Vision-Sensor-Assisted Probabilistic Localization Method for Indoor Environment

Abstract: Among the numerous indoor localization methods, Light-Detection-and-Ranging (LiDAR)-based probabilistic algorithms have been extensively applied to indoor localization due to their real-time performance and high accuracy. Nevertheless, these methods are challenged in symmetrical environments when tackling global localization and the robot kidnapping problem. In this paper, a novel hybrid method that combines visual and probabilistic localization results is proposed. Augmented Monte Carlo Localization (AMCL) is… Show more

“…The solution employs a heterogeneous visual sensor network composed of both fixed and pan-tilt-zoom (PTZ) cameras. Finally, Shi et al [34] proposed a novel hybrid method that combines visual and probabilistic localization results to improve the accuracy of indoor positioning systems. By combining these two techniques, the researchers were able to demonstrate improved accuracy in the determination of the location of a mobile robot within an indoor environment.…”

A novel visual tracking scheme for unstructured indoor environments

“…The solution employs a heterogeneous visual sensor network composed of both fixed and pan-tilt-zoom (PTZ) cameras. Finally, Shi et al [34] proposed a novel hybrid method that combines visual and probabilistic localization results to improve the accuracy of indoor positioning systems. By combining these two techniques, the researchers were able to demonstrate improved accuracy in the determination of the location of a mobile robot within an indoor environment.…”

A novel visual tracking scheme for unstructured indoor environments

Exploring 2D Representation and Transfer Learning Techniques for People Identification in Indoor Localization

Research on AMCL Algorithm Coupled with DWA Algorithm in Logistics Scenarios