TY - GEN
T1 - Acting together by mutual control
T2 - 2014 15th International Conference on Collaboration Technologies and Systems, CTS 2014
AU - Zimmermann, Markus
AU - Bauer, Stefan
AU - Lutteken, Niklas
AU - Rothkirch, Iris M.
AU - Bengler, Klaus J.
PY - 2014
Y1 - 2014
N2 - This paper presents a study on the evaluation of a proposed interaction concept for cooperative driving in a lane-change scenario. First, cooperative driving is set into the context of hu-man-machine cooperation. Second, for designing the system, the interaction between driver and car is established (based on mutual control), and the cooperation among different vehicles is elabo-rated. A timing sequence is presented for both. The corresponding multimodal user interface is introduced. The interface focuses on augmented reality via the contact analogue head-up display. During its design phase, certain mode aspects and design patterns are considered in order to improve the cooperation. Third, the implementation is outlined. Fourth, the evaluation is presented discussing the within-subjects experiment with 25 participants by means of three aspects: user interface quality, interaction timing and workload measurement, as a basis for user state inference. We obtained evidence that the proposed interaction concept improves cooperative behavior and increases safety. We furthermore verified a U-shaped relation between workload and performance by using a variety of different metrics. In a fifth step, future iterations are depicted.
AB - This paper presents a study on the evaluation of a proposed interaction concept for cooperative driving in a lane-change scenario. First, cooperative driving is set into the context of hu-man-machine cooperation. Second, for designing the system, the interaction between driver and car is established (based on mutual control), and the cooperation among different vehicles is elabo-rated. A timing sequence is presented for both. The corresponding multimodal user interface is introduced. The interface focuses on augmented reality via the contact analogue head-up display. During its design phase, certain mode aspects and design patterns are considered in order to improve the cooperation. Third, the implementation is outlined. Fourth, the evaluation is presented discussing the within-subjects experiment with 25 participants by means of three aspects: user interface quality, interaction timing and workload measurement, as a basis for user state inference. We obtained evidence that the proposed interaction concept improves cooperative behavior and increases safety. We furthermore verified a U-shaped relation between workload and performance by using a variety of different metrics. In a fifth step, future iterations are depicted.
KW - Augmented Reality
KW - Cooperative Adaptive Cruise Control
KW - Driver State and Intent Recognition
KW - Human-Machine Cooperation
KW - Human-Machine Interface and Interaction (HMI) in Vehicles
KW - Multimodality
UR - http://www.scopus.com/inward/record.url?scp=84906216084&partnerID=8YFLogxK
U2 - 10.1109/CTS.2014.6867569
DO - 10.1109/CTS.2014.6867569
M3 - Conference contribution
AN - SCOPUS:84906216084
SN - 9781479951567
T3 - 2014 International Conference on Collaboration Technologies and Systems, CTS 2014
SP - 227
EP - 235
BT - 2014 International Conference on Collaboration Technologies and Systems, CTS 2014
PB - IEEE Computer Society
Y2 - 19 May 2014 through 23 May 2014
ER -