Using 3D Mobile Mapping to Evaluate Intersection Design Through Drivers’ Visual Perception

Yu, Bo; Bao, Shan; Chen, Yu-Ren

doi:10.1109/access.2019.2896217

Cited by 12 publications

(4 citation statements)

References 33 publications

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“…Through image recognition technology and a machine learning algorithm, the research team of the Chinese Academy of Sciences quantified the visual perception of people in an urban physical space environment in the process of moving and predicted the perception attributes [71]. A joint study of the University of Michigan and Tongji University used 3D Mobile Mapping to quantify the dynamic visual perception of drivers under different speeds and viewing angles to evaluate the spatial design of intersections [81]. Based on continuous viewpoint dynamic visual perception translation technology, Jin X et al transformed the perceptual dynamic visual perception of people during movement into objective digital representations or datasets, thereby quantitatively evaluating linear urban landscape morphology [14].…”

Section: Dynamic Visual Quality Assessmentmentioning

confidence: 99%

A Review of Cityscape Research Based on Dynamic Visual Perception

Jin

2023

Land

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Dynamic visual experience is the most common way for people to perceive a cityscape. Previous research reviews on cityscapes have mainly focused on spatial planning, social culture, economic development, ecological protection, etc., with little consideration of the impact of dynamic visual perception on the formation of cityscapes, which hinders the provision of references for the practice of people-centered urban design concepts. Therefore, this article selected 94 works in the relevant literature from 1940 to 2022 to conduct a critical review. First, we conceptualized the cityscape in light of earlier substantial discussions on the intimate relationship between dynamic visual perception and the cityscape. Then, we divided the relevant research from the past century and a half into three periods and summarized theoretical and practical research on the cityscape in these different periods from the perspective of dynamic visual perception. Among these, the refined research on interdisciplinary methods, including Visual Quality Assessment based on dynamic visual perception and visibility analysis algorithms based on digital technology, is emphatically described and discussed. Based on a comprehensive review, this article concludes that the main application scenarios for the existing research on dynamic visual perception are cityscape assessment and decision making. Finally, three avenues for future research are proposed.

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Section: Dynamic Visual Quality Assessmentmentioning

confidence: 99%

A Review of Cityscape Research Based on Dynamic Visual Perception

Jin

2023

Land

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“…(1) Visual Geometry Information According to our previous study, the Catmull-Rom spline can fit the road geometry from a driver's visual perspective well [24][25][26]. Since there is not always a centerline on rural roads, two Catmull-Rom splines were applied to fit the left and right lane boundaries.…”

Section: Visual Road Information Extractionmentioning

confidence: 99%

Quantifying the Effects of Visual Road Information on Drivers’ Speed Choices to Promote Self-Explaining Roads

Qin

Chen

Lin

2020

IJERPH

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Roads should deliver appropriate information to drivers and thus induce safer driving behavior. This concept is also known as “self-explaining roads” (SERs). Previous studies have demonstrated that understanding how road characteristics affect drivers’ speed choices is the key to SERs. Thus, in order to reduce traffic casualties via engineering methods, this study aimed to establish a speed decision model based on visual road information and to propose an innovative method of SER design. It was assumed that driving speed is determined by road geometry and modified by the environment. Lane fitting and image semantic segmentation techniques were used to extract road features. Field experiments were conducted in Tibet, China, and 1375 typical road scenarios were picked out. By controlling variables, the driving speed stimulated by each piece of information was evaluated. Prediction models for geometry-determined speed and environment-modified speed were built using the random forest algorithm and convolutional neural network. Results showed that the curvature of the right boundary in “near scene” and “middle scene”, and the density of roadside greenery and residences play an important role in regulating driving speed. The findings of this research could provide qualitative and quantitative suggestions for the optimization of road design that would guide drivers to choose more reasonable driving speeds.

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“…In this study, we use 3D mobile scanned data for driver-oriented visual analysis in a near-realistic driving environment. While previous studies investigating driver’s field of view (e.g., [ 24 , 25 , 26 , 27 , 29 , 30 ]) have mainly focused on only the geometry of road, this study sought to include a visual assessment of urban objects and environments on and near roads. Various urban objects (including trees, surrounding buildings, and entrances to apartment complexes) affect visual perception on roads and provide drivers with various confusing sources of information that are difficult to construct in virtual and conventionally digitized environments.…”

Section: Introductionmentioning

confidence: 99%

Drivers’ Visual Perception Quantification Using 3D Mobile Sensor Data for Road Safety

Choi

Byun

Kim

et al. 2020

Sensors

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To prevent driver accidents in cities, local governments have established policies to limit city speeds and create child protection zones near schools. However, if the same policy is applied throughout a city, it can be difficult to obtain smooth traffic flows. A driver generally obtains visual information while driving, and this information is directly related to traffic safety. In this study, we propose a novel geometric visual model to measure drivers’ visual perception and analyze the corresponding information using the line-of-sight method. Three-dimensional point cloud data are used to analyze on-site three-dimensional elements in a city, such as roadside trees and overpasses, which are normally neglected in urban spatial analyses. To investigate drivers’ visual perceptions of roads, we have developed an analytic model of three types of visual perception. By using this proposed method, this study creates a risk-level map according to the driver’s visual perception degree in Pangyo, South Korea. With the point cloud data from Pangyo, it is possible to analyze actual urban forms such as roadside trees, building shapes, and overpasses that are normally excluded from spatial analyses that use a reconstructed virtual space.

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Using 3D Mobile Mapping to Evaluate Intersection Design Through Drivers’ Visual Perception

Cited by 12 publications

References 33 publications

A Review of Cityscape Research Based on Dynamic Visual Perception

A Review of Cityscape Research Based on Dynamic Visual Perception

Quantifying the Effects of Visual Road Information on Drivers’ Speed Choices to Promote Self-Explaining Roads

Drivers’ Visual Perception Quantification Using 3D Mobile Sensor Data for Road Safety

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