Abstract
This paper presents an outdoors laser-based pedestrian tracking system using a group of mobile robots located near each other. Each robot detects pedestrians from its own laser scan image using an occupancy-grid-based method, and the robot tracks the detected pedestrians via Kalman filtering and global-nearest-neighbor (GNN)-based data association. The tracking data is broadcast to multiple robots through intercommunication and is combined using the covariance intersection (CI) method. For pedestrian tracking, each robot identifies its own posture using real-time-kinematic GPS (RTK-GPS) and laser scan matching. Using our cooperative tracking method, all the robots share the tracking data with each other; hence, individual robots can always recognize pedestrians that are invisible to any other robot. The simulation and experimental results show that cooperating tracking provides the tracking performance better than conventional individual tracking does. Our tracking system functions in a decentralized manner without any central server, and therefore, this provides a degree of scalability and robustness that cannot be achieved by conventional centralized architectures.
Highlights
Tracking of pedestrians is important to ensure safe navigation of mobile robots and vehicles
We previously presented a pedestrian tracking method using laser range scanner (LRS) mounted on mobile robots and automobiles [6,7,8]
Even if pedestrians are located outside the sensing area of any individual robot or vehicle, it can detect pedestrians using the tracking data received from other robots and vehicles in the vicinity, and multiple robots can improve the accuracy and reliability of pedestrian tracking
Summary
Tracking (i.e., estimating the motion) of pedestrians is important to ensure safe navigation of mobile robots and vehicles. Many studies related to multi-robot coordination and cooperation have been conducted [9,10] When these robots and vehicles are located near each other, they can share their sensing data. In an intelligent transport system (ITS), if the tracking data is shared with neighboring vehicles through vehicle-to-vehicle communication, each vehicle can detect pedestrians efficiently This facilitates the construction of an advanced driver-assistance-system. This paper presents a pedestrian tracking method employing multiple mobile robots and vehicles. Recent studies [22,23] in cooperative pedestrian tracking by multiple mobile robots require centralized data fusion with a central server; sensing data captured by each robot are sent to a central server for subsequent data fusion.
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