over performance BibRef

Samani, A.R.[Ali Riahi], Mishra, S.[Sabyasachee],
Assessing Driving Styles in Commercial Motor Vehicle Drivers After Take-Over Conditions in Highly Automated Vehicles,
ITS(23), No. 10, October 2022, pp. 19161-19172.
IEEE DOI 2210
Vehicles, Roads, Manuals, Automobiles, Automation, Feature extraction, Accidents, Take-over, commercial motor vehicles, multivariate dynamic time warping BibRef

Li, Q.K.[Qing-Kun], Wang, Z.Y.[Zhen-Yuan], Wang, W.J.[Wen-Jun], Zeng, C.[Chao], Wu, C.X.[Chang-Xu], Li, G.[Guofa], Heh, J.S.[Jia-Sheng], Cheng, B.[Bo],
A Human-Centered Comprehensive Measure of Take-Over Performance Based on Multiple Objective Metrics,
ITS(24), No. 4, April 2023, pp. 4235-4250.
IEEE DOI 2304
Measurement, Vehicles, Principal component analysis, Safety, Sparse matrices, Loading, Correlation, Automated driving, take-over BibRef

Huang, G.[Gaojian], Pitts, B.J.[Brandon J.],
To Inform or to Instruct? An Evaluation of Meaningful Vibrotactile Patterns to Support Automated Vehicle Takeover Performance,
HMS(53), No. 4, August 2023, pp. 678-687.
IEEE DOI 2308
Vehicles, Brakes, Task analysis, Lead, Visualization, Time factors, Protocols, Automated driving, haptics, human-machine interfaces, takeover BibRef

Li, Q.K.[Qing-Kun], Su, Y.Z.[Yi-Zi], Wang, W.J.[Wen-Jun], Wang, Z.Y.[Zhen-Yuan], He, J.[Jibo], Li, G.[Guofa], Zeng, C.[Chao], Cheng, B.[Bo],
Latent Hazard Notification for Highly Automated Driving: Expected Safety Benefits and Driver Behavioral Adaptation,
ITS(24), No. 10, October 2023, pp. 11278-11292.
IEEE DOI 2310
BibRef

Dai, C.H.[Chang-Hua], Zong, C.F.[Chang-Fu], Zhang, D.[Dong], Hua, M.[Min], Zheng, H.Y.[Hong-Yu], Chuyo, K.[Kaku],
A Bargaining Game-Based Human-Machine Shared Driving Control Authority Allocation Strategy,
ITS(24), No. 10, October 2023, pp. 10572-10586.
IEEE DOI 2310
BibRef

Pipkorn, L.[Linda], Tivesten, E.[Emma], Flannagan, C.[Carol], Dozza, M.[Marco],
Driver Response to Take-Over Requests in Real Traffic,
HMS(53), No. 5, October 2023, pp. 823-833.
IEEE DOI 2310
BibRef

Bonyani, M.[Mahdi], Rahmanian, M.[Mina], Jahangard, S.[Simindokht], Rezaei, M.[Mahdi],
DIPNet: Driver intention prediction for a safe takeover transition in autonomous vehicles,
IET-ITS(17), No. 9, 2023, pp. 1769-1783.
DOI Link 2310
autonomous vehicles, deep neural networks, driver behavior, driving intention, long short-term memory, vehicle automation BibRef

Yang, B.[Bo], Inoue, K.[Koichiro], Yan, Z.H.[Zhan-Hong], Wang, Z.[Zheng], Kitazaki, S.[Satoshi], Nakano, K.[Kimihiko],
Influences of Level 2 Automated Driving on Driver Behaviors: A Comparison With Manual Driving,
ITS(25), No. 1, January 2024, pp. 144-158.
IEEE DOI 2402
Vehicles, Monitoring, Behavioral sciences, Task analysis, Automation, Safety, Roads, Driver behavior, eye-gaze behavior, manual driving BibRef

Huang, C.[Chao], Yang, B.[Bo], Nakano, K.[Kimihiko],
Impact of Personality on Takeover Time and Maneuvers Shortly After Takeover Request,
ITS(25), No. 9, September 2024, pp. 10712-10724.
IEEE DOI 2409
Vehicles, Task analysis, Predictive models, Roads, Manuals, Ethics, Correlation, Takeover time, takeover performance, personality, automated driving BibRef

Xu, L.[Linli], Guo, L.[Lie], Ge, P.[Pingshu], Wang, X.[Xu],
Transition in Different Critical Situations: How Non-Driving Related Tasks Affect Drivers' Physiological Response and Takeover Behavior After Partial Automation Silent Failures,
ITS(25), No. 11, November 2024, pp. 16642-16652.
IEEE DOI 2411
Automation, Vehicles, Task analysis, Safety, Monitoring, Control systems, Visualization, Silent automation failure, visual behavior BibRef

Gu, Y.[Yu], Weng, Y.B.[Yi-Bing], Wang, Y.[Yantong], Wang, M.[Meng], Zhuang, G.[Guohang], Huang, J.Y.[Jin-Yang], Peng, X.L.[Xiao-Lan], Luo, L.[Liang], Ren, F.[Fuji],
EmoTake: Exploring Drivers' Emotion for Takeover Behavior Prediction,
AffCom(15), No. 4, October 2024, pp. 2112-2127.
IEEE DOI 2412
Vehicles, Manuals, Cameras, Safety, Affective computing, Long short term memory, Task analysis, Affect analysis, takeover BibRef

Murshed, M.[Mubashir], Carvalho, G.H.S.[Glaucio H. S.], de Grande, R.E.[Robson E.],
Ensemble SARSA and LSTM for User-Centric Handover Decisions in 5G Vehicular Networks,
ITS(25), No. 12, December 2024, pp. 21197-21209.
IEEE DOI 2412
5G mobile communication, Vehicle dynamics, Handover, Adaptation models, Time series analysis, Decision making, ultra-dense networks BibRef

Richie, E.[Erin], Offer-Westort, T.[Thomas], Shankar, R.[Raghavendran], Jeon, M.[Myounghoon],
Auditory Displays for Take-Over in Semi-automated Vehicles,
DHM18(623-634).
Springer DOI 1807
BibRef

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Driver Assistance, Displays, Views .