Inderscience Publishers - linking academia, business and industry through research
Posts eeg drivers#
The study provides us with the operating performance and internal physiological activities of drivers in the braking process.
/https://public-media.smithsonianmag.com/filer/6a/00/6a00c0bc-f6c5-42b1-b7b0-c03335d17b32/eeg_cap.jpg "posts eeg")
The reaction time of drivers was related to the increment of the β activity, indicating that the driver's risk perception stage will affect their risk reaction. The results indicate that the indicators of β activity and reaction time discriminated between the novice and experienced drivers. The power spectral density (PSD) of beta activity was analysed because it dominated when drivers braked in an emergency. There are mainly four frequency bands for human EEG activity: alpha, beta, theta, and delta. Twenty-seven participants were asked to drive through a 12-km dynamic scenario with EEG signals recorded simultaneously. We used electroencephalography (EEG) and reaction time to quantify the differences between experienced and novice drivers' risk perception and braking behaviour in a driving simulator.
Posts eeg driver#
Article: EEG-based assessment in novice and experienced drivers' braking behaviour during simulated driving Journal: International Journal of Vehicle Performance (IJVP) 2020 Vol.6 No.4 pp.425 - 445 Abstract: The driver is an essential factor in the traffic system, and inexperienced drivers are special high-risk groups.
0 kommentar(er)
