TY - JOUR
PY - 2022//
TI - Adaptive kernel density estimation for traffic accidents based on improved bandwidth research on black spot identification model
JO - Electronics (Basel, Switzerland)
A1 - Ge, Huimin
A1 - Dong, Lei
A1 - Huang, Mingyue
A1 - Zang, Wenkai
A1 - Zhou, Lijun
SP - e3604
EP - e3604
VL - 11
IS - 21
N2 - At present, the total length of accident blackspot accounts for 0.25% of the total length of the road network, while the total number of accidents that occurred at accident black spots accounts for 25% of the total number of accidents on the road network. This paper describes a traffic accident black spot recognition model based on the adaptive kernel density estimation method combined with the road risk index. Using the traffic accident data of national and provincial trunk lines in Shanghai and ArcGIS software, the recognition results of black spots were compared with the recognition results of the accident frequency method and the kernel density estimation method, and the clustering degree of recognition results of adaptive kernel density estimation method were analyzed. The results show that: the accident prediction accuracy index values of the accident frequency method, kernel density estimation method, and traffic accident black spot recognition model were 14.39, 16.36, and 18.25, respectively, and the lengths of the traffic accident black spot sections were 184.68, 162.45, and 145.57, respectively, which means that the accident black spot section determined by the accident black spot recognition model was the shortest and the number of traffic accidents identified was the largest. Considering the safety improvement budget of 20% of the road length, the adaptive kernel density estimation method could identify about 69% of the traffic accidents, which was 1.13 times and 1.27 times that of the kernel density estimation method and the accident frequency method, respectively. Language: en
LA - en
SN - 2079-9292
UR - http://dx.doi.org/10.3390/electronics11213604
ID - ref1
ER -