Jianying Zheng scite author profile

Jianying Zheng

5Publications

167Citation Statements Received

54Citation Statements Given

How they've been cited

322

167

How they cite others

Affiliations

Soochow University, Beihang University, Hong Kong University of Science and Technology

Publications

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Automatic Background Filtering Method for Roadside LiDAR Data

Jian

Sun

et al. 2018

Transportation Research Record: Journal of the Transportation R

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The high-resolution micro traffic data (HRMTD) of all roadway users is important for serving the connected-vehicle system in mixed traffic situations. The roadside LiDAR sensor gives a solution to providing HRMTD from real-time 3D point clouds of its scanned objects. Background filtering is the preprocessing step to obtain the HRMTD of different roadway users from roadside LiDAR data. It can significantly reduce the data processing time and improve the vehicle/pedestrian identification accuracy. An algorithm is proposed in this paper, based on the spatial distribution of laser points, which filters both static and moving background efficiently. Various thresholds of point density are applied in this algorithm to exclude background at different distances from the roadside sensor. The case study shows that the algorithm can filter background LiDAR points in different situations (different road geometries, different traffic demands, day/night time, different speed limits). Vehicle and pedestrian shape can be retained well after background filtering. The low computational load guarantees this method can be applied for real-time data processing such as vehicle monitoring and pedestrian tracking.

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Automatic background filtering and lane identification with roadside LiDAR data

Jian

Zheng

2017

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Roadside Magnetic Sensor System for Vehicle Detection in Urban Environments

Wang

Zheng

et al. 2018

IEEE Trans. Intell. Transport. Syst.

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3-D Data Processing to Extract Vehicle Trajectories from Roadside LiDAR Data

Sun

et al. 2018

Transportation Research Record: Journal of the Transportation R

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High-resolution vehicle data including location, speed, and direction is significant for new transportation systems, such as connected-vehicle applications, micro-level traffic performance evaluation, and adaptive traffic control. This research developed a data processing procedure for detection and tracking of multi-lane multi-vehicle trajectories with a roadside light detection and ranging (LiDAR) sensor. Different from existing methods for vehicle onboard sensing systems, this procedure was developed specifically to extract high-resolution vehicle trajectories from roadside LiDAR sensors. This procedure includes preprocessing of the raw data, statistical outlier removal, a Least Median of Squares based ground estimation method to accurately remove the ground points, vehicle data clouds clustering, a principle component-based oriented bounding box method to estimate the location of the vehicle, and a geometrically-based tracking algorithm. The developed procedure has been applied to a two-way-stop-sign intersection and an arterial road in Reno, Nevada. The data extraction procedure has been validated by comparing tracking results and speeds logged from a testing vehicle through the on-board diagnostics interface. This data processing procedure could be applied to extract high-resolution trajectories of connected and unconnected vehicles for connected-vehicle applications, and the data will be valuable to practices in traffic safety, traffic mobility, and fuel efficiency estimation.

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Robust Localization Algorithm Based on the RSSI Ranging Scope

Huang

Zheng

Xiao

et al. 2015

International Journal of Distributed Sensor Networks

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Wireless signal can be easily influenced by the environment in the propagation process. The signal propagation model is the most appropriate model for current indoor environment to ensure the ranging accuracy based on received signal strength indicator (RSSI). In this paper, we propose a robust localization algorithm based on the RSSI ranging scope by which the RSSI ranging error caused by using a fixed parameter in signal propagation model is dramatically eliminated. Our contributions in this paper are twofold. First, the influence of RSSI ranging error on positioning accuracy is well discussed in detail in the scope of the wireless signal propagation model. Second, we develop a robust localization algorithm which creates a one-to-one mapping between the RSSI value and the distance scope based on the value scope of path loss exponent in the signal propagation model. Simulation results indicate that the proposed localization algorithm based on the RSSI ranging scope is robust under different environments, when the real path loss exponent is difficult to measure accurately.

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Jianying Zheng

Automatic Background Filtering Method for Roadside LiDAR Data

Automatic background filtering and lane identification with roadside LiDAR data

Roadside Magnetic Sensor System for Vehicle Detection in Urban Environments

3-D Data Processing to Extract Vehicle Trajectories from Roadside LiDAR Data

Robust Localization Algorithm Based on the RSSI Ranging Scope

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