TY - JOUR
T1 - Association between length of upstream tunnels and visual load in connection zones of highway tunnel groups
AU - Zheng, Haoran
AU - Rasouli, Soora
AU - Du, Zhigang
AU - Wang, Shoushuo
PY - 2024/5
Y1 - 2024/5
N2 - To investigate drivers' visual load and comfort in the distance between
adjacent tunnels (tunnel group connection zones), the maximum transient
vibration value (MTVV) of the pupil area is used in this study as the
index to analyze the visual load characteristics of the driver
throughout the connection zones in highway tunnel groups. Data was
collected using field driving experiments during which the pupil area
change rate is measured as an additional indicator to evaluate the
sufficiency of the length of the connection zones from the perspective
of drivers’ visual adaptation. The findings show that the length of the
upstream tunnel affects the visual strain of the drivers when they enter
the connection zone. The visual load and its association with the
length of the upstream tunnel appeared to be in the following descending
order: short > extra-long > long > medium tunnel. The visual
discomfort level in the short upstream tunnel has shown to be
“uncomfortable,” while the level of comfort slightly rises to “fairly
uncomfortable,” in the connection zone when the upstream tunnel is extra
long and long. Departing from medium upstream tunnel resulted in the
highest level of comfort “a little uncomfortable level” in the
connection zone. When the upstream tunnels are short and medium in
length, the required time for light adaptation is 5 s. The connection
zone length threshold which is the minimum length of connection zone in
order for two consecutive tunnels not to affect each other in terms of
visual load of drivers is calculated to be 713.89 m. The driver's pupil
area change during light adaptation when the upstream tunnel is short
and medium is in the range of 30–40 %. When upstream tunnel is long and
extremely long, the light adaptation time is 8 s and 9 s, respectively,
and the respective thresholds for connection zone are 797.22 m and
825 m. The drivers' pupil area change in long and extremely long tunnels
during light adaptation is in the range of 38–50 % and 43–50 %,
respectively. Findings in this study can be used for the design of
connection zones between tunnels in a highway tunnel group.
AB - To investigate drivers' visual load and comfort in the distance between
adjacent tunnels (tunnel group connection zones), the maximum transient
vibration value (MTVV) of the pupil area is used in this study as the
index to analyze the visual load characteristics of the driver
throughout the connection zones in highway tunnel groups. Data was
collected using field driving experiments during which the pupil area
change rate is measured as an additional indicator to evaluate the
sufficiency of the length of the connection zones from the perspective
of drivers’ visual adaptation. The findings show that the length of the
upstream tunnel affects the visual strain of the drivers when they enter
the connection zone. The visual load and its association with the
length of the upstream tunnel appeared to be in the following descending
order: short > extra-long > long > medium tunnel. The visual
discomfort level in the short upstream tunnel has shown to be
“uncomfortable,” while the level of comfort slightly rises to “fairly
uncomfortable,” in the connection zone when the upstream tunnel is extra
long and long. Departing from medium upstream tunnel resulted in the
highest level of comfort “a little uncomfortable level” in the
connection zone. When the upstream tunnels are short and medium in
length, the required time for light adaptation is 5 s. The connection
zone length threshold which is the minimum length of connection zone in
order for two consecutive tunnels not to affect each other in terms of
visual load of drivers is calculated to be 713.89 m. The driver's pupil
area change during light adaptation when the upstream tunnel is short
and medium is in the range of 30–40 %. When upstream tunnel is long and
extremely long, the light adaptation time is 8 s and 9 s, respectively,
and the respective thresholds for connection zone are 797.22 m and
825 m. The drivers' pupil area change in long and extremely long tunnels
during light adaptation is in the range of 38–50 % and 43–50 %,
respectively. Findings in this study can be used for the design of
connection zones between tunnels in a highway tunnel group.
KW - Highway tunnel group
KW - Connection zone
KW - Visual load
KW - Length threshold
KW - Visual adaptability
UR - http://www.scopus.com/inward/record.url?scp=85189134397&partnerID=8YFLogxK
U2 - 10.1016/j.tust.2024.105736
DO - 10.1016/j.tust.2024.105736
M3 - Article
SN - 0886-7798
VL - 147
JO - Tunnelling and Underground Space Technology
JF - Tunnelling and Underground Space Technology
M1 - 105736
ER -